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Comparing deliantra/server/common/object.C (file contents):
Revision 1.60 by pippijn, Mon Dec 11 21:06:58 2006 UTC vs.
Revision 1.249 by root, Tue Jul 15 20:41:58 2008 UTC

1	/*	1	/*
2	CrossFire, A Multiplayer game for X-windows	2	* This file is part of Deliantra, the Roguelike Realtime MMORPG.
3		3	*
		4	* Copyright (©) 2005,2006,2007,2008 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
4	Copyright (C) 2001 Mark Wedel & Crossfire Development Team	5	* Copyright (©) 2001,2007 Mark Wedel & Crossfire Development Team
5	Copyright (C) 1992 Frank Tore Johansen	6	* Copyright (©) 1992,2007 Frank Tore Johansen
6		7	*
7	This program is free software; you can redistribute it and/or modify	8	* Deliantra is free software: you can redistribute it and/or modify
8	it under the terms of the GNU General Public License as published by	9	* it under the terms of the GNU General Public License as published by
9	the Free Software Foundation; either version 2 of the License, or	10	* the Free Software Foundation, either version 3 of the License, or
10	(at your option) any later version.	11	* (at your option) any later version.
11		12	*
12	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,
13	but WITHOUT ANY WARRANTY; without even the implied warranty of	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
14	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15	GNU General Public License for more details.	16	* GNU General Public License for more details.
16		17	*
17	You should have received a copy of the GNU General Public License	18	* You should have received a copy of the GNU General Public License
18	along with this program; if not, write to the Free Software	19	* along with this program. If not, see <http://www.gnu.org/licenses/>.
19	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.	20	*
20		21	* The authors can be reached via e-mail to <support@deliantra.net>
21	The authors can be reached via e-mail at <crossfire@schmorp.de>
22	*/	22	*/
23		23
24	/* Eneq(@csd.uu.se): Added weight-modifiers in environment of objects.
25	sub/add_weight will transcend the environment updating the carrying
26	variable. */
27	#include <global.h>	24	#include <global.h>
28	#include <stdio.h>	25	#include <stdio.h>
29	#include <sys/types.h>	26	#include <sys/types.h>
30	#include <sys/uio.h>	27	#include <sys/uio.h>
31	#include <object.h>	28	#include <object.h>
32	#include <funcpoint.h>	29	#include <sproto.h>
33	#include <loader.h>	30	#include <loader.h>
34		31
35	int nrofallocobjects = 0;	32	#include <bitset>
36	static UUID uuid;	33
		34	UUID UUID::cur;
		35	static uint64_t seq_next_save;
37	const uint64 UUID_SKIP = 1<<19;	36	static const uint64 UUID_GAP = 1<<19;
38		37
39	object *active_objects; /* List of active objects that need to be processed */	38	objectvec objects;
		39	activevec actives;
40		40
41	short freearr_x[SIZEOFFREE] = { 0, 0, 1, 1, 1, 0, -1, -1, -1, 0, 1, 2, 2, 2, 2, 2, 1, 0, -1, -2, -2, -2, -2, -2, -1,	41	short freearr_x[SIZEOFFREE] = {
		42	0,
		43	0, 1, 1, 1, 0, -1, -1, -1,
		44	0, 1, 2, 2, 2, 2, 2, 1, 0, -1, -2, -2, -2, -2, -2, -1,
42	0, 1, 2, 3, 3, 3, 3, 3, 3, 3, 2, 1, 0, -1, -2, -3, -3, -3, -3, -3, -3, -3, -2, -1	45	0, 1, 2, 3, 3, 3, 3, 3, 3, 3, 2, 1, 0, -1, -2, -3, -3, -3, -3, -3, -3, -3, -2, -1
43	};	46	};
44	short freearr_y[SIZEOFFREE] = { 0, -1, -1, 0, 1, 1, 1, 0, -1, -2, -2, -2, -1, 0, 1, 2, 2, 2, 2, 2, 1, 0, -1, -2, -2,	47	short freearr_y[SIZEOFFREE] = {
		48	0,
		49	-1, -1, 0, 1, 1, 1, 0, -1,
		50	-2, -2, -2, -1, 0, 1, 2, 2, 2, 2, 2, 1, 0, -1, -2, -2,
45	-3, -3, -3, -3, -2, -1, 0, 1, 2, 3, 3, 3, 3, 3, 3, 3, 2, 1, 0, -1, -2, -3, -3, -3	51	-3, -3, -3, -3, -2, -1, 0, 1, 2, 3, 3, 3, 3, 3, 3, 3, 2, 1, 0, -1, -2, -3, -3, -3
46	};	52	};
47	int maxfree[SIZEOFFREE] = { 0, 9, 10, 13, 14, 17, 18, 21, 22, 25, 26, 27, 30, 31, 32, 33, 36, 37, 39, 39, 42, 43, 44, 45,	53	int maxfree[SIZEOFFREE] = {
		54	0,
		55	9, 10, 13, 14, 17, 18, 21, 22,
		56	25, 26, 27, 30, 31, 32, 33, 36, 37, 39, 39, 42, 43, 44, 45, 48,
48	48, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49	57	49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49, 49
49	};	58	};
50	int freedir[SIZEOFFREE] = {	59	int freedir[SIZEOFFREE] = {
51	0, 1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 2, 2, 3, 4, 4, 4, 5, 6, 6, 6, 7, 8, 8, 8,	60	0,
		61	1, 2, 3, 4, 5, 6, 7, 8,
		62	1, 2, 2, 2, 3, 4, 4, 4, 5, 6, 6, 6, 7, 8, 8, 8,
52	1, 2, 2, 2, 2, 2, 3, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 7, 8, 8, 8, 8, 8	63	1, 2, 2, 2, 2, 2, 3, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 7, 8, 8, 8, 8, 8
53	};	64	};
54		65
55	static void	66	static void
56	write_uuid (void)	67	write_uuid (uval64 skip, bool sync)
57	{	68	{
58	char filename1[MAX_BUF], filename2[MAX_BUF];	69	CALL_BEGIN (2);
59		70	CALL_ARG_SV (newSVval64 (skip));
60	sprintf (filename1, "%s/uuid", settings.localdir);	71	CALL_ARG_SV (boolSV (sync));
61	sprintf (filename2, "%s/uuid~", settings.localdir);	72	CALL_CALL ("cf::write_uuid", G_DISCARD);
62		73	CALL_END;
63	FILE *fp;
64
65	if (!(fp = fopen (filename2, "w")))
66	{
67	LOG (llevError, "ERROR: cannot open %s for writing, unable to write UUID!\n", filename2);
68	return;
69	}
70
71	fprintf (fp, "<1,%llx>\n", (unsigned long long)uuid.seq + UUID_SKIP * 2);
72	fclose (fp);
73	rename (filename2, filename1);
74	}	74	}
75		75
76	static void	76	static void
77	read_uuid (void)	77	read_uuid (void)
78	{	78	{
79	char filename[MAX_BUF];	79	char filename[MAX_BUF];
80		80
81	sprintf (filename, "%s/uuid", settings.localdir);	81	sprintf (filename, "%s/uuid", settings.localdir);
		82
		83	seq_next_save = 0;
82		84
83	FILE *fp;	85	FILE *fp;
84		86
85	if (!(fp = fopen (filename, "r")))	87	if (!(fp = fopen (filename, "r")))
86	{	88	{
87	if (errno == ENOENT)	89	if (errno == ENOENT)
88	{	90	{
89	LOG (llevInfo, "RESET uid to 1\n");	91	LOG (llevInfo, "RESET uid to 1\n");
90	uuid.seq = 0;	92	UUID::cur.seq = 0;
91	write_uuid ();	93	write_uuid (UUID_GAP, true);
92	return;	94	return;
93	}	95	}
94		96
95	LOG (llevError, "FATAL: cannot open %s for reading!\n", filename);	97	LOG (llevError, "FATAL: cannot open %s for reading!\n", filename);
96	_exit (1);	98	_exit (1);
97	}	99	}
98		100
99	int version;	101	UUID::BUF buf;
100	unsigned long long uid;	102	buf[0] = 0;
101	if (2 != fscanf (fp, "<%d,%llx>\n", &version, &uid) || version != 1)	103	fgets (buf, sizeof (buf), fp);
		104
		105	if (!UUID::cur.parse (buf))
102	{	106	{
103	LOG (llevError, "FATAL: error reading uid from %s!\n", filename);	107	LOG (llevError, "FATAL: error reading uid from %s (%s)!\n", filename, buf);
104	_exit (1);	108	_exit (1);
105	}	109	}
106		110
107	uuid.seq = uid;	111	LOG (llevDebug, "read UUID: %s\n", UUID::cur.c_str ());
108	write_uuid ();	112
109	LOG (llevDebug, "read UID: %" I64_PFd "\n", uid);	113	write_uuid (UUID_GAP, true);
110	fclose (fp);	114	fclose (fp);
111	}	115	}
112		116
113	UUID	117	UUID
114	gen_uuid ()	118	UUID::gen ()
115	{	119	{
116	UUID uid;	120	UUID uid;
117		121
118	uid.seq = ++uuid.seq;	122	uid.seq = ++cur.seq;
119		123
120	if (!(uuid.seq & (UUID_SKIP - 1)))	124	if (expect_false (cur.seq >= seq_next_save))
121	write_uuid ();	125	{
		126	seq_next_save = UUID::cur.seq + (UUID_GAP >> 1);
		127	write_uuid (UUID_GAP, false);
		128	}
		129
122		130
123	return uid;	131	return uid;
124	}	132	}
125		133
126	void	134	void
127	init_uuid ()	135	UUID::init ()
128	{	136	{
129	read_uuid ();	137	read_uuid ();
130	}	138	}
131		139
132	/* Returns TRUE if every key_values in wants has a partner with the same value in has. */	140	/* Returns TRUE if every key_values in wants has a partner with the same value in has. */
133	static int	141	static bool
134	compare_ob_value_lists_one (const object *wants, const object *has)	142	compare_ob_value_lists_one (const object *wants, const object *has)
135	{	143	{
136	key_value *wants_field;
137
138	/* n-squared behaviour (see get_ob_key_link()), but I'm hoping both	144	/* n-squared behaviour (see kv_get), but I'm hoping both
139	* objects with lists are rare, and lists stay short. If not, use a	145	* objects with lists are rare, and lists stay short. If not, use a
140	* different structure or at least keep the lists sorted...	146	* different structure or at least keep the lists sorted...
141	*/	147	*/
142		148
143	/* For each field in wants, */	149	/* For each field in wants, */
144	for (wants_field = wants->key_values; wants_field != NULL; wants_field = wants_field->next)	150	for (key_value *kv = wants->key_values; kv; kv = kv->next)
145	{	151	if (has->kv_get (kv->key) != kv->value)
146	key_value *has_field;	152	return false;
147
148	/* Look for a field in has with the same key. */
149	has_field = get_ob_key_link (has, wants_field->key);
150
151	if (has_field == NULL)
152	{
153	/* No field with that name. */
154	return FALSE;
155	}
156
157	/* Found the matching field. */
158	if (has_field->value != wants_field->value)
159	{
160	/* Values don't match, so this half of the comparison is false. */
161	return FALSE;
162	}
163
164	/* If we get here, we found a match. Now for the next field in wants. */
165	}
166		153
167	/* If we get here, every field in wants has a matching field in has. */	154	/* If we get here, every field in wants has a matching field in has. */
168	return TRUE;	155	return true;
169	}	156	}
170		157
171	/* Returns TRUE if ob1 has the same key_values as ob2. */	158	/* Returns TRUE if ob1 has the same key_values as ob2. */
172	static int	159	static bool
173	compare_ob_value_lists (const object *ob1, const object *ob2)	160	compare_ob_value_lists (const object *ob1, const object *ob2)
174	{	161	{
175	/* However, there may be fields in has which aren't partnered in wants,	162	/* However, there may be fields in has which aren't partnered in wants,
176	* so we need to run the comparison *twice*. :(	163	* so we need to run the comparison *twice*. :(
177	*/	164	*/
178	return compare_ob_value_lists_one (ob1, ob2) && compare_ob_value_lists_one (ob2, ob1);	165	return compare_ob_value_lists_one (ob1, ob2)
		166	&& compare_ob_value_lists_one (ob2, ob1);
179	}	167	}
180		168
181	/* Function examines the 2 objects given to it, and returns true if	169	/* Function examines the 2 objects given to it, and returns true if
182	* they can be merged together.	170	* they can be merged together.
183	*	171	*
184	* Note that this function appears a lot longer than the macro it	172	* Note that this function appears a lot longer than the macro it
185	* replaces - this is mostly for clarity - a decent compiler should hopefully	173	* replaces - this is mostly for clarity - a decent compiler should hopefully
186	* reduce this to the same efficiency.	174	* reduce this to the same efficiency.
187	*	175	*
188	* Check nrof variable *before* calling CAN_MERGE()	176	* Check nrof variable *before* calling can_merge()
189	*	177	*
190	* Improvements made with merge: Better checking on potion, and also	178	* Improvements made with merge: Better checking on potion, and also
191	* check weight	179	* check weight
192	*/	180	*/
193
194	bool object::can_merge (object *ob1, object *ob2)	181	bool object::can_merge_slow (object *ob1, object *ob2)
195	{	182	{
196	/* A couple quicksanity checks */	183	/* A couple quicksanity checks */
197	if ((ob1 == ob2) || (ob1->type != ob2->type))	184	if (ob1 == ob2
		185	|| ob1->type != ob2->type
		186	|| ob1->speed != ob2->speed
		187	|| ob1->value != ob2->value
		188	|| ob1->name != ob2->name)
198	return 0;	189	return 0;
199		190
200	if (ob1->speed != ob2->speed)	191	/* Do not merge objects if nrof would overflow. First part checks
		192	* for unsigned overflow (2c), second part checks whether the result
		193	* would fit into a 32 bit signed int, which is often used to hold
		194	* nrof values.
		195	*/
		196	if (~ob1->nrof < ob2->nrof || ob1->nrof + ob2->nrof > (1UL << 31))
201	return 0;	197	return 0;
202		198
203	/* Do not merge objects if nrof would overflow. We use 1UL<<31 since that
204	* value could not be stored in a sint32 (which unfortunately sometimes is
205	* used to store nrof).
206	*/
207	if (ob1->nrof + ob2->nrof >= 1UL << 31)
208	return 0;
209
210	/* If the objects have been identified, set the BEEN_APPLIED flag.	199	/* If the objects have been identified, set the BEEN_APPLIED flag.
211	* This is to the comparison of the flags below will be OK. We	200	* This is to the comparison of the flags below will be OK. We
212	* just can't ignore the been applied or identified flags, as they	201	* just can't ignore the been applied or identified flags, as they
213	* are not equal - just if it has been identified, the been_applied	202	* are not equal - just if it has been identified, the been_applied
214	* flags lose any meaning.	203	* flags lose any meaning.
215	*/	204	*/
216	if (QUERY_FLAG (ob1, FLAG_IDENTIFIED))	205	if (QUERY_FLAG (ob1, FLAG_IDENTIFIED))
217	SET_FLAG (ob1, FLAG_BEEN_APPLIED);	206	SET_FLAG (ob1, FLAG_BEEN_APPLIED);
218		207
219	if (QUERY_FLAG (ob2, FLAG_IDENTIFIED))	208	if (QUERY_FLAG (ob2, FLAG_IDENTIFIED))
220	SET_FLAG (ob2, FLAG_BEEN_APPLIED);	209	SET_FLAG (ob2, FLAG_BEEN_APPLIED);
221		210
222		211	if (ob1->arch->archname != ob2->arch->archname
223	/* the 0x400000 on flags2 is FLAG_INV_LOCK. I don't think something
224	* being locked in inventory should prevent merging.
225	* 0x4 in flags3 is CLIENT_SENT
226	*/
227	if ((ob1->arch != ob2->arch) ||
228	(ob1->flags[0] != ob2->flags[0]) ||
229	(ob1->flags[1] != ob2->flags[1]) ||
230	((ob1->flags[2] & ~0x400000) != (ob2->flags[2] & ~0x400000)) ||
231	((ob1->flags[3] & ~0x4) != (ob2->flags[3] & ~0x4)) ||
232	(ob1->name != ob2->name) ||	212	|| ob1->name != ob2->name
233	(ob1->title != ob2->title) ||	213	|| ob1->title != ob2->title
234	(ob1->msg != ob2->msg) ||	214	|| ob1->msg != ob2->msg
235	(ob1->weight != ob2->weight) ||	215	|| ob1->weight != ob2->weight
236	(memcmp (&ob1->resist, &ob2->resist, sizeof (ob1->resist)) != 0) ||
237	(memcmp (&ob1->stats, &ob2->stats, sizeof (ob1->stats)) != 0) ||
238	(ob1->attacktype != ob2->attacktype) ||	216	|| ob1->attacktype != ob2->attacktype
239	(ob1->magic != ob2->magic) ||	217	|| ob1->magic != ob2->magic
240	(ob1->slaying != ob2->slaying) ||	218	|| ob1->slaying != ob2->slaying
241	(ob1->skill != ob2->skill) ||	219	|| ob1->skill != ob2->skill
242	(ob1->value != ob2->value) ||	220	|| ob1->value != ob2->value
243	(ob1->animation_id != ob2->animation_id) ||	221	|| ob1->animation_id != ob2->animation_id
		222	|| (ob1->face != ob2->face && !ob1->animation_id) // face and animation are dependent on each other
244	(ob1->client_type != ob2->client_type) ||	223	|| ob1->client_type != ob2->client_type
245	(ob1->materialname != ob2->materialname) ||	224	|| ob1->materialname != ob2->materialname
246	(ob1->lore != ob2->lore) ||	225	|| ob1->lore != ob2->lore
247	(ob1->subtype != ob2->subtype) ||	226	|| ob1->subtype != ob2->subtype
248	(ob1->move_type != ob2->move_type) ||	227	|| ob1->move_type != ob2->move_type
249	(ob1->move_block != ob2->move_block) ||	228	|| ob1->move_block != ob2->move_block
250	(ob1->move_allow != ob2->move_allow) ||	229	|| ob1->move_allow != ob2->move_allow
251	(ob1->move_on != ob2->move_on) ||	230	|| ob1->move_on != ob2->move_on
252	(ob1->move_off != ob2->move_off) || (ob1->move_slow != ob2->move_slow) || (ob1->move_slow_penalty != ob2->move_slow_penalty))	231	|| ob1->move_off != ob2->move_off
		232	|| ob1->move_slow != ob2->move_slow
		233	|| ob1->move_slow_penalty != ob2->move_slow_penalty
		234	|| memcmp (&ob1->resist, &ob2->resist, sizeof (ob1->resist))
		235	|| memcmp (&ob1->stats , &ob2->stats , sizeof (ob1->stats)))
253	return 0;	236	return 0;
254		237
		238	if ((ob1->flag ^ ob2->flag)
		239	.reset (FLAG_INV_LOCKED)
		240	.reset (FLAG_CLIENT_SENT)
		241	.reset (FLAG_REMOVED)
		242	.any ())
		243	return 0;
		244
255	/* This is really a spellbook check - really, we should	245	/* This is really a spellbook check - we should in general
256	* check all objects in the inventory.	246	* not merge objects with real inventories, as splitting them
		247	* is hard.
257	*/	248	*/
258	if (ob1->inv || ob2->inv)	249	if (ob1->inv || ob2->inv)
259	{	250	{
260	/* if one object has inventory but the other doesn't, not equiv */
261	if ((ob1->inv && !ob2->inv) || (ob2->inv && !ob1->inv))
262	return 0;
263
264	/* Now check to see if the two inventory objects could merge */
265	if (!CAN_MERGE (ob1->inv, ob2->inv))	251	if (!(ob1->inv && ob2->inv))
266	return 0;	252	return 0; /* inventories differ in length */
		253
		254	if (ob1->inv->below || ob2->inv->below)
		255	return 0; /* more than one object in inv */
		256
		257	if (!object::can_merge (ob1->inv, ob2->inv))
		258	return 0; /* inventory objects differ */
267		259
268	/* inventory ok - still need to check rest of this object to see	260	/* inventory ok - still need to check rest of this object to see
269	* if it is valid.	261	* if it is valid.
270	*/	262	*/
271	}	263	}
…		…
279		271
280	/* Note sure why the following is the case - either the object has to	272	/* Note sure why the following is the case - either the object has to
281	* be animated or have a very low speed. Is this an attempted monster	273	* be animated or have a very low speed. Is this an attempted monster
282	* check?	274	* check?
283	*/	275	*/
284	if (!QUERY_FLAG (ob1, FLAG_ANIMATE) && FABS ((ob1)->speed) > MIN_ACTIVE_SPEED)	276	if (!QUERY_FLAG (ob1, FLAG_ANIMATE) && ob1->has_active_speed ())
285	return 0;	277	return 0;
286		278
287	switch (ob1->type)	279	switch (ob1->type)
288	{	280	{
289	case SCROLL:	281	case SCROLL:
290	if (ob1->level != ob2->level)	282	if (ob1->level != ob2->level)
291	return 0;	283	return 0;
292	break;	284	break;
293	}	285	}
294		286
295	if (ob1->key_values != NULL || ob2->key_values != NULL)	287	if (ob1->key_values || ob2->key_values)
296	{	288	{
297	/* At least one of these has key_values. */	289	/* At least one of these has key_values. */
298	if ((ob1->key_values == NULL) != (ob2->key_values == NULL))	290	if ((!ob1->key_values) != (!ob2->key_values))
299	/* One has fields, but the other one doesn't. */	291	return 0; /* One has fields, but the other one doesn't. */
		292
		293	if (!compare_ob_value_lists (ob1, ob2))
300	return 0;	294	return 0;
301	else if (!compare_ob_value_lists (ob1, ob2))
302	return 0;
303	}	295	}
304		296
305	//TODO: generate an event or call into perl for additional checks
306	if (ob1->self || ob2->self)	297	if (ob1->self || ob2->self)
307	{	298	{
308	ob1->optimise ();	299	ob1->optimise ();
309	ob2->optimise ();	300	ob2->optimise ();
310		301
311	if (ob1->self || ob2->self)	302	if (ob1->self || ob2->self)
		303	{
		304	int k1 = ob1->self ? HvTOTALKEYS (ob1->self) : 0;
		305	int k2 = ob2->self ? HvTOTALKEYS (ob2->self) : 0;
		306
		307	if (k1 != k2)
312	return 0;	308	return 0;
		309
		310	if (k1 == 0)
		311	return 1;
		312
		313	if (!cfperl_can_merge (ob1, ob2))
		314	return 0;
		315	}
313	}	316	}
314		317
315	/* Everything passes, must be OK. */	318	/* Everything passes, must be OK. */
316	return 1;	319	return 1;
317	}	320	}
318		321
		322	// find player who can see this object
		323	object *
		324	object::visible_to () const
		325	{
		326	if (client_visible () && !flag [FLAG_REMOVED])
		327	{
		328	// see if we are in a container of sorts
		329	if (env)
		330	{
		331	// the player inventory itself is always visible
		332	if (env->type == PLAYER)
		333	return env;
		334
		335	// else a player could have our env open
		336	object *envest = env->outer_env ();
		337
		338	// the player itself is always on a map, so we will find him here
		339	// even if our inv is in a player.
		340	if (envest->is_on_map ())
		341	if (object *pl = envest->ms ().player ())
		342	if (pl->container == env)
		343	return pl;
		344	}
		345	else
		346	{
		347	// maybe there is a player standing on the same mapspace
		348	// this will catch the case where "this" is a player
		349	if (object *pl = ms ().player ())
		350	if ((!pl->container && pl->contr->ns && !pl->contr->ns->update_look)
		351	|| this == pl->container)
		352	return pl;
		353	}
		354	}
		355
		356	return 0;
		357	}
		358
		359	// adjust weight per container type ("of holding")
		360	static sint32
		361	weight_adjust_for (object *op, sint32 weight)
		362	{
		363	return op->type == CONTAINER
		364	? lerp (weight, 0, 100, 0, 100 - op->stats.Str)
		365	: weight;
		366	}
		367
319	/*	368	/*
		369	* adjust_weight(object, weight) adds the specified weight to an object,
		370	* and also updates how much the environment(s) is/are carrying.
		371	*/
		372	static void
		373	adjust_weight (object *op, sint32 weight)
		374	{
		375	while (op)
		376	{
		377	// adjust by actual difference to account for rounding errors
		378	// i.e. (w2 - w1) / f != w2 / f - w1 / f and the latter is correct
		379	weight = weight_adjust_for (op, op->carrying)
		380	- weight_adjust_for (op, op->carrying - weight);
		381
		382	if (!weight)
		383	return;
		384
		385	op->carrying += weight;
		386
		387	if (object *pl = op->visible_to ())
		388	if (pl != op) // player is handled lazily
		389	esrv_update_item (UPD_WEIGHT, pl, op);
		390
		391	op = op->env;
		392	}
		393	}
		394
		395	/*
320	* sum_weight() is a recursive function which calculates the weight	396	* this is a recursive function which calculates the weight
321	* an object is carrying. It goes through in figures out how much	397	* an object is carrying. It goes through op and figures out how much
322	* containers are carrying, and sums it up.	398	* containers are carrying, and sums it up.
323	*/	399	*/
324	long	400	void
325	sum_weight (object *op)	401	object::update_weight ()
326	{	402	{
327	long sum;	403	sint32 sum = 0;
328	object *inv;
329		404
330	for (sum = 0, inv = op->inv; inv != NULL; inv = inv->below)	405	for (object *op = inv; op; op = op->below)
331	{	406	{
332	if (inv->inv)	407	if (op->inv)
333	sum_weight (inv);	408	op->update_weight ();
334	sum += inv->carrying + inv->weight * (inv->nrof ? inv->nrof : 1);	409
		410	sum += op->total_weight ();
		411	}
		412
		413	sum = weight_adjust_for (this, sum);
		414
		415	if (sum != carrying)
335	}	416	{
336
337	if (op->type == CONTAINER && op->stats.Str)
338	sum = (sum * (100 - op->stats.Str)) / 100;
339
340	if (op->carrying != sum)
341	op->carrying = sum;	417	carrying = sum;
342		418
343	return sum;	419	if (object *pl = visible_to ())
		420	if (pl != this) // player is handled lazily
		421	esrv_update_item (UPD_WEIGHT, pl, this);
		422	}
344	}	423	}
345		424
346	/**	425	/*
347	* Return the outermost environment object for a given object.	426	* Used by: Server DM commands: dumpbelow, dump. Some error messages.
348	*/	427	*/
349
350	object *
351	object_get_env_recursive (object *op)
352	{
353	while (op->env != NULL)
354	op = op->env;
355	return op;
356	}
357
358	/*
359	* Eneq(@csd.uu.se): Since we can have items buried in a character we need
360	* a better check. We basically keeping traversing up until we can't
361	* or find a player.
362	*/
363
364	object *
365	is_player_inv (object *op)
366	{
367	for (; op != NULL && op->type != PLAYER; op = op->env)
368	if (op->env == op)
369	op->env = NULL;
370	return op;
371	}
372
373	/*
374	* Used by: Crossedit: dump. Server DM commands: dumpbelow, dump.
375	* Some error messages.
376	* The result of the dump is stored in the static global errmsg array.
377	*/
378
379	char *	428	char *
380	dump_object (object *op)	429	dump_object (object *op)
381	{	430	{
382	if (!op)	431	if (!op)
383	return strdup ("[NULLOBJ]");	432	return strdup ("[NULLOBJ]");
384		433
385	object_freezer freezer;	434	object_freezer freezer;
386	save_object (freezer, op, 3);	435	op->write (freezer);
387	return freezer.as_string ();	436	return freezer.as_string ();
388	}	437	}
389		438
390	/*	439	/*
391	* get_nearest_part(multi-object, object 2) returns the part of the	440	* get_nearest_part(multi-object, object 2) returns the part of the
392	* multi-object 1 which is closest to the second object.	441	* multi-object 1 which is closest to the second object.
393	* If it's not a multi-object, it is returned.	442	* If it's not a multi-object, it is returned.
394	*/	443	*/
395
396	object *	444	object *
397	get_nearest_part (object *op, const object *pl)	445	get_nearest_part (object *op, const object *pl)
398	{	446	{
399	object *tmp, *closest;	447	object *tmp, *closest;
400	int last_dist, i;	448	int last_dist, i;
401		449
402	if (op->more == NULL)	450	if (!op->more)
403	return op;	451	return op;
		452
404	for (last_dist = distance (op, pl), closest = op, tmp = op->more; tmp != NULL; tmp = tmp->more)	453	for (last_dist = distance (op, pl), closest = op, tmp = op->more;
		454	tmp;
		455	tmp = tmp->more)
405	if ((i = distance (tmp, pl)) < last_dist)	456	if ((i = distance (tmp, pl)) < last_dist)
406	closest = tmp, last_dist = i;	457	closest = tmp, last_dist = i;
		458
407	return closest;	459	return closest;
408	}	460	}
409		461
410	/*	462	/*
411	* Returns the object which has the count-variable equal to the argument.	463	* Returns the object which has the count-variable equal to the argument.
		464	* VERRRY slow.
412	*/	465	*/
413
414	object *	466	object *
415	find_object (tag_t i)	467	find_object (tag_t i)
416	{	468	{
417	for (object *op = object::first; op; op = op->next)	469	for_all_objects (op)
418	if (op->count == i)	470	if (op->count == i)
419	return op;	471	return op;
420		472
421	return 0;	473	return 0;
422	}	474	}
423		475
424	/*	476	/*
425	* Returns the first object which has a name equal to the argument.	477	* Returns the first object which has a name equal to the argument.
426	* Used only by the patch command, but not all that useful.	478	* Used only by the patch command, but not all that useful.
427	* Enables features like "patch <name-of-other-player> food 999"	479	* Enables features like "patch <name-of-other-player> food 999"
428	*/	480	*/
429
430	object *	481	object *
431	find_object_name (const char *str)	482	find_object_name (const char *str)
432	{	483	{
433	shstr_cmp str_ (str);	484	shstr_cmp str_ (str);
434	object *op;
435		485
436	for (op = object::first; op != NULL; op = op->next)	486	if (str_)
		487	for_all_objects (op)
437	if (op->name == str_)	488	if (op->name == str_)
438	break;	489	return op;
439		490
440	return op;	491	return 0;
441	}
442
443	void
444	free_all_object_data ()
445	{
446	LOG (llevDebug, "%d allocated objects\n", nrofallocobjects);
447	}	492	}
448		493
449	/*	494	/*
450	* Sets the owner and sets the skill and exp pointers to owner's current	495	* Sets the owner and sets the skill and exp pointers to owner's current
451	* skill and experience objects.	496	* skill and experience objects.
		497	* ACTUALLY NO! investigate! TODO
452	*/	498	*/
453	void	499	void
454	object::set_owner (object *owner)	500	object::set_owner (object *owner)
455	{	501	{
		502	// allow objects which own objects
456	if (!owner)	503	if (owner)
457	return;
458
459	/* next line added to allow objects which own objects */
460	/* Add a check for ownercounts in here, as I got into an endless loop
461	* with the fireball owning a poison cloud which then owned the
462	* fireball. I believe that was caused by one of the objects getting
463	* freed and then another object replacing it. Since the ownercounts
464	* didn't match, this check is valid and I believe that cause is valid.
465	*/
466	while (owner->owner)	504	while (owner->owner)
467	owner = owner->owner;	505	owner = owner->owner;
		506
		507	if (flag [FLAG_FREED])
		508	{
		509	LOG (llevError | logBacktrace, "tried to set owner of %s to %s\n", debug_desc (), owner->debug_desc ());
		510	return;
		511	}
468		512
469	this->owner = owner;	513	this->owner = owner;
		514	}
		515
		516	int
		517	object::slottype () const
		518	{
		519	if (type == SKILL)
		520	{
		521	if (IS_COMBAT_SKILL (subtype)) return slot_combat;
		522	if (IS_RANGED_SKILL (subtype)) return slot_ranged;
		523	}
		524	else
		525	{
		526	if (slot [body_combat].info) return slot_combat;
		527	if (slot [body_range ].info) return slot_ranged;
		528	}
		529
		530	return slot_none;
		531	}
		532
		533	bool
		534	object::change_weapon (object *ob)
		535	{
		536	if (current_weapon == ob)
		537	return true;
		538
		539	if (chosen_skill)
		540	chosen_skill->flag [FLAG_APPLIED] = false;
		541
		542	current_weapon = ob;
		543	chosen_skill = !ob || ob->type == SKILL ? ob : find_skill_by_name (this, ob->skill);
		544
		545	if (chosen_skill)
		546	chosen_skill->flag [FLAG_APPLIED] = true;
		547
		548	update_stats ();
		549
		550	if (ob)
		551	{
		552	// now check wether any body locations became invalid, in which case
		553	// we cannot apply the weapon at the moment.
		554	for (int i = 0; i < NUM_BODY_LOCATIONS; ++i)
		555	if (slot[i].used < 0)
		556	{
		557	current_weapon = chosen_skill = 0;
		558	update_stats ();
		559
		560	new_draw_info_format (NDI_UNIQUE, 0, this,
		561	"You try to balance all your items at once, "
		562	"but the %s is just too much for your body. "
		563	"[You need to unapply some items first.]", &ob->name);
		564	return false;
		565	}
		566
		567	//new_draw_info_format (NDI_UNIQUE, 0, this, "You switch to your %s.", &ob->name);
		568	}
		569	else
		570	;//new_draw_info_format (NDI_UNIQUE, 0, this, "You unwield your weapons.");
		571
		572	if (ob && !ob->flag [FLAG_APPLIED] && ob->type != SPELL)
		573	{
		574	LOG (llevError | logBacktrace, "%s changed to unapplied weapon %s",
		575	&name, ob->debug_desc ());
		576	return false;
		577	}
		578
		579	return true;
470	}	580	}
471		581
472	/* Zero the key_values on op, decrementing the shared-string	582	/* Zero the key_values on op, decrementing the shared-string
473	* refcounts and freeing the links.	583	* refcounts and freeing the links.
474	*/	584	*/
475	static void	585	static void
476	free_key_values (object *op)	586	free_key_values (object *op)
477	{	587	{
478	for (key_value *i = op->key_values; i != 0;)	588	for (key_value *i = op->key_values; i; )
479	{	589	{
480	key_value *next = i->next;	590	key_value *next = i->next;
481	delete i;	591	delete i;
482		592
483	i = next;	593	i = next;
484	}	594	}
485		595
486	op->key_values = 0;	596	op->key_values = 0;
487	}	597	}
488		598
489	void object::clear ()
490	{
491	attachable_base::clear ();
492
493	free_key_values (this);
494
495	owner = 0;
496	name = 0;
497	name_pl = 0;
498	title = 0;
499	race = 0;
500	slaying = 0;
501	skill = 0;
502	msg = 0;
503	lore = 0;
504	custom_name = 0;
505	materialname = 0;
506	contr = 0;
507	below = 0;
508	above = 0;
509	inv = 0;
510	container = 0;
511	env = 0;
512	more = 0;
513	head = 0;
514	map = 0;
515	active_next = 0;
516	active_prev = 0;
517
518	memset (static_cast<object_pod *>(this), 0, sizeof (object_pod));
519
520	SET_FLAG (this, FLAG_REMOVED);
521
522	/* What is not cleared is next, prev, and count */
523
524	expmul = 1.0;
525	face = blank_face;
526
527	if (settings.casting_time)
528	casting_time = -1;
529	}
530
531	void object::clone (object *destination)
532	{
533	*(object_copy *)destination = *this;
534	*(object_pod *)destination = *this;
535
536	if (self || cb)
537	INVOKE_OBJECT (CLONE, this, ARG_OBJECT (destination));
538	}
539
540	/*	599	/*
541	* copy object first frees everything allocated by the second object,	600	* copy_to first frees everything allocated by the dst object,
542	* and then copies the contends of the first object into the second	601	* and then copies the contents of itself into the second
543	* object, allocating what needs to be allocated. Basically, any	602	* object, allocating what needs to be allocated. Basically, any
544	* data that is malloc'd needs to be re-malloc/copied. Otherwise,	603	* data that is malloc'd needs to be re-malloc/copied. Otherwise,
545	* if the first object is freed, the pointers in the new object	604	* if the first object is freed, the pointers in the new object
546	* will point at garbage.	605	* will point at garbage.
547	*/	606	*/
548	void	607	void
549	copy_object (object *op2, object *op)	608	object::copy_to (object *dst)
550	{	609	{
551	bool is_freed = QUERY_FLAG (op, FLAG_FREED);	610	dst->remove ();
552	bool is_removed = QUERY_FLAG (op, FLAG_REMOVED);	611	*(object_copy *)dst = *this;
553		612	dst->flag [FLAG_REMOVED] = true;
554	op2->clone (op);
555
556	if (is_freed)
557	SET_FLAG (op, FLAG_FREED);
558
559	if (is_removed)
560	SET_FLAG (op, FLAG_REMOVED);
561
562	if (op2->speed < 0)
563	op->speed_left = op2->speed_left - RANDOM () % 200 / 100.0;
564		613
565	/* Copy over key_values, if any. */	614	/* Copy over key_values, if any. */
566	if (op2->key_values)	615	if (key_values)
567	{	616	{
568	key_value *tail = 0;	617	key_value *tail = 0;
569	key_value *i;
570
571	op->key_values = 0;	618	dst->key_values = 0;
572		619
573	for (i = op2->key_values; i; i = i->next)	620	for (key_value *i = key_values; i; i = i->next)
574	{	621	{
575	key_value *new_link = new key_value;	622	key_value *new_link = new key_value;
576		623
577	new_link->next = 0;	624	new_link->next = 0;
578	new_link->key = i->key;	625	new_link->key = i->key;
579	new_link->value = i->value;	626	new_link->value = i->value;
580		627
581	/* Try and be clever here, too. */	628	/* Try and be clever here, too. */
582	if (!op->key_values)	629	if (!dst->key_values)
583	{	630	{
584	op->key_values = new_link;	631	dst->key_values = new_link;
585	tail = new_link;	632	tail = new_link;
586	}	633	}
587	else	634	else
588	{	635	{
589	tail->next = new_link;	636	tail->next = new_link;
590	tail = new_link;	637	tail = new_link;
591	}	638	}
592	}	639	}
593	}	640	}
594		641
595	update_ob_speed (op);	642	if (speed < 0)
		643	dst->speed_left -= rndm ();
		644
		645	dst->set_speed (dst->speed);
		646	}
		647
		648	void
		649	object::instantiate ()
		650	{
		651	if (!uuid.seq) // HACK
		652	uuid = UUID::gen ();
		653
		654	speed_left = -0.1f;
		655	/* copy the body_info to the body_used - this is only really
		656	* need for monsters, but doesn't hurt to do it for everything.
		657	* by doing so, when a monster is created, it has good starting
		658	* values for the body_used info, so when items are created
		659	* for it, they can be properly equipped.
		660	*/
		661	for (int i = NUM_BODY_LOCATIONS; i--; )
		662	slot[i].used = slot[i].info;
		663
		664	attachable::instantiate ();
		665	}
		666
		667	object *
		668	object::clone ()
		669	{
		670	object *neu = create ();
		671	copy_to (neu);
		672	neu->map = map; // not copied by copy_to
		673	return neu;
596	}	674	}
597		675
598	/*	676	/*
599	* If an object with the IS_TURNABLE() flag needs to be turned due	677	* If an object with the IS_TURNABLE() flag needs to be turned due
600	* to the closest player being on the other side, this function can	678	* to the closest player being on the other side, this function can
601	* be called to update the face variable, _and_ how it looks on the map.	679	* be called to update the face variable, _and_ how it looks on the map.
602	*/	680	*/
603
604	void	681	void
605	update_turn_face (object *op)	682	update_turn_face (object *op)
606	{	683	{
607	if (!QUERY_FLAG (op, FLAG_IS_TURNABLE) || op->arch == NULL)	684	if (!QUERY_FLAG (op, FLAG_IS_TURNABLE) || !op->arch)
608	return;	685	return;
		686
609	SET_ANIMATION (op, op->direction);	687	SET_ANIMATION (op, op->direction);
610	update_object (op, UP_OBJ_FACE);	688	update_object (op, UP_OBJ_FACE);
611	}	689	}
612		690
613	/*	691	/*
614	* Updates the speed of an object. If the speed changes from 0 to another	692	* Updates the speed of an object. If the speed changes from 0 to another
615	* value, or vice versa, then add/remove the object from the active list.	693	* value, or vice versa, then add/remove the object from the active list.
616	* This function needs to be called whenever the speed of an object changes.	694	* This function needs to be called whenever the speed of an object changes.
617	*/	695	*/
618	void	696	void
619	update_ob_speed (object *op)	697	object::set_speed (float speed)
620	{	698	{
621	extern int arch_init;	699	if (flag [FLAG_FREED] && speed)
622
623	/* No reason putting the archetypes objects on the speed list,
624	* since they never really need to be updated.
625	*/
626
627	if (QUERY_FLAG (op, FLAG_FREED) && op->speed)
628	{	700	{
629	LOG (llevError, "Object %s is freed but has speed.\n", &op->name);	701	LOG (llevError, "Object %s is freed but has speed.\n", &name);
630	#ifdef MANY_CORES
631	abort ();
632	#else
633	op->speed = 0;	702	speed = 0;
634	#endif
635	}
636
637	if (arch_init)
638	return;
639
640	if (FABS (op->speed) > MIN_ACTIVE_SPEED)
641	{	703	}
642	/* If already on active list, don't do anything */
643	if (op->active_next || op->active_prev || op == active_objects)
644	return;
645		704
646	/* process_events() expects us to insert the object at the beginning	705	this->speed = speed;
647	* of the list. */
648	op->active_next = active_objects;
649		706
650	if (op->active_next != NULL)	707	if (has_active_speed ())
651	op->active_next->active_prev = op;	708	activate ();
652
653	active_objects = op;
654	}
655	else	709	else
656	{	710	deactivate ();
657	/* If not on the active list, nothing needs to be done */
658	if (!op->active_next && !op->active_prev && op != active_objects)
659	return;
660
661	if (op->active_prev == NULL)
662	{
663	active_objects = op->active_next;
664
665	if (op->active_next != NULL)
666	op->active_next->active_prev = NULL;
667	}
668	else
669	{
670	op->active_prev->active_next = op->active_next;
671
672	if (op->active_next)
673	op->active_next->active_prev = op->active_prev;
674	}
675
676	op->active_next = NULL;
677	op->active_prev = NULL;
678	}
679	}	711	}
680		712
681	/* This function removes object 'op' from the list of active
682	* objects.
683	* This should only be used for style maps or other such
684	* reference maps where you don't want an object that isn't
685	* in play chewing up cpu time getting processed.
686	* The reverse of this is to call update_ob_speed, which
687	* will do the right thing based on the speed of the object.
688	*/
689	void
690	remove_from_active_list (object *op)
691	{
692	/* If not on the active list, nothing needs to be done */
693	if (!op->active_next && !op->active_prev && op != active_objects)
694	return;
695
696	if (op->active_prev == NULL)
697	{
698	active_objects = op->active_next;
699	if (op->active_next != NULL)
700	op->active_next->active_prev = NULL;
701	}
702	else
703	{
704	op->active_prev->active_next = op->active_next;
705	if (op->active_next)
706	op->active_next->active_prev = op->active_prev;
707	}
708	op->active_next = NULL;
709	op->active_prev = NULL;
710	}
711
712	/*	713	/*
713	* update_object() updates the array which represents the map.	714	* update_object() updates the the map.
714	* It takes into account invisible objects (and represent squares covered	715	* It takes into account invisible objects (and represent squares covered
715	* by invisible objects by whatever is below them (unless it's another	716	* by invisible objects by whatever is below them (unless it's another
716	* invisible object, etc...)	717	* invisible object, etc...)
717	* If the object being updated is beneath a player, the look-window	718	* If the object being updated is beneath a player, the look-window
718	* of that player is updated (this might be a suboptimal way of	719	* of that player is updated (this might be a suboptimal way of
719	* updating that window, though, since update_object() is called _often_)	720	* updating that window, though, since update_object() is called _often_)
720	*	721	*
721	* action is a hint of what the caller believes need to be done.	722	* action is a hint of what the caller believes need to be done.
722	* For example, if the only thing that has changed is the face (due to
723	* an animation), we don't need to call update_position until that actually
724	* comes into view of a player. OTOH, many other things, like addition/removal
725	* of walls or living creatures may need us to update the flags now.
726	* current action are:	723	* current action are:
727	* UP_OBJ_INSERT: op was inserted	724	* UP_OBJ_INSERT: op was inserted
728	* UP_OBJ_REMOVE: op was removed	725	* UP_OBJ_REMOVE: op was removed
729	* UP_OBJ_CHANGE: object has somehow changed. In this case, we always update	726	* UP_OBJ_CHANGE: object has somehow changed. In this case, we always update
730	* as that is easier than trying to look at what may have changed.	727	* as that is easier than trying to look at what may have changed.
731	* UP_OBJ_FACE: only the objects face has changed.	728	* UP_OBJ_FACE: only the objects face has changed.
732	*/	729	*/
733
734	void	730	void
735	update_object (object *op, int action)	731	update_object (object *op, int action)
736	{	732	{
737	int update_now = 0, flags;	733	if (!op)
738	MoveType move_on, move_off, move_block, move_slow;
739
740	if (op == NULL)
741	{	734	{
742	/* this should never happen */	735	/* this should never happen */
743	LOG (llevDebug, "update_object() called for NULL object.\n");	736	LOG (llevError | logBacktrace, "update_object() called for NULL object.\n");
744	return;	737	return;
745	}	738	}
746		739
747	if (op->env != NULL)	740	if (!op->is_on_map ())
748	{	741	{
749	/* Animation is currently handled by client, so nothing	742	/* Animation is currently handled by client, so nothing
750	* to do in this case.	743	* to do in this case.
751	*/	744	*/
752	return;	745	return;
753	}	746	}
754		747
755	/* If the map is saving, don't do anything as everything is
756	* going to get freed anyways.
757	*/
758	if (!op->map || op->map->in_memory == MAP_SAVING)
759	return;
760
761	/* make sure the object is within map boundaries */	748	/* make sure the object is within map boundaries */
762	if (op->x < 0 || op->x >= MAP_WIDTH (op->map) || op->y < 0 || op->y >= MAP_HEIGHT (op->map))	749	if (op->x < 0 || op->x >= op->map->width || op->y < 0 || op->y >= op->map->height)
763	{	750	{
764	LOG (llevError, "update_object() called for object out of map!\n");	751	LOG (llevError, "update_object() called for object out of map!\n");
765	#ifdef MANY_CORES	752	#ifdef MANY_CORES
766	abort ();	753	abort ();
767	#endif	754	#endif
768	return;	755	return;
769	}	756	}
770		757
771	flags = GET_MAP_FLAGS (op->map, op->x, op->y);	758	mapspace &m = op->ms ();
772	SET_MAP_FLAGS (op->map, op->x, op->y, flags | P_NEED_UPDATE);
773	move_slow = GET_MAP_MOVE_SLOW (op->map, op->x, op->y);
774	move_on = GET_MAP_MOVE_ON (op->map, op->x, op->y);
775	move_block = GET_MAP_MOVE_BLOCK (op->map, op->x, op->y);
776	move_off = GET_MAP_MOVE_OFF (op->map, op->x, op->y);
777		759
		760	if (!(m.flags_ & P_UPTODATE))
		761	/* nop */;
778	if (action == UP_OBJ_INSERT)	762	else if (action == UP_OBJ_INSERT)
779	{	763	{
		764	// this is likely overkill, TODO: revisit (schmorp)
780	if (QUERY_FLAG (op, FLAG_BLOCKSVIEW) && !(flags & P_BLOCKSVIEW))	765	if ((QUERY_FLAG (op, FLAG_BLOCKSVIEW) && !(m.flags_ & P_BLOCKSVIEW))
781	update_now = 1;
782
783	if (QUERY_FLAG (op, FLAG_NO_MAGIC) && !(flags & P_NO_MAGIC))	766	|| (QUERY_FLAG (op, FLAG_NO_MAGIC) && !(m.flags_ & P_NO_MAGIC))
784	update_now = 1;	767	|| (op->type == PLAYER && !(m.flags_ & P_PLAYER))
785		768	|| (op->type == SAFE_GROUND && !(m.flags_ & P_SAFE))
		769	|| (QUERY_FLAG (op, FLAG_ALIVE) && !(m.flags_ & P_IS_ALIVE))
786	if (QUERY_FLAG (op, FLAG_DAMNED) && !(flags & P_NO_CLERIC))	770	|| (QUERY_FLAG (op, FLAG_DAMNED) && !(m.flags_ & P_NO_CLERIC))
787	update_now = 1;
788
789	if (QUERY_FLAG (op, FLAG_ALIVE) && !(flags & P_IS_ALIVE))
790	update_now = 1;
791
792	if (op->type == SAFE_GROUND && !(flags & P_SAFE))
793	update_now = 1;
794
795	if ((move_on | op->move_on) != move_on)	771	|| (m.move_on | op->move_on ) != m.move_on
796	update_now = 1;
797
798	if ((move_off | op->move_off) != move_off)	772	|| (m.move_off | op->move_off ) != m.move_off
799	update_now = 1;	773	|| (m.move_slow | op->move_slow) != m.move_slow
800
801	/* This isn't perfect, but I don't expect a lot of objects to	774	/* This isn't perfect, but I don't expect a lot of objects to
802	* to have move_allow right now.	775	* to have move_allow right now.
803	*/	776	*/
804	if (((move_block | op->move_block) & ~op->move_allow) != move_block)	777	|| ((m.move_block | op->move_block) & ~op->move_allow) != m.move_block
805	update_now = 1;	778	|| 1) // the above is not strong enough a test to skip updating. los maybe? TODO (Schmorp)
806		779	m.flags_ = 0;
807	if ((move_slow | op->move_slow) != move_slow)
808	update_now = 1;
809	}	780	}
810
811	/* if the object is being removed, we can't make intelligent	781	/* if the object is being removed, we can't make intelligent
812	* decisions, because remove_ob can't really pass the object	782	* decisions, because remove_ob can't really pass the object
813	* that is being removed.	783	* that is being removed.
814	*/	784	*/
815	else if (action == UP_OBJ_CHANGE || action == UP_OBJ_REMOVE)	785	else if (action == UP_OBJ_CHANGE || action == UP_OBJ_REMOVE)
816	update_now = 1;	786	m.flags_ = 0;
817	else if (action == UP_OBJ_FACE)	787	else if (action == UP_OBJ_FACE)
818	/* Nothing to do for that case */ ;	788	/* Nothing to do for that case */ ;
819	else	789	else
820	LOG (llevError, "update_object called with invalid action: %d\n", action);	790	LOG (llevError, "update_object called with invalid action: %d\n", action);
821		791
822	if (update_now)
823	{
824	SET_MAP_FLAGS (op->map, op->x, op->y, flags | P_NO_ERROR | P_NEED_UPDATE);
825	update_position (op->map, op->x, op->y);
826	}
827
828	if (op->more != NULL)	792	if (op->more)
829	update_object (op->more, action);	793	update_object (op->more, action);
830	}
831
832	object::vector object::mortals;
833	object::vector object::objects; // not yet used
834	object *object::first;
835
836	void object::free_mortals ()
837	{
838	for (AUTODECL (i, mortals.begin ()); i != mortals.end ();)
839	if ((*i)->refcnt)
840	++i; // further delay freeing
841	else
842	{
843	delete *i;
844	mortals.erase (i);
845	}
846	}	794	}
847		795
848	object::object ()	796	object::object ()
849	{	797	{
850	SET_FLAG (this, FLAG_REMOVED);	798	SET_FLAG (this, FLAG_REMOVED);
…		…
853	face = blank_face;	801	face = blank_face;
854	}	802	}
855		803
856	object::~object ()	804	object::~object ()
857	{	805	{
		806	unlink ();
		807
858	free_key_values (this);	808	free_key_values (this);
859	}	809	}
860		810
		811	static int object_count;
		812
861	void object::link ()	813	void object::link ()
862	{	814	{
		815	assert (!index);//D
		816	uuid = UUID::gen ();
863	count = ++ob_count;	817	count = ++object_count;
864	uuid = gen_uuid ();
865		818
866	prev = 0;	819	refcnt_inc ();
867	next = object::first;	820	objects.insert (this);
868
869	if (object::first)
870	object::first->prev = this;
871
872	object::first = this;
873	}	821	}
874		822
875	void object::unlink ()	823	void object::unlink ()
876	{	824	{
877	if (this == object::first)	825	if (!index)
878	object::first = next;	826	return;
879		827
880	/* Remove this object from the list of used objects */	828	objects.erase (this);
881	if (prev) prev->next = next;	829	refcnt_dec ();
882	if (next) next->prev = prev;	830	}
883		831
884	prev = 0;	832	void
885	next = 0;	833	object::activate ()
		834	{
		835	/* If already on active list, don't do anything */
		836	if (active)
		837	return;
		838
		839	if (has_active_speed ())
		840	actives.insert (this);
		841	}
		842
		843	void
		844	object::activate_recursive ()
		845	{
		846	activate ();
		847
		848	for (object *op = inv; op; op = op->below)
		849	op->activate_recursive ();
		850	}
		851
		852	/* This function removes object 'op' from the list of active
		853	* objects.
		854	* This should only be used for style maps or other such
		855	* reference maps where you don't want an object that isn't
		856	* in play chewing up cpu time getting processed.
		857	* The reverse of this is to call update_ob_speed, which
		858	* will do the right thing based on the speed of the object.
		859	*/
		860	void
		861	object::deactivate ()
		862	{
		863	/* If not on the active list, nothing needs to be done */
		864	if (!active)
		865	return;
		866
		867	actives.erase (this);
		868	}
		869
		870	void
		871	object::deactivate_recursive ()
		872	{
		873	for (object *op = inv; op; op = op->below)
		874	op->deactivate_recursive ();
		875
		876	deactivate ();
		877	}
		878
		879	void
		880	object::set_flag_inv (int flag, int value)
		881	{
		882	for (object *op = inv; op; op = op->below)
		883	{
		884	op->flag [flag] = value;
		885	op->set_flag_inv (flag, value);
		886	}
		887	}
		888
		889	/*
		890	* Remove and free all objects in the inventory of the given object.
		891	* object.c ?
		892	*/
		893	void
		894	object::destroy_inv (bool drop_to_ground)
		895	{
		896	// need to check first, because the checks below might segfault
		897	// as we might be on an invalid mapspace and crossfire code
		898	// is too buggy to ensure that the inventory is empty.
		899	// corollary: if you create arrows etc. with stuff in its inventory,
		900	// cf will crash below with off-map x and y
		901	if (!inv)
		902	return;
		903
		904	/* Only if the space blocks everything do we not process -
		905	* if some form of movement is allowed, let objects
		906	* drop on that space.
		907	*/
		908	if (!drop_to_ground
		909	|| !map
		910	|| map->in_memory != MAP_ACTIVE
		911	|| map->no_drop
		912	|| ms ().move_block == MOVE_ALL)
		913	{
		914	while (inv)
		915	{
		916	inv->destroy_inv (false);
		917	inv->destroy ();
		918	}
		919	}
		920	else
		921	{ /* Put objects in inventory onto this space */
		922	while (inv)
		923	{
		924	object *op = inv;
		925
		926	if (op->flag [FLAG_STARTEQUIP]
		927	|| op->flag [FLAG_NO_DROP]
		928	|| op->type == RUNE
		929	|| op->type == TRAP
		930	|| op->flag [FLAG_IS_A_TEMPLATE]
		931	|| op->flag [FLAG_DESTROY_ON_DEATH])
		932	op->destroy (true);
		933	else
		934	map->insert (op, x, y);
		935	}
		936	}
886	}	937	}
887		938
888	object *object::create ()	939	object *object::create ()
889	{	940	{
890	object *op = new object;	941	object *op = new object;
891	op->link ();	942	op->link ();
892	return op;	943	return op;
893	}	944	}
894		945
895	/*	946	static struct freed_map : maptile
896	* free_object() frees everything allocated by an object, removes	947	{
897	* it from the list of used objects, and puts it on the list of	948	freed_map ()
898	* free objects. The IS_FREED() flag is set in the object.	949	{
899	* The object must have been removed by remove_ob() first for	950	path = "<freed objects map>";
900	* this function to succeed.	951	name = "/internal/freed_objects_map";
901	*	952	width = 3;
902	* If destroy_inventory is set, free inventory as well. Else drop items in	953	height = 3;
903	* inventory to the ground.	954	no_drop = 1;
904	*/	955	no_reset = 1;
		956
		957	alloc ();
		958	in_memory = MAP_ACTIVE;
		959	}
		960
		961	~freed_map ()
		962	{
		963	destroy ();
		964	}
		965	} freed_map; // freed objects are moved here to avoid crashes
		966
		967	void
		968	object::do_destroy ()
		969	{
		970	if (flag [FLAG_IS_LINKED])
		971	remove_button_link (this);
		972
		973	if (flag [FLAG_FRIENDLY])
		974	remove_friendly_object (this);
		975
		976	remove ();
		977
		978	attachable::do_destroy ();
		979
		980	deactivate ();
		981	unlink ();
		982
		983	flag [FLAG_FREED] = 1;
		984
		985	// hack to ensure that freed objects still have a valid map
		986	map = &freed_map;
		987	x = 1;
		988	y = 1;
		989
		990	if (more)
		991	{
		992	more->destroy ();
		993	more = 0;
		994	}
		995
		996	head = 0;
		997
		998	// clear those pointers that likely might cause circular references
		999	owner = 0;
		1000	enemy = 0;
		1001	attacked_by = 0;
		1002	current_weapon = 0;
		1003	}
		1004
		1005	void
905	void object::destroy (bool destroy_inventory)	1006	object::destroy (bool destroy_inventory)
906	{	1007	{
907	if (QUERY_FLAG (this, FLAG_FREED))	1008	if (destroyed ())
908	return;	1009	return;
909		1010
910	if (QUERY_FLAG (this, FLAG_FRIENDLY))	1011	if (!is_head () && !head->destroyed ())
911	remove_friendly_object (this);
912
913	if (!QUERY_FLAG (this, FLAG_REMOVED))
914	remove_ob (this);
915
916	SET_FLAG (this, FLAG_FREED);
917
918	if (more)
919	{	1012	{
		1013	LOG (llevError | logBacktrace, "tried to destroy the tail of an object");
920	more->destroy (destroy_inventory);	1014	head->destroy (destroy_inventory);
921	more = 0;	1015	return;
922	}
923
924	if (inv)
925	{
926	/* Only if the space blocks everything do we not process -
927	* if some form of movement is allowed, let objects
928	* drop on that space.
929	*/
930	if (destroy_inventory || !map || map->in_memory != MAP_IN_MEMORY || GET_MAP_MOVE_BLOCK (map, x, y) == MOVE_ALL)
931	{
932	object *op = inv;
933
934	while (op)
935	{
936	object *tmp = op->below;
937	op->destroy (destroy_inventory);
938	op = tmp;
939	}
940	}
941	else
942	{ /* Put objects in inventory onto this space */
943	object *op = inv;
944
945	while (op)
946	{
947	object *tmp = op->below;
948
949	remove_ob (op);
950
951	if (QUERY_FLAG (op, FLAG_STARTEQUIP)
952	|| QUERY_FLAG (op, FLAG_NO_DROP) || op->type == RUNE || op->type == TRAP || QUERY_FLAG (op, FLAG_IS_A_TEMPLATE))
953	free_object (op);
954	else
955	{
956	op->x = x;
957	op->y = y;
958	insert_ob_in_map (op, map, 0, 0); /* Insert in same map as the envir */
959	}
960
961	op = tmp;
962	}
963	}
964	}
965
966	// hack to ensure that freed objects still have a valid map
967	{
968	static maptile *freed_map; // freed objects are moved here to avoid crashes
969
970	if (!freed_map)
971	{
972	freed_map = new maptile;
973
974	freed_map->name = "/internal/freed_objects_map";
975	freed_map->width = 3;
976	freed_map->height = 3;
977
978	freed_map->allocate ();
979	}	1016	}
980		1017
981	map = freed_map;	1018	destroy_inv (!destroy_inventory);
982	x = 1;
983	y = 1;
984	}
985		1019
986	// clear those pointers that likely might have circular references to us	1020	if (is_head ())
987	owner = 0;	1021	if (sound_destroy)
988	enemy = 0;	1022	play_sound (sound_destroy);
989	attacked_by = 0;	1023	else if (flag [FLAG_MONSTER])
		1024	play_sound (sound_find ("monster_destroy")); // quick hack, too lazy to create a generic mechanism
990		1025
991	// only relevant for players(?), but make sure of it anyways	1026	attachable::destroy ();
992	contr = 0;
993
994	/* Remove object from the active list */
995	speed = 0;
996	update_ob_speed (this);
997
998	unlink ();
999
1000	mortals.push_back (this);
1001	}	1027	}
1002		1028
1003	/*	1029	/* op->remove ():
1004	* sub_weight() recursively (outwards) subtracts a number from the
1005	* weight of an object (and what is carried by it's environment(s)).
1006	*/
1007	void
1008	sub_weight (object *op, signed long weight)
1009	{
1010	while (op != NULL)
1011	{
1012	if (op->type == CONTAINER)
1013	weight = (signed long) (weight * (100 - op->stats.Str) / 100);
1014
1015	op->carrying -= weight;
1016	op = op->env;
1017	}
1018	}
1019
1020	/* remove_ob(op):
1021	* This function removes the object op from the linked list of objects	1030	* This function removes the object op from the linked list of objects
1022	* which it is currently tied to. When this function is done, the	1031	* which it is currently tied to. When this function is done, the
1023	* object will have no environment. If the object previously had an	1032	* object will have no environment. If the object previously had an
1024	* environment, the x and y coordinates will be updated to	1033	* environment, the x and y coordinates will be updated to
1025	* the previous environment.	1034	* the previous environment.
1026	* Beware: This function is called from the editor as well!
1027	*/	1035	*/
1028	void	1036	void
1029	object::remove ()	1037	object::do_remove ()
1030	{	1038	{
1031	object *tmp, *last = 0;	1039	object *tmp, *last = 0;
1032	object *otmp;	1040	object *otmp;
1033		1041
1034	int check_walk_off;	1042	if (flag [FLAG_REMOVED])
1035
1036	if (QUERY_FLAG (this, FLAG_REMOVED))
1037	return;	1043	return;
1038		1044
1039	SET_FLAG (this, FLAG_REMOVED);	1045	INVOKE_OBJECT (REMOVE, this);
		1046
		1047	flag [FLAG_REMOVED] = true;
1040		1048
1041	if (more)	1049	if (more)
1042	more->remove ();	1050	more->remove ();
1043		1051
1044	/*	1052	/*
1045	* In this case, the object to be removed is in someones	1053	* In this case, the object to be removed is in someones
1046	* inventory.	1054	* inventory.
1047	*/	1055	*/
1048	if (env)	1056	if (env)
1049	{	1057	{
1050	if (nrof)	1058	flag [FLAG_REMOVED] = false; // hack around the issue of visible_to checking flag_removed
1051	sub_weight (env, weight * nrof);	1059	if (object *pl = visible_to ())
1052	else	1060	esrv_del_item (pl->contr, count);
1053	sub_weight (env, weight + carrying);	1061	flag [FLAG_REMOVED] = true; // hack around the issue of visible_to checking flag_removed
		1062
		1063	adjust_weight (env, -total_weight ());
		1064
		1065	/* we set up values so that it could be inserted into
		1066	* the map, but we don't actually do that - it is up
		1067	* to the caller to decide what we want to do.
		1068	*/
		1069	map = env->map;
		1070	x = env->x;
		1071	y = env->y;
		1072
		1073	// make sure cmov optimisation is applicable
		1074	*(above ? &above->below : &env->inv) = below;
		1075	*(below ? &below->above : &above ) = above; // &above is just a dummy
		1076
		1077	above = 0;
		1078	below = 0;
		1079	env = 0;
1054		1080
1055	/* NO_FIX_PLAYER is set when a great many changes are being	1081	/* NO_FIX_PLAYER is set when a great many changes are being
1056	* made to players inventory. If set, avoiding the call	1082	* made to players inventory. If set, avoiding the call
1057	* to save cpu time.	1083	* to save cpu time.
1058	*/	1084	*/
1059	if ((otmp = is_player_inv (env)) != NULL && otmp->contr && !QUERY_FLAG (otmp, FLAG_NO_FIX_PLAYER))	1085	if ((otmp = in_player ()) && otmp->contr && !QUERY_FLAG (otmp, FLAG_NO_FIX_PLAYER))
1060	fix_player (otmp);	1086	otmp->update_stats ();
1061
1062	if (above != NULL)
1063	above->below = below;
1064	else
1065	env->inv = below;
1066
1067	if (below != NULL)
1068	below->above = above;
1069
1070	/* we set up values so that it could be inserted into
1071	* the map, but we don't actually do that - it is up
1072	* to the caller to decide what we want to do.
1073	*/
1074	x = env->x, y = env->y;
1075	map = env->map;
1076	above = 0, below = 0;
1077	env = 0;
1078	}	1087	}
1079	else if (map)	1088	else if (map)
1080	{	1089	{
1081	/* Re did the following section of code - it looks like it had	1090	map->dirty = true;
1082	* lots of logic for things we no longer care about	1091	mapspace &ms = this->ms ();
		1092
		1093	if (object *pl = ms.player ())
1083	*/	1094	{
		1095	if (type == PLAYER) // this == pl(!)
		1096	{
		1097	// leaving a spot always closes any open container on the ground
		1098	if (container && !container->env)
		1099	// this causes spurious floorbox updates, but it ensures
		1100	// that the CLOSE event is being sent.
		1101	close_container ();
		1102
		1103	--map->players;
		1104	map->touch ();
		1105	}
		1106	else if (pl->container == this)
		1107	{
		1108	// removing a container should close it
		1109	close_container ();
		1110	}
		1111
		1112	esrv_del_item (pl->contr, count);
		1113	}
1084		1114
1085	/* link the object above us */	1115	/* link the object above us */
1086	if (above)	1116	// re-link, make sure compiler can easily use cmove
1087	above->below = below;	1117	*(above ? &above->below : &ms.top) = below;
1088	else	1118	*(below ? &below->above : &ms.bot) = above;
1089	SET_MAP_TOP (map, x, y, below); /* we were top, set new top */
1090
1091	/* Relink the object below us, if there is one */
1092	if (below)
1093	below->above = above;
1094	else
1095	{
1096	/* Nothing below, which means we need to relink map object for this space
1097	* use translated coordinates in case some oddness with map tiling is
1098	* evident
1099	*/
1100	if (GET_MAP_OB (map, x, y) != this)
1101	{
1102	char *dump = dump_object (this);
1103	LOG (llevError,
1104	"remove_ob: GET_MAP_OB does not return object to be removed even though it appears to be on the bottom?\n%s\n", dump);
1105	free (dump);
1106	dump = dump_object (GET_MAP_OB (map, x, y));
1107	LOG (llevError, "%s\n", dump);
1108	free (dump);
1109	}
1110
1111	SET_MAP_OB (map, x, y, above); /* goes on above it. */
1112	}
1113		1119
1114	above = 0;	1120	above = 0;
1115	below = 0;	1121	below = 0;
1116		1122
1117	if (map->in_memory == MAP_SAVING)	1123	if (map->in_memory == MAP_SAVING)
1118	return;	1124	return;
1119		1125
1120	check_walk_off = !QUERY_FLAG (this, FLAG_NO_APPLY);	1126	int check_walk_off = !flag [FLAG_NO_APPLY];
1121		1127
		1128	if (object *pl = ms.player ())
		1129	{
		1130	if (pl->container == this)
		1131	/* If a container that the player is currently using somehow gets
		1132	* removed (most likely destroyed), update the player view
		1133	* appropriately.
		1134	*/
		1135	pl->close_container ();
		1136
		1137	//TODO: the floorbox prev/next might need updating
		1138	//esrv_del_item (pl->contr, count);
		1139	//TODO: update floorbox to preserve ordering
		1140	if (pl->contr->ns)
		1141	pl->contr->ns->floorbox_update ();
		1142	}
		1143
1122	for (tmp = GET_MAP_OB (map, x, y); tmp; tmp = tmp->above)	1144	for (tmp = ms.bot; tmp; tmp = tmp->above)
1123	{	1145	{
1124	/* No point updating the players look faces if he is the object	1146	/* No point updating the players look faces if he is the object
1125	* being removed.	1147	* being removed.
1126	*/	1148	*/
1127		1149
1128	if (tmp->type == PLAYER && tmp != this)
1129	{
1130	/* If a container that the player is currently using somehow gets
1131	* removed (most likely destroyed), update the player view
1132	* appropriately.
1133	*/
1134	if (tmp->container == this)
1135	{
1136	CLEAR_FLAG (this, FLAG_APPLIED);
1137	tmp->container = 0;
1138	}
1139
1140	tmp->contr->socket.update_look = 1;
1141	}
1142
1143	/* See if player moving off should effect something */	1150	/* See if object moving off should effect something */
1144	if (check_walk_off	1151	if (check_walk_off
1145	&& ((move_type & tmp->move_off)	1152	&& ((move_type & tmp->move_off)
1146	&& (move_type & ~tmp->move_off & ~tmp->move_block) == 0))	1153	&& (move_type & ~tmp->move_off & ~tmp->move_block) == 0))
1147	{	1154	{
1148	move_apply (tmp, this, 0);	1155	move_apply (tmp, this, 0);
1149		1156
1150	if (destroyed ())	1157	if (destroyed ())
1151	LOG (llevError, "BUG: remove_ob(): name %s, destroyed leaving object\n", tmp->debug_desc ());	1158	LOG (llevError, "BUG: remove_ob(): name %s, destroyed leaving object\n", tmp->debug_desc ());
1152	}	1159	}
1153		1160
1154	/* Eneq(@csd.uu.se): Fixed this to skip tmp->above=tmp */
1155
1156	if (tmp->above == tmp)
1157	tmp->above = 0;
1158
1159	last = tmp;	1161	last = tmp;
1160	}	1162	}
1161		1163
1162	/* last == NULL of there are no objects on this space */	1164	/* last == NULL if there are no objects on this space */
		1165	//TODO: this makes little sense, why only update the topmost object?
1163	if (!last)	1166	if (!last)
1164	{	1167	map->at (x, y).flags_ = 0;
1165	/* set P_NEED_UPDATE, otherwise update_position will complain. In theory,
1166	* we could preserve the flags (GET_MAP_FLAGS), but update_position figures
1167	* those out anyways, and if there are any flags set right now, they won't
1168	* be correct anyways.
1169	*/
1170	SET_MAP_FLAGS (map, x, y, P_NEED_UPDATE);
1171	update_position (map, x, y);
1172	}
1173	else	1168	else
1174	update_object (last, UP_OBJ_REMOVE);	1169	update_object (last, UP_OBJ_REMOVE);
1175		1170
1176	if (QUERY_FLAG (this, FLAG_BLOCKSVIEW) || glow_radius)	1171	if (flag [FLAG_BLOCKSVIEW] || glow_radius)
1177	update_all_los (map, x, y);	1172	update_all_los (map, x, y);
1178	}	1173	}
1179	}	1174	}
1180		1175
1181	/*	1176	/*
…		…
1190	merge_ob (object *op, object *top)	1185	merge_ob (object *op, object *top)
1191	{	1186	{
1192	if (!op->nrof)	1187	if (!op->nrof)
1193	return 0;	1188	return 0;
1194		1189
1195	if (top == NULL)	1190	if (!top)
1196	for (top = op; top != NULL && top->above != NULL; top = top->above);	1191	for (top = op; top && top->above; top = top->above)
		1192	;
1197		1193
1198	for (; top != NULL; top = top->below)	1194	for (; top; top = top->below)
1199	{	1195	if (object::can_merge (op, top))
1200	if (top == op)
1201	continue;
1202	if (CAN_MERGE (op, top))
1203	{	1196	{
1204	top->nrof += op->nrof;	1197	top->nrof += op->nrof;
1205		1198
1206	/* CLEAR_FLAG(top,FLAG_STARTEQUIP);*/	1199	if (object *pl = top->visible_to ())
1207	op->weight = 0; /* Don't want any adjustements now */	1200	esrv_update_item (UPD_NROF, pl, top);
1208	remove_ob (op);	1201
1209	free_object (op);	1202	op->weight = 0; // cancel the addition above
		1203	op->carrying = 0; // must be 0 already
		1204
		1205	op->destroy (1);
		1206
1210	return top;	1207	return top;
1211	}	1208	}
1212	}
1213		1209
1214	return 0;	1210	return 0;
1215	}	1211	}
1216		1212
		1213	void
		1214	object::expand_tail ()
		1215	{
		1216	if (more)
		1217	return;
		1218
		1219	object *prev = this;
		1220
		1221	for (archetype *at = (archetype *)arch->more; at; at = (archetype *)at->more)
		1222	{
		1223	object *op = arch_to_object (at);
		1224
		1225	op->name = name;
		1226	op->name_pl = name_pl;
		1227	op->title = title;
		1228
		1229	op->head = this;
		1230	prev->more = op;
		1231
		1232	prev = op;
		1233	}
		1234	}
		1235
1217	/*	1236	/*
1218	* same as insert_ob_in_map except it handle separate coordinates and do a clean	1237	* same as insert_ob_in_map except it handles separate coordinates and does a clean
1219	* job preparing multi-part monsters	1238	* job preparing multi-part monsters.
1220	*/	1239	*/
1221	object *	1240	object *
1222	insert_ob_in_map_at (object *op, maptile *m, object *originator, int flag, int x, int y)	1241	insert_ob_in_map_at (object *op, maptile *m, object *originator, int flag, int x, int y)
1223	{	1242	{
1224	object *tmp;	1243	op->remove ();
1225		1244
1226	if (op->head)
1227	op = op->head;
1228
1229	for (tmp = op; tmp; tmp = tmp->more)	1245	for (object *tmp = op->head_ (); tmp; tmp = tmp->more)
1230	{	1246	{
1231	tmp->x = x + tmp->arch->clone.x;	1247	tmp->x = x + tmp->arch->x;
1232	tmp->y = y + tmp->arch->clone.y;	1248	tmp->y = y + tmp->arch->y;
1233	}	1249	}
1234		1250
1235	return insert_ob_in_map (op, m, originator, flag);	1251	return insert_ob_in_map (op, m, originator, flag);
1236	}	1252	}
1237		1253
…		…
1253	* Return value:	1269	* Return value:
1254	* new object if 'op' was merged with other object	1270	* new object if 'op' was merged with other object
1255	* NULL if 'op' was destroyed	1271	* NULL if 'op' was destroyed
1256	* just 'op' otherwise	1272	* just 'op' otherwise
1257	*/	1273	*/
1258
1259	object *	1274	object *
1260	insert_ob_in_map (object *op, maptile *m, object *originator, int flag)	1275	insert_ob_in_map (object *op, maptile *m, object *originator, int flag)
1261	{	1276	{
1262	object *tmp, *top, *floor = NULL;	1277	if (op->is_on_map ())
1263	sint16 x, y;
1264
1265	if (QUERY_FLAG (op, FLAG_FREED))
1266	{
1267	LOG (llevError, "Trying to insert freed object!\n");
1268	return NULL;
1269	}	1278	{
1270		1279	LOG (llevError, "insert_ob_in_map called for object already on map");
1271	if (m == NULL)
1272	{
1273	char *dump = dump_object (op);
1274	LOG (llevError, "Trying to insert in null-map!\n%s\n", dump);
1275	free (dump);
1276	return op;
1277	}
1278
1279	if (out_of_map (m, op->x, op->y))
1280	{
1281	char *dump = dump_object (op);
1282	LOG (llevError, "Trying to insert object outside the map.\n%s\n", dump);
1283	#ifdef MANY_CORES
1284	/* Better to catch this here, as otherwise the next use of this object
1285	* is likely to cause a crash. Better to find out where it is getting
1286	* improperly inserted.
1287	*/
1288	abort ();	1280	abort ();
1289	#endif
1290	free (dump);
1291	return op;
1292	}
1293
1294	if (!QUERY_FLAG (op, FLAG_REMOVED))
1295	{	1281	}
1296	char *dump = dump_object (op);	1282
1297	LOG (llevError, "Trying to insert (map) inserted object.\n%s\n", dump);	1283	if (op->env)
1298	free (dump);
1299	return op;
1300	}	1284	{
1301		1285	LOG (llevError, "insert_ob_in_map called for object in an inventory (proceeding)");
1302	if (op->more != NULL)	1286	op->remove ();
1303	{	1287	}
1304	/* The part may be on a different map. */
1305		1288
1306	object *more = op->more;	1289	if (op->face && !face_info (op->face))//D TODO: remove soon
1307		1290	{//D
1308	/* We really need the caller to normalize coordinates - if	1291	LOG (llevError | logBacktrace, "op->face out of bounds: %s", op->debug_desc ());//D
1309	* we set the map, that doesn't work if the location is within	1292	op->face = 1;//D
1310	* a map and this is straddling an edge. So only if coordinate
1311	* is clear wrong do we normalize it.
1312	*/
1313	if (OUT_OF_REAL_MAP (more->map, more->x, more->y))
1314	more->map = get_map_from_coord (m, &more->x, &more->y);
1315	else if (!more->map)
1316	{
1317	/* For backwards compatibility - when not dealing with tiled maps,
1318	* more->map should always point to the parent.
1319	*/
1320	more->map = m;
1321	}
1322
1323	if (insert_ob_in_map (more, more->map, originator, flag) == NULL)
1324	{
1325	if (!op->head)
1326	LOG (llevError, "BUG: insert_ob_in_map(): inserting op->more killed op\n");
1327
1328	return NULL;
1329	}
1330	}	1293	}//D
1331
1332	CLEAR_FLAG (op, FLAG_REMOVED);
1333		1294
1334	/* Ideally, the caller figures this out. However, it complicates a lot	1295	/* Ideally, the caller figures this out. However, it complicates a lot
1335	* of areas of callers (eg, anything that uses find_free_spot would now	1296	* of areas of callers (eg, anything that uses find_free_spot would now
1336	* need extra work	1297	* need extra work
1337	*/	1298	*/
1338	op->map = get_map_from_coord (m, &op->x, &op->y);	1299	if (!xy_normalise (m, op->x, op->y))
1339	x = op->x;	1300	{
1340	y = op->y;	1301	op->head_ ()->destroy (1);// remove head_ once all tail object destroyers found
		1302	return 0;
		1303	}
		1304
		1305	if (object *more = op->more)
		1306	if (!insert_ob_in_map (more, m, originator, flag))
		1307	return 0;
		1308
		1309	CLEAR_FLAG (op, FLAG_REMOVED);
		1310
		1311	op->map = m;
		1312	mapspace &ms = op->ms ();
1341		1313
1342	/* this has to be done after we translate the coordinates.	1314	/* this has to be done after we translate the coordinates.
1343	*/	1315	*/
1344	if (op->nrof && !(flag & INS_NO_MERGE))	1316	if (op->nrof && !(flag & INS_NO_MERGE))
1345	for (tmp = GET_MAP_OB (op->map, x, y); tmp != NULL; tmp = tmp->above)	1317	for (object *tmp = ms.bot; tmp; tmp = tmp->above)
1346	if (CAN_MERGE (op, tmp))	1318	if (object::can_merge (op, tmp))
1347	{	1319	{
		1320	// TODO: we actually want to update tmp, not op,
		1321	// but some caller surely breaks when we return tmp
		1322	// from here :/
1348	op->nrof += tmp->nrof;	1323	op->nrof += tmp->nrof;
1349	remove_ob (tmp);	1324	tmp->destroy (1);
1350	free_object (tmp);
1351	}	1325	}
1352		1326
1353	CLEAR_FLAG (op, FLAG_APPLIED); /* hack for fixing F_APPLIED in items of dead people */	1327	CLEAR_FLAG (op, FLAG_APPLIED); /* hack for fixing F_APPLIED in items of dead people */
1354	CLEAR_FLAG (op, FLAG_INV_LOCKED);	1328	CLEAR_FLAG (op, FLAG_INV_LOCKED);
1355		1329
…		…
1362	{	1336	{
1363	LOG (llevError, "insert_ob_in_map called with INS_BELOW_ORIGINATOR when originator not on same space!\n");	1337	LOG (llevError, "insert_ob_in_map called with INS_BELOW_ORIGINATOR when originator not on same space!\n");
1364	abort ();	1338	abort ();
1365	}	1339	}
1366		1340
		1341	if (!originator->is_on_map ())
		1342	LOG (llevDebug | logBacktrace, "insert_ob_in_map(%s) called with INS_BELOW_ORIGINATOR when originator '%s' not on map",
		1343	op->debug_desc (), originator->debug_desc ());
		1344
1367	op->above = originator;	1345	op->above = originator;
1368	op->below = originator->below;	1346	op->below = originator->below;
1369
1370	if (op->below)
1371	op->below->above = op;
1372	else
1373	SET_MAP_OB (op->map, op->x, op->y, op);
1374
1375	/* since *below* originator, no need to update top */
1376	originator->below = op;	1347	originator->below = op;
		1348
		1349	*(op->below ? &op->below->above : &ms.bot) = op;
1377	}	1350	}
1378	else	1351	else
1379	{	1352	{
		1353	object *floor = 0;
		1354	object *top = ms.top;
		1355
1380	/* If there are other objects, then */	1356	/* If there are other objects, then */
1381	if ((!(flag & INS_MAP_LOAD)) && ((top = GET_MAP_OB (op->map, op->x, op->y)) != NULL))	1357	if (top)
1382	{	1358	{
1383	object *last = NULL;
1384
1385	/*	1359	/*
1386	* If there are multiple objects on this space, we do some trickier handling.	1360	* If there are multiple objects on this space, we do some trickier handling.
1387	* We've already dealt with merging if appropriate.	1361	* We've already dealt with merging if appropriate.
1388	* Generally, we want to put the new object on top. But if	1362	* Generally, we want to put the new object on top. But if
1389	* flag contains INS_ABOVE_FLOOR_ONLY, once we find the last	1363	* flag contains INS_ABOVE_FLOOR_ONLY, once we find the last
…		…
1392	* once we get to them. This reduces the need to traverse over all of	1366	* once we get to them. This reduces the need to traverse over all of
1393	* them when adding another one - this saves quite a bit of cpu time	1367	* them when adding another one - this saves quite a bit of cpu time
1394	* when lots of spells are cast in one area. Currently, it is presumed	1368	* when lots of spells are cast in one area. Currently, it is presumed
1395	* that flying non pickable objects are spell objects.	1369	* that flying non pickable objects are spell objects.
1396	*/	1370	*/
1397		1371	for (object *tmp = ms.bot; tmp; tmp = tmp->above)
1398	while (top != NULL)
1399	{	1372	{
1400	if (QUERY_FLAG (top, FLAG_IS_FLOOR) || QUERY_FLAG (top, FLAG_OVERLAY_FLOOR))	1373	if (QUERY_FLAG (tmp, FLAG_IS_FLOOR) || QUERY_FLAG (tmp, FLAG_OVERLAY_FLOOR))
1401	floor = top;	1374	floor = tmp;
1402		1375
1403	if (QUERY_FLAG (top, FLAG_NO_PICK) && (top->move_type & (MOVE_FLY_LOW | MOVE_FLY_HIGH)) && !QUERY_FLAG (top, FLAG_IS_FLOOR))	1376	if (QUERY_FLAG (tmp, FLAG_NO_PICK) && (tmp->move_type & (MOVE_FLY_LOW | MOVE_FLY_HIGH)) && !QUERY_FLAG (tmp, FLAG_IS_FLOOR))
1404	{	1377	{
1405	/* We insert above top, so we want this object below this */	1378	/* We insert above top, so we want this object below this */
1406	top = top->below;	1379	top = tmp->below;
1407	break;	1380	break;
1408	}	1381	}
1409		1382
1410	last = top;
1411	top = top->above;	1383	top = tmp;
1412	}	1384	}
1413
1414	/* Don't want top to be NULL, so set it to the last valid object */
1415	top = last;
1416		1385
1417	/* We let update_position deal with figuring out what the space	1386	/* We let update_position deal with figuring out what the space
1418	* looks like instead of lots of conditions here.	1387	* looks like instead of lots of conditions here.
1419	* makes things faster, and effectively the same result.	1388	* makes things faster, and effectively the same result.
1420	*/	1389	*/
1421		1390
1422	/* Have object 'fall below' other objects that block view.	1391	/* Have object 'fall below' other objects that block view.
1423	* Unless those objects are exits, type 66	1392	* Unless those objects are exits.
1424	* If INS_ON_TOP is used, don't do this processing	1393	* If INS_ON_TOP is used, don't do this processing
1425	* Need to find the object that in fact blocks view, otherwise	1394	* Need to find the object that in fact blocks view, otherwise
1426	* stacking is a bit odd.	1395	* stacking is a bit odd.
1427	*/	1396	*/
1428	if (!(flag & INS_ON_TOP) &&	1397	if (!(flag & INS_ON_TOP)
1429	(get_map_flags (op->map, NULL, op->x, op->y, NULL, NULL) & P_BLOCKSVIEW) && (op->face && !op->face->visibility))	1398	&& ms.flags () & P_BLOCKSVIEW
		1399	&& (op->face && !faces [op->face].visibility))
1430	{	1400	{
		1401	object *last;
		1402
1431	for (last = top; last != floor; last = last->below)	1403	for (last = top; last != floor; last = last->below)
1432	if (QUERY_FLAG (last, FLAG_BLOCKSVIEW) && (last->type != EXIT))	1404	if (QUERY_FLAG (last, FLAG_BLOCKSVIEW) && (last->type != EXIT))
1433	break;	1405	break;
		1406
1434	/* Check to see if we found the object that blocks view,	1407	/* Check to see if we found the object that blocks view,
1435	* and make sure we have a below pointer for it so that	1408	* and make sure we have a below pointer for it so that
1436	* we can get inserted below this one, which requires we	1409	* we can get inserted below this one, which requires we
1437	* set top to the object below us.	1410	* set top to the object below us.
1438	*/	1411	*/
1439	if (last && last->below && last != floor)	1412	if (last && last->below && last != floor)
1440	top = last->below;	1413	top = last->below;
1441	}	1414	}
1442	} /* If objects on this space */	1415	} /* If objects on this space */
1443		1416
1444	if (flag & INS_MAP_LOAD)
1445	top = GET_MAP_TOP (op->map, op->x, op->y);
1446
1447	if (flag & INS_ABOVE_FLOOR_ONLY)	1417	if (flag & INS_ABOVE_FLOOR_ONLY)
1448	top = floor;	1418	top = floor;
1449		1419
1450	/* Top is the object that our object (op) is going to get inserted above.	1420	// insert object above top, or bottom-most if top = 0
1451	*/
1452
1453	/* First object on this space */
1454	if (!top)	1421	if (!top)
1455	{	1422	{
1456	op->above = GET_MAP_OB (op->map, op->x, op->y);
1457
1458	if (op->above)
1459	op->above->below = op;
1460
1461	op->below = NULL;	1423	op->below = 0;
1462	SET_MAP_OB (op->map, op->x, op->y, op);	1424	op->above = ms.bot;
		1425	ms.bot = op;
		1426
		1427	*(op->above ? &op->above->below : &ms.top) = op;
1463	}	1428	}
1464	else	1429	else
1465	{ /* get inserted into the stack above top */	1430	{
1466	op->above = top->above;	1431	op->above = top->above;
1467
1468	if (op->above)
1469	op->above->below = op;	1432	top->above = op;
1470		1433
1471	op->below = top;	1434	op->below = top;
1472	top->above = op;	1435	*(op->above ? &op->above->below : &ms.top) = op;
1473	}	1436	}
1474		1437	}
1475	if (op->above == NULL)
1476	SET_MAP_TOP (op->map, op->x, op->y, op);
1477	} /* else not INS_BELOW_ORIGINATOR */
1478		1438
1479	if (op->type == PLAYER)	1439	if (op->type == PLAYER)
		1440	{
1480	op->contr->do_los = 1;	1441	op->contr->do_los = 1;
		1442	++op->map->players;
		1443	op->map->touch ();
		1444	}
1481		1445
1482	/* If we have a floor, we know the player, if any, will be above	1446	op->map->dirty = true;
1483	* it, so save a few ticks and start from there.	1447
1484	*/	1448	if (object *pl = ms.player ())
1485	if (!(flag & INS_MAP_LOAD))	1449	//TODO: the floorbox prev/next might need updating
1486	for (tmp = floor ? floor : GET_MAP_OB (op->map, op->x, op->y); tmp != NULL; tmp = tmp->above)	1450	//esrv_send_item (pl, op);
1487	if (tmp->type == PLAYER)	1451	//TODO: update floorbox to preserve ordering
1488	tmp->contr->socket.update_look = 1;	1452	if (pl->contr->ns)
		1453	pl->contr->ns->floorbox_update ();
1489		1454
1490	/* If this object glows, it may affect lighting conditions that are	1455	/* If this object glows, it may affect lighting conditions that are
1491	* visible to others on this map. But update_all_los is really	1456	* visible to others on this map. But update_all_los is really
1492	* an inefficient way to do this, as it means los for all players	1457	* an inefficient way to do this, as it means los for all players
1493	* on the map will get recalculated. The players could very well	1458	* on the map will get recalculated. The players could very well
1494	* be far away from this change and not affected in any way -	1459	* be far away from this change and not affected in any way -
1495	* this should get redone to only look for players within range,	1460	* this should get redone to only look for players within range,
1496	* or just updating the P_NEED_UPDATE for spaces within this area	1461	* or just updating the P_UPTODATE for spaces within this area
1497	* of effect may be sufficient.	1462	* of effect may be sufficient.
1498	*/	1463	*/
1499	if (MAP_DARKNESS (op->map) && (op->glow_radius != 0))	1464	if (op->map->darkness && (op->glow_radius != 0))
1500	update_all_los (op->map, op->x, op->y);	1465	update_all_los (op->map, op->x, op->y);
1501		1466
1502	/* updates flags (blocked, alive, no magic, etc) for this map space */	1467	/* updates flags (blocked, alive, no magic, etc) for this map space */
1503	update_object (op, UP_OBJ_INSERT);	1468	update_object (op, UP_OBJ_INSERT);
1504		1469
		1470	INVOKE_OBJECT (INSERT, op);
		1471
1505	/* Don't know if moving this to the end will break anything. However,	1472	/* Don't know if moving this to the end will break anything. However,
1506	* we want to have update_look set above before calling this.	1473	* we want to have floorbox_update called before calling this.
1507	*	1474	*
1508	* check_move_on() must be after this because code called from	1475	* check_move_on() must be after this because code called from
1509	* check_move_on() depends on correct map flags (so functions like	1476	* check_move_on() depends on correct map flags (so functions like
1510	* blocked() and wall() work properly), and these flags are updated by	1477	* blocked() and wall() work properly), and these flags are updated by
1511	* update_object().	1478	* update_object().
1512	*/	1479	*/
1513		1480
1514	/* if this is not the head or flag has been passed, don't check walk on status */	1481	/* if this is not the head or flag has been passed, don't check walk on status */
1515	if (!(flag & INS_NO_WALK_ON) && !op->head)	1482	if (!(flag & INS_NO_WALK_ON) && op->head_ () == op)
1516	{	1483	{
1517	if (check_move_on (op, originator))	1484	if (check_move_on (op, originator))
1518	return NULL;	1485	return 0;
1519		1486
1520	/* If we are a multi part object, lets work our way through the check	1487	/* If we are a multi part object, lets work our way through the check
1521	* walk on's.	1488	* walk on's.
1522	*/	1489	*/
1523	for (tmp = op->more; tmp != NULL; tmp = tmp->more)	1490	for (object *tmp = op->more; tmp; tmp = tmp->more)
1524	if (check_move_on (tmp, originator))	1491	if (check_move_on (tmp, originator))
1525	return NULL;	1492	return 0;
1526	}	1493	}
1527		1494
1528	return op;	1495	return op;
1529	}	1496	}
1530		1497
1531	/* this function inserts an object in the map, but if it	1498	/* this function inserts an object in the map, but if it
1532	* finds an object of its own type, it'll remove that one first.	1499	* finds an object of its own type, it'll remove that one first.
1533	* op is the object to insert it under: supplies x and the map.	1500	* op is the object to insert it under: supplies x and the map.
1534	*/	1501	*/
1535	void	1502	void
1536	replace_insert_ob_in_map (const char *arch_string, object *op)	1503	replace_insert_ob_in_map (const char *arch_string, object *op)
1537	{	1504	{
1538	object *
1539	tmp;
1540	object *
1541	tmp1;
1542
1543	/* first search for itself and remove any old instances */	1505	/* first search for itself and remove any old instances */
1544		1506
1545	for (tmp = GET_MAP_OB (op->map, op->x, op->y); tmp != NULL; tmp = tmp->above)	1507	for (object *tmp = op->ms ().bot; tmp; tmp = tmp->above)
1546	{
1547	if (!strcmp (tmp->arch->name, arch_string)) /* same archetype */	1508	if (!strcmp (tmp->arch->archname, arch_string)) /* same archetype */
1548	{	1509	tmp->destroy (1);
1549	remove_ob (tmp);
1550	free_object (tmp);
1551	}
1552	}
1553		1510
1554	tmp1 = arch_to_object (archetype::find (arch_string));	1511	object *tmp = arch_to_object (archetype::find (arch_string));
1555		1512
1556	tmp1->x = op->x;	1513	tmp->x = op->x;
1557	tmp1->y = op->y;	1514	tmp->y = op->y;
		1515
1558	insert_ob_in_map (tmp1, op->map, op, 0);	1516	insert_ob_in_map (tmp, op->map, op, 0);
1559	}	1517	}
1560
1561	/*
1562	* get_split_ob(ob,nr) splits up ob into two parts. The part which
1563	* is returned contains nr objects, and the remaining parts contains
1564	* the rest (or is removed and freed if that number is 0).
1565	* On failure, NULL is returned, and the reason put into the
1566	* global static errmsg array.
1567	*/
1568		1518
1569	object *	1519	object *
1570	get_split_ob (object *orig_ob, uint32 nr)	1520	object::insert_at (object *where, object *originator, int flags)
1571	{	1521	{
1572	object *	1522	if (where->env)
1573	newob;	1523	return where->env->insert (this);
1574	int	1524	else
1575	is_removed = (QUERY_FLAG (orig_ob, FLAG_REMOVED) != 0);	1525	return where->map->insert (this, where->x, where->y, originator, flags);
1576
1577	if (orig_ob->nrof < nr)
1578	{
1579	sprintf (errmsg, "There are only %d %ss.", orig_ob->nrof ? orig_ob->nrof : 1, &orig_ob->name);
1580	return NULL;
1581	}
1582
1583	newob = object_create_clone (orig_ob);
1584
1585	if ((orig_ob->nrof -= nr) < 1)
1586	{
1587	if (!is_removed)
1588	remove_ob (orig_ob);
1589	free_object2 (orig_ob, 1);
1590	}
1591	else if (!is_removed)
1592	{
1593	if (orig_ob->env != NULL)
1594	sub_weight (orig_ob->env, orig_ob->weight * nr);
1595	if (orig_ob->env == NULL && orig_ob->map->in_memory != MAP_IN_MEMORY)
1596	{
1597	strcpy (errmsg, "Tried to split object whose map is not in memory.");
1598	LOG (llevDebug, "Error, Tried to split object whose map is not in memory.\n");
1599	return NULL;
1600	}
1601	}
1602
1603	newob->nrof = nr;
1604
1605	return newob;
1606	}	1526	}
1607		1527
1608	/*	1528	/*
1609	* decrease_ob_nr(object, number) decreases a specified number from	1529	* decrease(object, number) decreases a specified number from
1610	* the amount of an object. If the amount reaches 0, the object	1530	* the amount of an object. If the amount reaches 0, the object
1611	* is subsequently removed and freed.	1531	* is subsequently removed and freed.
1612	*	1532	*
1613	* Return value: 'op' if something is left, NULL if the amount reached 0	1533	* Return value: 'op' if something is left, NULL if the amount reached 0
1614	*/	1534	*/
		1535	bool
		1536	object::decrease (sint32 nr)
		1537	{
		1538	if (!nr)
		1539	return true;
1615		1540
		1541	nr = min (nr, nrof);
		1542
		1543	nrof -= nr;
		1544
		1545	if (nrof)
		1546	{
		1547	adjust_weight (env, -weight * max (1, nr)); // carrying == 0
		1548
		1549	if (object *pl = visible_to ())
		1550	esrv_update_item (UPD_NROF, pl, this);
		1551
		1552	return true;
		1553	}
		1554	else
		1555	{
		1556	destroy ();
		1557	return false;
		1558	}
		1559	}
		1560
		1561	/*
		1562	* split(ob,nr) splits up ob into two parts. The part which
		1563	* is returned contains nr objects, and the remaining parts contains
		1564	* the rest (or is removed and returned if that number is 0).
		1565	* On failure, NULL is returned.
		1566	*/
1616	object *	1567	object *
1617	decrease_ob_nr (object *op, uint32 i)	1568	object::split (sint32 nr)
1618	{	1569	{
1619	object *tmp;	1570	int have = number_of ();
1620	player *pl;
1621		1571
1622	if (i == 0) /* objects with op->nrof require this check */	1572	if (have < nr)
1623	return op;	1573	return 0;
1624		1574	else if (have == nr)
1625	if (i > op->nrof)
1626	i = op->nrof;
1627
1628	if (QUERY_FLAG (op, FLAG_REMOVED))
1629	op->nrof -= i;
1630	else if (op->env != NULL)
1631	{	1575	{
1632	/* is this object in the players inventory, or sub container
1633	* therein?
1634	*/
1635	tmp = is_player_inv (op->env);
1636	/* nope. Is this a container the player has opened?
1637	* If so, set tmp to that player.
1638	* IMO, searching through all the players will mostly
1639	* likely be quicker than following op->env to the map,
1640	* and then searching the map for a player.
1641	*/
1642	if (!tmp)
1643	{
1644	for (pl = first_player; pl; pl = pl->next)
1645	if (pl->ob->container == op->env)
1646	break;
1647	if (pl)
1648	tmp = pl->ob;
1649	else
1650	tmp = NULL;
1651	}
1652
1653	if (i < op->nrof)
1654	{
1655	sub_weight (op->env, op->weight * i);
1656	op->nrof -= i;
1657	if (tmp)
1658	{
1659	esrv_send_item (tmp, op);
1660	}
1661	}
1662	else
1663	{
1664	remove_ob (op);	1576	remove ();
1665	op->nrof = 0;	1577	return this;
1666	if (tmp)
1667	{
1668	esrv_del_item (tmp->contr, op->count);
1669	}
1670	}
1671	}	1578	}
1672	else	1579	else
1673	{	1580	{
1674	object *above = op->above;	1581	decrease (nr);
1675		1582
1676	if (i < op->nrof)	1583	object *op = deep_clone ();
1677	op->nrof -= i;	1584	op->nrof = nr;
1678	else
1679	{
1680	remove_ob (op);
1681	op->nrof = 0;
1682	}
1683
1684	/* Since we just removed op, op->above is null */
1685	for (tmp = above; tmp != NULL; tmp = tmp->above)
1686	if (tmp->type == PLAYER)
1687	{
1688	if (op->nrof)
1689	esrv_send_item (tmp, op);
1690	else
1691	esrv_del_item (tmp->contr, op->count);
1692	}
1693	}
1694
1695	if (op->nrof)
1696	return op;	1585	return op;
1697	else
1698	{
1699	free_object (op);
1700	return NULL;
1701	}
1702	}
1703
1704	/*
1705	* add_weight(object, weight) adds the specified weight to an object,
1706	* and also updates how much the environment(s) is/are carrying.
1707	*/
1708
1709	void
1710	add_weight (object *op, signed long weight)
1711	{
1712	while (op != NULL)
1713	{
1714	if (op->type == CONTAINER)
1715	weight = (signed long) (weight * (100 - op->stats.Str) / 100);
1716
1717	op->carrying += weight;
1718	op = op->env;
1719	}	1586	}
1720	}	1587	}
1721		1588
1722	object *	1589	object *
1723	insert_ob_in_ob (object *op, object *where)	1590	insert_ob_in_ob (object *op, object *where)
…		…
1728	LOG (llevError, "Trying to put object in NULL.\n%s\n", dump);	1595	LOG (llevError, "Trying to put object in NULL.\n%s\n", dump);
1729	free (dump);	1596	free (dump);
1730	return op;	1597	return op;
1731	}	1598	}
1732		1599
1733	if (where->head)	1600	if (where->head_ () != where)
1734	{	1601	{
1735	LOG (llevDebug, "Warning: Tried to insert object into wrong part of multipart object.\n");	1602	LOG (llevError | logBacktrace, "Warning: Tried to insert object into wrong part of multipart object.\n");
1736	where = where->head;	1603	where = where->head;
1737	}	1604	}
1738		1605
1739	return where->insert (op);	1606	return where->insert (op);
1740	}	1607	}
…		…
1745	* inside the object environment.	1612	* inside the object environment.
1746	*	1613	*
1747	* The function returns now pointer to inserted item, and return value can	1614	* The function returns now pointer to inserted item, and return value can
1748	* be != op, if items are merged. -Tero	1615	* be != op, if items are merged. -Tero
1749	*/	1616	*/
1750
1751	object *	1617	object *
1752	object::insert (object *op)	1618	object::insert (object *op)
1753	{	1619	{
1754	object *tmp, *otmp;
1755
1756	if (!QUERY_FLAG (op, FLAG_REMOVED))
1757	op->remove ();
1758
1759	if (op->more)	1620	if (op->more)
1760	{	1621	{
1761	LOG (llevError, "Tried to insert multipart object %s (%d)\n", &op->name, op->count);	1622	LOG (llevError, "Tried to insert multipart object %s (%d)\n", &op->name, op->count);
1762	return op;	1623	return op;
1763	}	1624	}
1764		1625
1765	CLEAR_FLAG (op, FLAG_OBJ_ORIGINAL);	1626	op->remove ();
1766	CLEAR_FLAG (op, FLAG_REMOVED);	1627
		1628	op->flag [FLAG_OBJ_ORIGINAL] = 0;
		1629
1767	if (op->nrof)	1630	if (op->nrof)
1768	{
1769	for (tmp = inv; tmp != NULL; tmp = tmp->below)	1631	for (object *tmp = inv; tmp; tmp = tmp->below)
1770	if (CAN_MERGE (tmp, op))	1632	if (object::can_merge (tmp, op))
1771	{	1633	{
1772	/* return the original object and remove inserted object	1634	/* return the original object and remove inserted object
1773	(client needs the original object) */	1635	(client needs the original object) */
1774	tmp->nrof += op->nrof;	1636	tmp->nrof += op->nrof;
1775	/* Weight handling gets pretty funky. Since we are adding to	1637
1776	* tmp->nrof, we need to increase the weight.	1638	if (object *pl = tmp->visible_to ())
1777	*/	1639	esrv_update_item (UPD_NROF, pl, tmp);
		1640
1778	add_weight (this, op->weight * op->nrof);	1641	adjust_weight (this, op->total_weight ());
1779	SET_FLAG (op, FLAG_REMOVED);	1642
1780	op->destroy (); /* free the inserted object */	1643	op->destroy (1);
1781	op = tmp;	1644	op = tmp;
1782	op->remove (); /* and fix old object's links */	1645	goto inserted;
1783	CLEAR_FLAG (op, FLAG_REMOVED);
1784	break;
1785	}	1646	}
1786		1647
1787	/* I assume combined objects have no inventory	1648	op->owner = 0; // it's his/hers now. period.
1788	* We add the weight - this object could have just been removed
1789	* (if it was possible to merge). calling remove_ob will subtract
1790	* the weight, so we need to add it in again, since we actually do
1791	* the linking below
1792	*/
1793	add_weight (this, op->weight * op->nrof);
1794	}
1795	else
1796	add_weight (this, (op->weight + op->carrying));
1797
1798	otmp = is_player_inv (this);
1799	if (otmp && otmp->contr)
1800	if (!QUERY_FLAG (otmp, FLAG_NO_FIX_PLAYER))
1801	fix_player (otmp);
1802
1803	op->map = NULL;	1649	op->map = 0;
		1650	op->x = 0;
		1651	op->y = 0;
		1652
		1653	op->above = 0;
		1654	op->below = inv;
1804	op->env = this;	1655	op->env = this;
1805	op->above = NULL;
1806	op->below = NULL;
1807	op->x = 0, op->y = 0;
1808		1656
		1657	if (inv)
		1658	inv->above = op;
		1659
		1660	inv = op;
		1661
		1662	op->flag [FLAG_REMOVED] = 0;
		1663
		1664	if (object *pl = op->visible_to ())
		1665	esrv_send_item (pl, op);
		1666
		1667	adjust_weight (this, op->total_weight ());
		1668
		1669	inserted:
1809	/* reset the light list and los of the players on the map */	1670	/* reset the light list and los of the players on the map */
1810	if ((op->glow_radius != 0) && map)	1671	if (op->glow_radius && map && map->darkness)
1811	{
1812	#ifdef DEBUG_LIGHTS
1813	LOG (llevDebug, " insert_ob_in_ob(): got %s to insert in map/op\n", op->name);
1814	#endif /* DEBUG_LIGHTS */
1815	if (MAP_DARKNESS (map))
1816	update_all_los (map, x, y);	1672	update_all_los (map, x, y);
1817	}
1818		1673
1819	/* Client has no idea of ordering so lets not bother ordering it here.	1674	// if this is a player's inventory, update stats
1820	* It sure simplifies this function...	1675	if (type == PLAYER && !flag [FLAG_NO_FIX_PLAYER])
1821	*/	1676	update_stats ();
1822	if (!inv)	1677
1823	inv = op;	1678	INVOKE_OBJECT (INSERT, this);
1824	else
1825	{
1826	op->below = inv;
1827	op->below->above = op;
1828	inv = op;
1829	}
1830		1679
1831	return op;	1680	return op;
1832	}	1681	}
1833		1682
1834	/*	1683	/*
…		…
1849	*	1698	*
1850	* MSW 2001-07-08: Check all objects on space, not just those below	1699	* MSW 2001-07-08: Check all objects on space, not just those below
1851	* object being inserted. insert_ob_in_map may not put new objects	1700	* object being inserted. insert_ob_in_map may not put new objects
1852	* on top.	1701	* on top.
1853	*/	1702	*/
1854
1855	int	1703	int
1856	check_move_on (object *op, object *originator)	1704	check_move_on (object *op, object *originator)
1857	{	1705	{
1858	object *tmp;	1706	object *tmp;
1859	maptile *m = op->map;	1707	maptile *m = op->map;
…		…
1886		1734
1887	/* The objects have to be checked from top to bottom.	1735	/* The objects have to be checked from top to bottom.
1888	* Hence, we first go to the top:	1736	* Hence, we first go to the top:
1889	*/	1737	*/
1890		1738
1891	for (tmp = GET_MAP_OB (op->map, op->x, op->y); tmp != NULL && tmp->above != NULL; tmp = tmp->above)	1739	for (tmp = op->ms ().bot; tmp && tmp->above; tmp = tmp->above)
1892	{	1740	{
1893	/* Trim the search when we find the first other spell effect	1741	/* Trim the search when we find the first other spell effect
1894	* this helps performance so that if a space has 50 spell objects,	1742	* this helps performance so that if a space has 50 spell objects,
1895	* we don't need to check all of them.	1743	* we don't need to check all of them.
1896	*/	1744	*/
…		…
1914	if ((!op->move_type && tmp->move_slow & MOVE_WALK) ||	1762	if ((!op->move_type && tmp->move_slow & MOVE_WALK) ||
1915	((op->move_type & tmp->move_slow) && (op->move_type & ~tmp->move_slow & ~tmp->move_block) == 0))	1763	((op->move_type & tmp->move_slow) && (op->move_type & ~tmp->move_slow & ~tmp->move_block) == 0))
1916	{	1764	{
1917		1765
1918	float	1766	float
1919	diff = tmp->move_slow_penalty * FABS (op->speed);	1767	diff = tmp->move_slow_penalty * fabs (op->speed);
1920		1768
1921	if (op->type == PLAYER)	1769	if (op->type == PLAYER)
1922	if ((QUERY_FLAG (tmp, FLAG_IS_HILLY) && find_skill_by_number (op, SK_CLIMBING)) ||	1770	if ((QUERY_FLAG (tmp, FLAG_IS_HILLY) && find_skill_by_number (op, SK_CLIMBING)) ||
1923	(QUERY_FLAG (tmp, FLAG_IS_WOODED) && find_skill_by_number (op, SK_WOODSMAN)))	1771	(QUERY_FLAG (tmp, FLAG_IS_WOODED) && find_skill_by_number (op, SK_WOODSMAN)))
1924	diff /= 4.0;	1772	diff /= 4.0;
…		…
1951	/*	1799	/*
1952	* present_arch(arch, map, x, y) searches for any objects with	1800	* present_arch(arch, map, x, y) searches for any objects with
1953	* a matching archetype at the given map and coordinates.	1801	* a matching archetype at the given map and coordinates.
1954	* The first matching object is returned, or NULL if none.	1802	* The first matching object is returned, or NULL if none.
1955	*/	1803	*/
1956
1957	object *	1804	object *
1958	present_arch (const archetype *at, maptile *m, int x, int y)	1805	present_arch (const archetype *at, maptile *m, int x, int y)
1959	{	1806	{
1960	object *
1961	tmp;
1962
1963	if (m == NULL || out_of_map (m, x, y))	1807	if (!m || out_of_map (m, x, y))
1964	{	1808	{
1965	LOG (llevError, "Present_arch called outside map.\n");	1809	LOG (llevError, "Present_arch called outside map.\n");
1966	return NULL;	1810	return NULL;
1967	}	1811	}
1968	for (tmp = GET_MAP_OB (m, x, y); tmp != NULL; tmp = tmp->above)	1812
1969	if (tmp->arch == at)	1813	for (object *tmp = m->at (x, y).bot; tmp; tmp = tmp->above)
		1814	if (tmp->arch->archname == at->archname)
1970	return tmp;	1815	return tmp;
		1816
1971	return NULL;	1817	return NULL;
1972	}	1818	}
1973		1819
1974	/*	1820	/*
1975	* present(type, map, x, y) searches for any objects with	1821	* present(type, map, x, y) searches for any objects with
1976	* a matching type variable at the given map and coordinates.	1822	* a matching type variable at the given map and coordinates.
1977	* The first matching object is returned, or NULL if none.	1823	* The first matching object is returned, or NULL if none.
1978	*/	1824	*/
1979
1980	object *	1825	object *
1981	present (unsigned char type, maptile *m, int x, int y)	1826	present (unsigned char type, maptile *m, int x, int y)
1982	{	1827	{
1983	object *
1984	tmp;
1985
1986	if (out_of_map (m, x, y))	1828	if (out_of_map (m, x, y))
1987	{	1829	{
1988	LOG (llevError, "Present called outside map.\n");	1830	LOG (llevError, "Present called outside map.\n");
1989	return NULL;	1831	return NULL;
1990	}	1832	}
1991	for (tmp = GET_MAP_OB (m, x, y); tmp != NULL; tmp = tmp->above)	1833
		1834	for (object *tmp = m->at (x, y).bot; tmp; tmp = tmp->above)
1992	if (tmp->type == type)	1835	if (tmp->type == type)
1993	return tmp;	1836	return tmp;
		1837
1994	return NULL;	1838	return NULL;
1995	}	1839	}
1996		1840
1997	/*	1841	/*
1998	* present_in_ob(type, object) searches for any objects with	1842	* present_in_ob(type, object) searches for any objects with
1999	* a matching type variable in the inventory of the given object.	1843	* a matching type variable in the inventory of the given object.
2000	* The first matching object is returned, or NULL if none.	1844	* The first matching object is returned, or NULL if none.
2001	*/	1845	*/
2002
2003	object *	1846	object *
2004	present_in_ob (unsigned char type, const object *op)	1847	present_in_ob (unsigned char type, const object *op)
2005	{	1848	{
2006	object *
2007	tmp;
2008
2009	for (tmp = op->inv; tmp != NULL; tmp = tmp->below)	1849	for (object *tmp = op->inv; tmp != NULL; tmp = tmp->below)
2010	if (tmp->type == type)	1850	if (tmp->type == type)
2011	return tmp;	1851	return tmp;
		1852
2012	return NULL;	1853	return NULL;
2013	}	1854	}
2014		1855
2015	/*	1856	/*
2016	* present_in_ob (type, str, object) searches for any objects with	1857	* present_in_ob (type, str, object) searches for any objects with
…		…
2024	* str is the string to match against. Note that we match against	1865	* str is the string to match against. Note that we match against
2025	* the object name, not the archetype name. this is so that the	1866	* the object name, not the archetype name. this is so that the
2026	* spell code can use one object type (force), but change it's name	1867	* spell code can use one object type (force), but change it's name
2027	* to be unique.	1868	* to be unique.
2028	*/	1869	*/
2029
2030	object *	1870	object *
2031	present_in_ob_by_name (int type, const char *str, const object *op)	1871	present_in_ob_by_name (int type, const char *str, const object *op)
2032	{	1872	{
2033	object *
2034	tmp;
2035
2036	for (tmp = op->inv; tmp != NULL; tmp = tmp->below)	1873	for (object *tmp = op->inv; tmp; tmp = tmp->below)
2037	{
2038	if ((type == -1 || tmp->type == type) && (!strcmp (str, tmp->name)))	1874	if ((type == -1 || tmp->type == type) && (!strcmp (str, tmp->name)))
2039	return tmp;	1875	return tmp;
2040	}	1876
2041	return NULL;	1877	return 0;
2042	}	1878	}
2043		1879
2044	/*	1880	/*
2045	* present_arch_in_ob(archetype, object) searches for any objects with	1881	* present_arch_in_ob(archetype, object) searches for any objects with
2046	* a matching archetype in the inventory of the given object.	1882	* a matching archetype in the inventory of the given object.
2047	* The first matching object is returned, or NULL if none.	1883	* The first matching object is returned, or NULL if none.
2048	*/	1884	*/
2049
2050	object *	1885	object *
2051	present_arch_in_ob (const archetype *at, const object *op)	1886	present_arch_in_ob (const archetype *at, const object *op)
2052	{	1887	{
2053	object *
2054	tmp;
2055
2056	for (tmp = op->inv; tmp != NULL; tmp = tmp->below)	1888	for (object *tmp = op->inv; tmp; tmp = tmp->below)
2057	if (tmp->arch == at)	1889	if (tmp->arch->archname == at->archname)
2058	return tmp;	1890	return tmp;
		1891
2059	return NULL;	1892	return NULL;
2060	}	1893	}
2061		1894
2062	/*	1895	/*
2063	* activate recursively a flag on an object inventory	1896	* activate recursively a flag on an object inventory
2064	*/	1897	*/
2065	void	1898	void
2066	flag_inv (object *op, int flag)	1899	flag_inv (object *op, int flag)
2067	{	1900	{
2068	object *
2069	tmp;
2070
2071	if (op->inv)
2072	for (tmp = op->inv; tmp != NULL; tmp = tmp->below)	1901	for (object *tmp = op->inv; tmp; tmp = tmp->below)
2073	{	1902	{
2074	SET_FLAG (tmp, flag);	1903	SET_FLAG (tmp, flag);
2075	flag_inv (tmp, flag);	1904	flag_inv (tmp, flag);
2076	}	1905	}
2077	} /*	1906	}
		1907
		1908	/*
2078	* desactivate recursively a flag on an object inventory	1909	* deactivate recursively a flag on an object inventory
2079	*/	1910	*/
2080	void	1911	void
2081	unflag_inv (object *op, int flag)	1912	unflag_inv (object *op, int flag)
2082	{	1913	{
2083	object *
2084	tmp;
2085
2086	if (op->inv)
2087	for (tmp = op->inv; tmp != NULL; tmp = tmp->below)	1914	for (object *tmp = op->inv; tmp; tmp = tmp->below)
2088	{	1915	{
2089	CLEAR_FLAG (tmp, flag);	1916	CLEAR_FLAG (tmp, flag);
2090	unflag_inv (tmp, flag);	1917	unflag_inv (tmp, flag);
2091	}	1918	}
2092	}
2093
2094	/*
2095	* set_cheat(object) sets the cheat flag (WAS_WIZ) in the object and in
2096	* all it's inventory (recursively).
2097	* If checksums are used, a player will get set_cheat called for
2098	* him/her-self and all object carried by a call to this function.
2099	*/
2100
2101	void
2102	set_cheat (object *op)
2103	{
2104	SET_FLAG (op, FLAG_WAS_WIZ);
2105	flag_inv (op, FLAG_WAS_WIZ);
2106	}	1919	}
2107		1920
2108	/*	1921	/*
2109	* find_free_spot(object, map, x, y, start, stop) will search for	1922	* find_free_spot(object, map, x, y, start, stop) will search for
2110	* a spot at the given map and coordinates which will be able to contain	1923	* a spot at the given map and coordinates which will be able to contain
…		…
2112	* to search (see the freearr_x/y[] definition).	1925	* to search (see the freearr_x/y[] definition).
2113	* It returns a random choice among the alternatives found.	1926	* It returns a random choice among the alternatives found.
2114	* start and stop are where to start relative to the free_arr array (1,9	1927	* start and stop are where to start relative to the free_arr array (1,9
2115	* does all 4 immediate directions). This returns the index into the	1928	* does all 4 immediate directions). This returns the index into the
2116	* array of the free spot, -1 if no spot available (dir 0 = x,y)	1929	* array of the free spot, -1 if no spot available (dir 0 = x,y)
2117	* Note - this only checks to see if there is space for the head of the
2118	* object - if it is a multispace object, this should be called for all
2119	* pieces.
2120	* Note2: This function does correctly handle tiled maps, but does not	1930	* Note: This function does correctly handle tiled maps, but does not
2121	* inform the caller. However, insert_ob_in_map will update as	1931	* inform the caller. However, insert_ob_in_map will update as
2122	* necessary, so the caller shouldn't need to do any special work.	1932	* necessary, so the caller shouldn't need to do any special work.
2123	* Note - updated to take an object instead of archetype - this is necessary	1933	* Note - updated to take an object instead of archetype - this is necessary
2124	* because arch_blocked (now ob_blocked) needs to know the movement type	1934	* because arch_blocked (now ob_blocked) needs to know the movement type
2125	* to know if the space in question will block the object. We can't use	1935	* to know if the space in question will block the object. We can't use
2126	* the archetype because that isn't correct if the monster has been	1936	* the archetype because that isn't correct if the monster has been
2127	* customized, changed states, etc.	1937	* customized, changed states, etc.
2128	*/	1938	*/
2129
2130	int	1939	int
2131	find_free_spot (const object *ob, maptile *m, int x, int y, int start, int stop)	1940	find_free_spot (const object *ob, maptile *m, int x, int y, int start, int stop)
2132	{	1941	{
2133	int
2134	i,
2135	index = 0, flag;
2136	static int
2137	altern[SIZEOFFREE];	1942	int altern[SIZEOFFREE];
		1943	int index = 0, flag;
2138		1944
2139	for (i = start; i < stop; i++)	1945	for (int i = start; i < stop; i++)
2140	{	1946	{
2141	flag = ob_blocked (ob, m, x + freearr_x[i], y + freearr_y[i]);	1947	mapxy pos (m, x, y); pos.move (i);
2142	if (!flag)	1948
		1949	if (!pos.normalise ())
		1950	continue;
		1951
		1952	mapspace &ms = *pos;
		1953
		1954	if (ms.flags () & P_IS_ALIVE)
		1955	continue;
		1956
		1957	/* However, often
		1958	* ob doesn't have any move type (when used to place exits)
		1959	* so the AND operation in OB_TYPE_MOVE_BLOCK doesn't work.
		1960	*/
		1961	if (ob && ob->move_type == 0 && ms.move_block != MOVE_ALL)
		1962	{
2143	altern[index++] = i;	1963	altern [index++] = i;
		1964	continue;
		1965	}
2144		1966
2145	/* Basically, if we find a wall on a space, we cut down the search size.	1967	/* Basically, if we find a wall on a space, we cut down the search size.
2146	* In this way, we won't return spaces that are on another side of a wall.	1968	* In this way, we won't return spaces that are on another side of a wall.
2147	* This mostly work, but it cuts down the search size in all directions -	1969	* This mostly work, but it cuts down the search size in all directions -
2148	* if the space being examined only has a wall to the north and empty	1970	* if the space being examined only has a wall to the north and empty
2149	* spaces in all the other directions, this will reduce the search space	1971	* spaces in all the other directions, this will reduce the search space
2150	* to only the spaces immediately surrounding the target area, and	1972	* to only the spaces immediately surrounding the target area, and
2151	* won't look 2 spaces south of the target space.	1973	* won't look 2 spaces south of the target space.
2152	*/	1974	*/
2153	else if ((flag & AB_NO_PASS) && maxfree[i] < stop)	1975	if (ms.move_block == MOVE_ALL && maxfree[i] < stop)
		1976	{
2154	stop = maxfree[i];	1977	stop = maxfree[i];
		1978	continue;
		1979	}
		1980
		1981	/* Note it is intentional that we check ob - the movement type of the
		1982	* head of the object should correspond for the entire object.
		1983	*/
		1984	if (OB_TYPE_MOVE_BLOCK (ob, ms.move_block))
		1985	continue;
		1986
		1987	if (ob->blocked (m, pos.x, pos.y))
		1988	continue;
		1989
		1990	altern [index++] = i;
2155	}	1991	}
		1992
2156	if (!index)	1993	if (!index)
2157	return -1;	1994	return -1;
		1995
2158	return altern[RANDOM () % index];	1996	return altern [rndm (index)];
2159	}	1997	}
2160		1998
2161	/*	1999	/*
2162	* find_first_free_spot(archetype, maptile, x, y) works like	2000	* find_first_free_spot(archetype, maptile, x, y) works like
2163	* find_free_spot(), but it will search max number of squares.	2001	* find_free_spot(), but it will search max number of squares.
2164	* But it will return the first available spot, not a random choice.	2002	* But it will return the first available spot, not a random choice.
2165	* Changed 0.93.2: Have it return -1 if there is no free spot available.	2003	* Changed 0.93.2: Have it return -1 if there is no free spot available.
2166	*/	2004	*/
2167
2168	int	2005	int
2169	find_first_free_spot (const object *ob, maptile *m, int x, int y)	2006	find_first_free_spot (const object *ob, maptile *m, int x, int y)
2170	{	2007	{
2171	int
2172	i;
2173
2174	for (i = 0; i < SIZEOFFREE; i++)	2008	for (int i = 0; i < SIZEOFFREE; i++)
2175	{
2176	if (!ob_blocked (ob, m, x + freearr_x[i], y + freearr_y[i]))	2009	if (!ob->blocked (m, x + freearr_x[i], y + freearr_y[i]))
2177	return i;	2010	return i;
2178	}	2011
2179	return -1;	2012	return -1;
2180	}	2013	}
2181		2014
2182	/*	2015	/*
2183	* The function permute(arr, begin, end) randomly reorders the array	2016	* The function permute(arr, begin, end) randomly reorders the array
2184	* arr[begin..end-1].	2017	* arr[begin..end-1].
		2018	* now uses a fisher-yates shuffle, old permute was broken
2185	*/	2019	*/
2186	static void	2020	static void
2187	permute (int *arr, int begin, int end)	2021	permute (int *arr, int begin, int end)
2188	{	2022	{
2189	int	2023	arr += begin;
2190	i,
2191	j,
2192	tmp,
2193	len;
2194
2195	len = end - begin;	2024	end -= begin;
2196	for (i = begin; i < end; i++)
2197	{
2198	j = begin + RANDOM () % len;
2199		2025
2200	tmp = arr[i];	2026	while (--end)
2201	arr[i] = arr[j];	2027	swap (arr [end], arr [rndm (end + 1)]);
2202	arr[j] = tmp;
2203	}
2204	}	2028	}
2205		2029
2206	/* new function to make monster searching more efficient, and effective!	2030	/* new function to make monster searching more efficient, and effective!
2207	* This basically returns a randomized array (in the passed pointer) of	2031	* This basically returns a randomized array (in the passed pointer) of
2208	* the spaces to find monsters. In this way, it won't always look for	2032	* the spaces to find monsters. In this way, it won't always look for
…		…
2211	* the 3x3 area will be searched, just not in a predictable order.	2035	* the 3x3 area will be searched, just not in a predictable order.
2212	*/	2036	*/
2213	void	2037	void
2214	get_search_arr (int *search_arr)	2038	get_search_arr (int *search_arr)
2215	{	2039	{
2216	int	2040	int i;
2217	i;
2218		2041
2219	for (i = 0; i < SIZEOFFREE; i++)	2042	for (i = 0; i < SIZEOFFREE; i++)
2220	{
2221	search_arr[i] = i;	2043	search_arr[i] = i;
2222	}
2223		2044
2224	permute (search_arr, 1, SIZEOFFREE1 + 1);	2045	permute (search_arr, 1, SIZEOFFREE1 + 1);
2225	permute (search_arr, SIZEOFFREE1 + 1, SIZEOFFREE2 + 1);	2046	permute (search_arr, SIZEOFFREE1 + 1, SIZEOFFREE2 + 1);
2226	permute (search_arr, SIZEOFFREE2 + 1, SIZEOFFREE);	2047	permute (search_arr, SIZEOFFREE2 + 1, SIZEOFFREE);
2227	}	2048	}
…		…
2236	* Perhaps incorrectly, but I'm making the assumption that exclude	2057	* Perhaps incorrectly, but I'm making the assumption that exclude
2237	* is actually want is going to try and move there. We need this info	2058	* is actually want is going to try and move there. We need this info
2238	* because we have to know what movement the thing looking to move	2059	* because we have to know what movement the thing looking to move
2239	* there is capable of.	2060	* there is capable of.
2240	*/	2061	*/
2241
2242	int	2062	int
2243	find_dir (maptile *m, int x, int y, object *exclude)	2063	find_dir (maptile *m, int x, int y, object *exclude)
2244	{	2064	{
2245	int
2246	i,
2247	max = SIZEOFFREE, mflags;	2065	int i, max = SIZEOFFREE, mflags;
2248		2066
2249	sint16 nx, ny;	2067	sint16 nx, ny;
2250	object *	2068	object *tmp;
2251	tmp;
2252	maptile *	2069	maptile *mp;
2253	mp;
2254		2070
2255	MoveType blocked, move_type;	2071	MoveType blocked, move_type;
2256		2072
2257	if (exclude && exclude->head)	2073	if (exclude && exclude->head_ () != exclude)
2258	{	2074	{
2259	exclude = exclude->head;	2075	exclude = exclude->head;
2260	move_type = exclude->move_type;	2076	move_type = exclude->move_type;
2261	}	2077	}
2262	else	2078	else
…		…
2270	mp = m;	2086	mp = m;
2271	nx = x + freearr_x[i];	2087	nx = x + freearr_x[i];
2272	ny = y + freearr_y[i];	2088	ny = y + freearr_y[i];
2273		2089
2274	mflags = get_map_flags (m, &mp, nx, ny, &nx, &ny);	2090	mflags = get_map_flags (m, &mp, nx, ny, &nx, &ny);
		2091
2275	if (mflags & P_OUT_OF_MAP)	2092	if (mflags & P_OUT_OF_MAP)
2276	{
2277	max = maxfree[i];	2093	max = maxfree[i];
2278	}
2279	else	2094	else
2280	{	2095	{
2281	blocked = GET_MAP_MOVE_BLOCK (mp, nx, ny);	2096	mapspace &ms = mp->at (nx, ny);
		2097
		2098	blocked = ms.move_block;
2282		2099
2283	if ((move_type & blocked) == move_type)	2100	if ((move_type & blocked) == move_type)
2284	{
2285	max = maxfree[i];	2101	max = maxfree[i];
2286	}
2287	else if (mflags & P_IS_ALIVE)	2102	else if (mflags & P_IS_ALIVE)
2288	{	2103	{
2289	for (tmp = GET_MAP_OB (mp, nx, ny); tmp != NULL; tmp = tmp->above)	2104	for (tmp = ms.bot; tmp; tmp = tmp->above)
2290	{	2105	if ((tmp->flag [FLAG_MONSTER] || tmp->type == PLAYER)
2291	if ((QUERY_FLAG (tmp, FLAG_MONSTER) || tmp->type == PLAYER) && (tmp != exclude || (tmp->head && tmp->head != exclude)))	2106	&& (tmp != exclude || (tmp->head_ () != tmp && tmp->head_ () != exclude)))
2292	{
2293	break;	2107	break;
2294	}	2108
2295	}
2296	if (tmp)	2109	if (tmp)
2297	{
2298	return freedir[i];	2110	return freedir[i];
2299	}
2300	}	2111	}
2301	}	2112	}
2302	}	2113	}
		2114
2303	return 0;	2115	return 0;
2304	}	2116	}
2305		2117
2306	/*	2118	/*
2307	* distance(object 1, object 2) will return the square of the	2119	* distance(object 1, object 2) will return the square of the
2308	* distance between the two given objects.	2120	* distance between the two given objects.
2309	*/	2121	*/
2310
2311	int	2122	int
2312	distance (const object *ob1, const object *ob2)	2123	distance (const object *ob1, const object *ob2)
2313	{	2124	{
2314	int
2315	i;
2316
2317	i = (ob1->x - ob2->x) * (ob1->x - ob2->x) + (ob1->y - ob2->y) * (ob1->y - ob2->y);	2125	return (ob1->x - ob2->x) * (ob1->x - ob2->x) + (ob1->y - ob2->y) * (ob1->y - ob2->y);
2318	return i;
2319	}	2126	}
2320		2127
2321	/*	2128	/*
2322	* find_dir_2(delta-x,delta-y) will return a direction in which	2129	* find_dir_2(delta-x,delta-y) will return a direction in which
2323	* an object which has subtracted the x and y coordinates of another	2130	* an object which has subtracted the x and y coordinates of another
2324	* object, needs to travel toward it.	2131	* object, needs to travel toward it.
2325	*/	2132	*/
2326
2327	int	2133	int
2328	find_dir_2 (int x, int y)	2134	find_dir_2 (int x, int y)
2329	{	2135	{
2330	int	2136	int q;
2331	q;
2332		2137
2333	if (y)	2138	if (y)
2334	q = x * 100 / y;	2139	q = x * 100 / y;
2335	else if (x)	2140	else if (x)
2336	q = -300 * x;	2141	q = -300 * x;
…		…
2361		2166
2362	return 3;	2167	return 3;
2363	}	2168	}
2364		2169
2365	/*	2170	/*
2366	* absdir(int): Returns a number between 1 and 8, which represent
2367	* the "absolute" direction of a number (it actually takes care of
2368	* "overflow" in previous calculations of a direction).
2369	*/
2370
2371	int
2372	absdir (int d)
2373	{
2374	while (d < 1)
2375	d += 8;
2376	while (d > 8)
2377	d -= 8;
2378	return d;
2379	}
2380
2381	/*
2382	* dirdiff(dir1, dir2) returns how many 45-degrees differences there is	2171	* dirdiff(dir1, dir2) returns how many 45-degrees differences there is
2383	* between two directions (which are expected to be absolute (see absdir())	2172	* between two directions (which are expected to be absolute (see absdir())
2384	*/	2173	*/
2385
2386	int	2174	int
2387	dirdiff (int dir1, int dir2)	2175	dirdiff (int dir1, int dir2)
2388	{	2176	{
2389	int	2177	int d;
2390	d;
2391		2178
2392	d = abs (dir1 - dir2);	2179	d = abs (dir1 - dir2);
2393	if (d > 4)	2180	if (d > 4)
2394	d = 8 - d;	2181	d = 8 - d;
		2182
2395	return d;	2183	return d;
2396	}	2184	}
2397		2185
2398	/* peterm:	2186	/* peterm:
2399	* do LOS stuff for ball lightning. Go after the closest VISIBLE monster.	2187	* do LOS stuff for ball lightning. Go after the closest VISIBLE monster.
…		…
2402	* This basically means that if direction is 15, then it could either go	2190	* This basically means that if direction is 15, then it could either go
2403	* direction 4, 14, or 16 to get back to where we are.	2191	* direction 4, 14, or 16 to get back to where we are.
2404	* Moved from spell_util.c to object.c with the other related direction	2192	* Moved from spell_util.c to object.c with the other related direction
2405	* functions.	2193	* functions.
2406	*/	2194	*/
2407
2408	int
2409	reduction_dir[SIZEOFFREE][3] = {	2195	int reduction_dir[SIZEOFFREE][3] = {
2410	{0, 0, 0}, /* 0 */	2196	{0, 0, 0}, /* 0 */
2411	{0, 0, 0}, /* 1 */	2197	{0, 0, 0}, /* 1 */
2412	{0, 0, 0}, /* 2 */	2198	{0, 0, 0}, /* 2 */
2413	{0, 0, 0}, /* 3 */	2199	{0, 0, 0}, /* 3 */
2414	{0, 0, 0}, /* 4 */	2200	{0, 0, 0}, /* 4 */
…		…
2462	* find a path to that monster that we found. If not,	2248	* find a path to that monster that we found. If not,
2463	* we don't bother going toward it. Returns 1 if we	2249	* we don't bother going toward it. Returns 1 if we
2464	* can see a direct way to get it	2250	* can see a direct way to get it
2465	* Modified to be map tile aware -.MSW	2251	* Modified to be map tile aware -.MSW
2466	*/	2252	*/
2467
2468
2469	int	2253	int
2470	can_see_monsterP (maptile *m, int x, int y, int dir)	2254	can_see_monsterP (maptile *m, int x, int y, int dir)
2471	{	2255	{
2472	sint16 dx, dy;	2256	sint16 dx, dy;
2473	int
2474	mflags;	2257	int mflags;
2475		2258
2476	if (dir < 0)	2259	if (dir < 0)
2477	return 0; /* exit condition: invalid direction */	2260	return 0; /* exit condition: invalid direction */
2478		2261
2479	dx = x + freearr_x[dir];	2262	dx = x + freearr_x[dir];
…		…
2492	return 0;	2275	return 0;
2493		2276
2494	/* yes, can see. */	2277	/* yes, can see. */
2495	if (dir < 9)	2278	if (dir < 9)
2496	return 1;	2279	return 1;
		2280
2497	return can_see_monsterP (m, x, y, reduction_dir[dir][0]) |	2281	return can_see_monsterP (m, x, y, reduction_dir[dir][0])
2498	can_see_monsterP (m, x, y, reduction_dir[dir][1]) | can_see_monsterP (m, x, y, reduction_dir[dir][2]);	2282	| can_see_monsterP (m, x, y, reduction_dir[dir][1])
		2283	| can_see_monsterP (m, x, y, reduction_dir[dir][2]);
2499	}	2284	}
2500
2501
2502		2285
2503	/*	2286	/*
2504	* can_pick(picker, item): finds out if an object is possible to be	2287	* can_pick(picker, item): finds out if an object is possible to be
2505	* picked up by the picker. Returnes 1 if it can be	2288	* picked up by the picker. Returnes 1 if it can be
2506	* picked up, otherwise 0.	2289	* picked up, otherwise 0.
…		…
2508	* Cf 0.91.3 - don't let WIZ's pick up anything - will likely cause	2291	* Cf 0.91.3 - don't let WIZ's pick up anything - will likely cause
2509	* core dumps if they do.	2292	* core dumps if they do.
2510	*	2293	*
2511	* Add a check so we can't pick up invisible objects (0.93.8)	2294	* Add a check so we can't pick up invisible objects (0.93.8)
2512	*/	2295	*/
2513
2514	int	2296	int
2515	can_pick (const object *who, const object *item)	2297	can_pick (const object *who, const object *item)
2516	{	2298	{
2517	return /*QUERY_FLAG(who,FLAG_WIZ)|| */	2299	return /*QUERY_FLAG(who,FLAG_WIZ)|| */
2518	(item->weight > 0 && !QUERY_FLAG (item, FLAG_NO_PICK) &&	2300	(item->weight > 0 && !QUERY_FLAG (item, FLAG_NO_PICK) &&
2519	!QUERY_FLAG (item, FLAG_ALIVE) && !item->invisible && (who->type == PLAYER || item->weight < who->weight / 3));	2301	!QUERY_FLAG (item, FLAG_ALIVE) && !item->invisible && (who->type == PLAYER || item->weight < who->weight / 3));
2520	}	2302	}
2521		2303
2522
2523	/*	2304	/*
2524	* create clone from object to another	2305	* create clone from object to another
2525	*/	2306	*/
2526	object *	2307	object *
2527	object_create_clone (object *asrc)	2308	object::deep_clone ()
2528	{	2309	{
2529	object *	2310	assert (("deep_clone called on non-head object", is_head ()));
2530	dst = NULL, *tmp, *src, *part, *prev, *item;
2531		2311
2532	if (!asrc)	2312	object *dst = clone ();
2533	return NULL;
2534	src = asrc;
2535	if (src->head)
2536	src = src->head;
2537		2313
2538	prev = NULL;	2314	object *prev = dst;
2539	for (part = src; part; part = part->more)	2315	for (object *part = this->more; part; part = part->more)
2540	{	2316	{
2541	tmp = get_object ();	2317	object *tmp = part->clone ();
2542	copy_object (part, tmp);
2543	tmp->x -= src->x;
2544	tmp->y -= src->y;
2545	if (!part->head)
2546	{
2547	dst = tmp;
2548	tmp->head = NULL;
2549	}
2550	else
2551	{
2552	tmp->head = dst;	2318	tmp->head = dst;
2553	}
2554	tmp->more = NULL;
2555	if (prev)
2556	prev->more = tmp;	2319	prev->more = tmp;
2557	prev = tmp;	2320	prev = tmp;
2558	}	2321	}
2559		2322
2560	for (item = src->inv; item; item = item->below)	2323	for (object *item = inv; item; item = item->below)
2561	insert_ob_in_ob (object_create_clone (item), dst);	2324	insert_ob_in_ob (item->deep_clone (), dst);
2562		2325
2563	return dst;	2326	return dst;
2564	}
2565
2566	/* GROS - Creates an object using a string representing its content. */
2567	/* Basically, we save the content of the string to a temp file, then call */
2568	/* load_object on it. I admit it is a highly inefficient way to make things, */
2569	/* but it was simple to make and allows reusing the load_object function. */
2570	/* Remember not to use load_object_str in a time-critical situation. */
2571	/* Also remember that multiparts objects are not supported for now. */
2572
2573	object *
2574	load_object_str (const char *obstr)
2575	{
2576	object *op;
2577	char filename[MAX_BUF];
2578
2579	sprintf (filename, "%s/cfloadobstr2044", settings.tmpdir);
2580
2581	FILE *tempfile = fopen (filename, "w");
2582
2583	if (tempfile == NULL)
2584	{
2585	LOG (llevError, "Error - Unable to access load object temp file\n");
2586	return NULL;
2587	}
2588
2589	fprintf (tempfile, obstr);
2590	fclose (tempfile);
2591
2592	op = get_object ();
2593
2594	object_thawer thawer (filename);
2595
2596	if (thawer)
2597	load_object (thawer, op, 0);
2598
2599	LOG (llevDebug, " load str completed, object=%s\n", &op->name);
2600	CLEAR_FLAG (op, FLAG_REMOVED);
2601
2602	return op;
2603	}	2327	}
2604		2328
2605	/* This returns the first object in who's inventory that	2329	/* This returns the first object in who's inventory that
2606	* has the same type and subtype match.	2330	* has the same type and subtype match.
2607	* returns NULL if no match.	2331	* returns NULL if no match.
2608	*/	2332	*/
2609	object *	2333	object *
2610	find_obj_by_type_subtype (const object *who, int type, int subtype)	2334	find_obj_by_type_subtype (const object *who, int type, int subtype)
2611	{	2335	{
2612	object *tmp;
2613
2614	for (tmp = who->inv; tmp; tmp = tmp->below)	2336	for (object *tmp = who->inv; tmp; tmp = tmp->below)
2615	if (tmp->type == type && tmp->subtype == subtype)	2337	if (tmp->type == type && tmp->subtype == subtype)
2616	return tmp;	2338	return tmp;
2617		2339
2618	return NULL;
2619	}
2620
2621	/* If ob has a field named key, return the link from the list,
2622	* otherwise return NULL.
2623	*
2624	* key must be a passed in shared string - otherwise, this won't
2625	* do the desired thing.
2626	*/
2627	key_value *
2628	get_ob_key_link (const object *ob, const char *key)
2629	{
2630	key_value *link;
2631
2632	for (link = ob->key_values; link != NULL; link = link->next)
2633	if (link->key == key)
2634	return link;
2635
2636	return NULL;
2637	}
2638
2639	/*
2640	* Returns the value of op has an extra_field for key, or NULL.
2641	*
2642	* The argument doesn't need to be a shared string.
2643	*
2644	* The returned string is shared.
2645	*/
2646	const char *
2647	get_ob_key_value (const object *op, const char *const key)
2648	{
2649	key_value *link;
2650	shstr_cmp canonical_key (key);
2651
2652	if (!canonical_key)
2653	{
2654	/* 1. There being a field named key on any object
2655	* implies there'd be a shared string to find.
2656	* 2. Since there isn't, no object has this field.
2657	* 3. Therefore, *this* object doesn't have this field.
2658	*/
2659	return 0;
2660	}
2661
2662	/* This is copied from get_ob_key_link() above -
2663	* only 4 lines, and saves the function call overhead.
2664	*/
2665	for (link = op->key_values; link; link = link->next)
2666	if (link->key == canonical_key)
2667	return link->value;
2668
2669	return 0;	2340	return 0;
2670	}	2341	}
2671		2342
2672		2343	const shstr &
2673	/*	2344	object::kv_get (const shstr &key) const
2674	* Updates the canonical_key in op to value.
2675	*
2676	* canonical_key is a shared string (value doesn't have to be).
2677	*
2678	* Unless add_key is TRUE, it won't add fields, only change the value of existing
2679	* keys.
2680	*
2681	* Returns TRUE on success.
2682	*/
2683	int
2684	set_ob_key_value_s (object *op, const shstr & canonical_key, const char *value, int add_key)
2685	{	2345	{
2686	key_value *	2346	for (key_value *kv = key_values; kv; kv = kv->next)
2687	field = NULL, *last = NULL;	2347	if (kv->key == key)
		2348	return kv->value;
2688		2349
2689	for (field = op->key_values; field != NULL; field = field->next)	2350	return shstr_null;
2690	{	2351	}
2691	if (field->key != canonical_key)	2352
		2353	void
		2354	object::kv_set (const shstr &key, const shstr &value)
		2355	{
		2356	for (key_value *kv = key_values; kv; kv = kv->next)
		2357	if (kv->key == key)
2692	{	2358	{
2693	last = field;	2359	kv->value = value;
2694	continue;	2360	return;
2695	}	2361	}
2696		2362
2697	if (value)	2363	key_value *kv = new key_value;
2698	field->value = value;	2364
2699	else	2365	kv->next = key_values;
		2366	kv->key = key;
		2367	kv->value = value;
		2368
		2369	key_values = kv;
		2370	}
		2371
		2372	void
		2373	object::kv_del (const shstr &key)
		2374	{
		2375	for (key_value **kvp = &key_values; *kvp; kvp = &(*kvp)->next)
		2376	if ((*kvp)->key == key)
2700	{	2377	{
2701	/* Basically, if the archetype has this key set,	2378	key_value *kv = *kvp;
2702	* we need to store the null value so when we save	2379	*kvp = (*kvp)->next;
2703	* it, we save the empty value so that when we load,	2380	delete kv;
2704	* we get this value back again.	2381	return;
2705	*/
2706	if (get_ob_key_link (&op->arch->clone, canonical_key))
2707	field->value = 0;
2708	else
2709	{
2710	if (last)
2711	last->next = field->next;
2712	else
2713	op->key_values = field->next;
2714
2715	delete field;
2716	}
2717	}	2382	}
2718	return TRUE;
2719	}
2720	/* IF we get here, key doesn't exist */
2721
2722	/* No field, we'll have to add it. */
2723
2724	if (!add_key)
2725	{
2726	return FALSE;
2727	}
2728	/* There isn't any good reason to store a null
2729	* value in the key/value list. If the archetype has
2730	* this key, then we should also have it, so shouldn't
2731	* be here. If user wants to store empty strings,
2732	* should pass in ""
2733	*/
2734	if (value == NULL)
2735	return TRUE;
2736
2737	field = new key_value;
2738
2739	field->key = canonical_key;
2740	field->value = value;
2741	/* Usual prepend-addition. */
2742	field->next = op->key_values;
2743	op->key_values = field;
2744
2745	return TRUE;
2746	}
2747
2748	/*
2749	* Updates the key in op to value.
2750	*
2751	* If add_key is FALSE, this will only update existing keys,
2752	* and not add new ones.
2753	* In general, should be little reason FALSE is ever passed in for add_key
2754	*
2755	* Returns TRUE on success.
2756	*/
2757	int
2758	set_ob_key_value (object *op, const char *key, const char *value, int add_key)
2759	{
2760	shstr key_ (key);
2761
2762	return set_ob_key_value_s (op, key_, value, add_key);
2763	}	2383	}
2764		2384
2765	object::depth_iterator::depth_iterator (object *container)	2385	object::depth_iterator::depth_iterator (object *container)
2766	: iterator_base (container)	2386	: iterator_base (container)
2767	{	2387	{
…		…
2781	}	2401	}
2782	else	2402	else
2783	item = item->env;	2403	item = item->env;
2784	}	2404	}
2785		2405
		2406	const char *
		2407	object::flag_desc (char *desc, int len) const
		2408	{
		2409	char *p = desc;
		2410	bool first = true;
		2411
		2412	*p = 0;
		2413
		2414	for (int i = 0; i < NUM_FLAGS; i++)
		2415	{
		2416	if (len <= 10) // magic constant!
		2417	{
		2418	snprintf (p, len, ",...");
		2419	break;
		2420	}
		2421
		2422	if (flag [i])
		2423	{
		2424	int cnt = snprintf (p, len, "%s%d", first ? "" : ",", i);
		2425	len -= cnt;
		2426	p += cnt;
		2427	first = false;
		2428	}
		2429	}
		2430
		2431	return desc;
		2432	}
		2433
2786	// return a suitable string describing an objetc in enough detail to find it	2434	// return a suitable string describing an object in enough detail to find it
2787	const char *	2435	const char *
2788	object::debug_desc (char *info) const	2436	object::debug_desc (char *info) const
2789	{	2437	{
		2438	char flagdesc[512];
2790	char info2[256 * 3];	2439	char info2[256 * 4];
2791	char *p = info;	2440	char *p = info;
2792		2441
2793	p += snprintf (p, 256, "%d=\"%s%s%s\"",	2442	p += snprintf (p, 512, "{cnt:%d,uuid:%s,name:\"%s\"%s%s%s,flags:[%s],type:%d}",
2794	count,	2443	count,
		2444	uuid.c_str (),
2795	&name,	2445	&name,
2796	title ? " " : "",	2446	title ? ",title:\"" : "",
2797	title ? (const char *)title : "");	2447	title ? (const char *)title : "",
		2448	title ? "\"" : "",
		2449	flag_desc (flagdesc, 512), type);
2798		2450
2799	if (env)	2451	if (!flag[FLAG_REMOVED] && env)
2800	p += snprintf (p, 256, "(in %s)", env->debug_desc (info2));	2452	p += snprintf (p, 256, "(in %s)", env->debug_desc (info2));
2801		2453
2802	if (map)	2454	if (map)
2803	p += snprintf (p, 256, "(on %s@%d+%d)", map->path, x, y);	2455	p += snprintf (p, 256, "(on %s@%d+%d)", &map->path, x, y);
2804		2456
2805	return info;	2457	return info;
2806	}	2458	}
2807		2459
2808	const char *	2460	const char *
2809	object::debug_desc () const	2461	object::debug_desc () const
2810	{	2462	{
2811	static char info[256 * 3];	2463	static char info[3][256 * 4];
		2464	static int info_idx;
		2465
2812	return debug_desc (info);	2466	return debug_desc (info [++info_idx % 3]);
2813	}	2467	}
2814		2468
		2469	struct region *
		2470	object::region () const
		2471	{
		2472	return map ? map->region (x, y)
		2473	: region::default_region ();
		2474	}
		2475
		2476	const materialtype_t *
		2477	object::dominant_material () const
		2478	{
		2479	if (materialtype_t *mt = name_to_material (materialname))
		2480	return mt;
		2481
		2482	return name_to_material (shstr_unknown);
		2483	}
		2484
		2485	void
		2486	object::open_container (object *new_container)
		2487	{
		2488	if (container == new_container)
		2489	return;
		2490
		2491	object *old_container = container;
		2492
		2493	if (old_container)
		2494	{
		2495	if (INVOKE_OBJECT (CLOSE, old_container, ARG_OBJECT (this)))
		2496	return;
		2497
		2498	#if 0
		2499	// remove the "Close old_container" object.
		2500	if (object *closer = old_container->inv)
		2501	if (closer->type == CLOSE_CON)
		2502	closer->destroy ();
		2503	#endif
		2504
		2505	// make sure the container is available
		2506	esrv_send_item (this, old_container);
		2507
		2508	old_container->flag [FLAG_APPLIED] = false;
		2509	container = 0;
		2510
		2511	// client needs item update to make it work, client bug requires this to be separate
		2512	esrv_update_item (UPD_FLAGS, this, old_container);
		2513
		2514	new_draw_info_format (NDI_UNIQUE, 0, this, "You close %s.", query_name (old_container));
		2515	play_sound (sound_find ("chest_close"));
		2516	}
		2517
		2518	if (new_container)
		2519	{
		2520	if (INVOKE_OBJECT (OPEN, new_container, ARG_OBJECT (this)))
		2521	return;
		2522
		2523	// TODO: this does not seem to serve any purpose anymore?
		2524	#if 0
		2525	// insert the "Close Container" object.
		2526	if (archetype *closer = new_container->other_arch)
		2527	{
		2528	object *closer = arch_to_object (new_container->other_arch);
		2529	closer->flag [FLAG_NO_MAP_SAVE] = 1;
		2530	new_container->insert (closer);
		2531	}
		2532	#endif
		2533
		2534	new_draw_info_format (NDI_UNIQUE, 0, this, "You open %s.", query_name (new_container));
		2535
		2536	// make sure the container is available, client bug requires this to be separate
		2537	esrv_send_item (this, new_container);
		2538
		2539	new_container->flag [FLAG_APPLIED] = true;
		2540	container = new_container;
		2541
		2542	// client needs flag change
		2543	esrv_update_item (UPD_FLAGS, this, new_container);
		2544	esrv_send_inventory (this, new_container);
		2545	play_sound (sound_find ("chest_open"));
		2546	}
		2547	// else if (!old_container->env && contr && contr->ns)
		2548	// contr->ns->floorbox_reset ();
		2549	}
		2550
		2551	object *
		2552	object::force_find (const shstr name)
		2553	{
		2554	/* cycle through his inventory to look for the MARK we want to
		2555	* place
		2556	*/
		2557	for (object *tmp = inv; tmp; tmp = tmp->below)
		2558	if (tmp->type == FORCE && tmp->slaying == name)
		2559	return splay (tmp);
		2560
		2561	return 0;
		2562	}
		2563
		2564	void
		2565	object::force_add (const shstr name, int duration)
		2566	{
		2567	if (object *force = force_find (name))
		2568	force->destroy ();
		2569
		2570	object *force = get_archetype (FORCE_NAME);
		2571
		2572	force->slaying = name;
		2573	force->stats.food = 1;
		2574	force->speed_left = -1.f;
		2575
		2576	force->set_speed (duration ? 1.f / duration : 0.f);
		2577	force->flag [FLAG_IS_USED_UP] = true;
		2578	force->flag [FLAG_APPLIED] = true;
		2579
		2580	insert (force);
		2581	}
		2582
		2583	void
		2584	object::play_sound (faceidx sound)
		2585	{
		2586	if (!sound)
		2587	return;
		2588
		2589	if (flag [FLAG_REMOVED])
		2590	return;
		2591
		2592	if (env)
		2593	{
		2594	if (object *pl = in_player ())
		2595	pl->contr->play_sound (sound);
		2596	}
		2597	else
		2598	map->play_sound (sound, x, y);
		2599	}
		2600

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