[ViewVC] Diff of: cvs/deliantra/server/common/item.C

Comparing deliantra/server/common/item.C (file contents):
Revision 1.44 by root, Sun Apr 13 21:22:47 2008 UTC vs.
Revision 1.100 by root, Sat Nov 17 23:40:00 2018 UTC

…		…
1	/*	1	/*
2	* This file is part of Deliantra, the Roguelike Realtime MMORPG.	2	* This file is part of Deliantra, the Roguelike Realtime MMORPG.
3	*	3	*
4	* Copyright (©) 2005,2006,2007 Marc Alexander Lehmann / Robin Redeker / the Deliantra team	4	* Copyright (©) 2017,2018 Marc Alexander Lehmann / the Deliantra team
		5	* Copyright (©) 2005,2006,2007,2008,2009,2010,2011,2012,2013,2014,2015,2016 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
5	* Copyright (©) 2002,2007 Mark Wedel & Crossfire Development Team	6	* Copyright (©) 2002 Mark Wedel & Crossfire Development Team
6	* Copyright (©) 1992,2007 Frank Tore Johansen	7	* Copyright (©) 1992 Frank Tore Johansen
7	*	8	*
8	* Deliantra is free software: you can redistribute it and/or modify	9	* Deliantra is free software: you can redistribute it and/or modify it under
9	* it under the terms of the GNU General Public License as published by	10	* the terms of the Affero GNU General Public License as published by the
10	* the Free Software Foundation, either version 3 of the License, or	11	* Free Software Foundation, either version 3 of the License, or (at your
11	* (at your option) any later version.	12	* option) any later version.
12	*	13	*
13	* This program is distributed in the hope that it will be useful,	14	* This program is distributed in the hope that it will be useful,
14	* but WITHOUT ANY WARRANTY; without even the implied warranty of	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16	* GNU General Public License for more details.	17	* GNU General Public License for more details.
17	*	18	*
18	* You should have received a copy of the GNU General Public License	19	* You should have received a copy of the Affero GNU General Public License
19	* along with this program. If not, see <http://www.gnu.org/licenses/>.	20	* and the GNU General Public License along with this program. If not, see
		21	* <http://www.gnu.org/licenses/>.
20	*	22	*
21	* The authors can be reached via e-mail to <support@deliantra.net>	23	* The authors can be reached via e-mail to <support@deliantra.net>
22	*/	24	*/
23		25
24	#include <global.h>	26	#include <global.h>
25	#include <funcpoint.h>
26	#include <living.h>	27	#include <living.h>
27	#include <spells.h>	28	#include <spells.h>
28		29
29	const char *const coins[NUM_COINS + 1] = { "royalty", "platinacoin", "goldcoin", "silvercoin", 0 };	30	const char *const coins[NUM_COINS + 1] = { "royalty", "platinacoin", "goldcoin", "silvercoin", 0 };
30		31
47	* Note that using the term 'human' may not be very accurate, humanoid	48	* Note that using the term 'human' may not be very accurate, humanoid
48	* may be better.	49	* may be better.
49	* Basically, for the use/nonuse, the code does something like:	50	* Basically, for the use/nonuse, the code does something like:
50	* "This item goes %s\n", with the use/nonuse values filling in the %s	51	* "This item goes %s\n", with the use/nonuse values filling in the %s
51	*/	52	*/
		53	// see include/object.h
52	Body_Locations body_locations[NUM_BODY_LOCATIONS] = {	54	Body_Locations body_locations[NUM_BODY_LOCATIONS] = {
53	{KW_body_skill , "You can use it as your skill" , "It is used as a skill"},	55	# define def(name, use, nonuse) { # name, KW_body_ ## name, use, nonuse },
54	{KW_body_combat , "You can wield it as your weapon" , "It is used as a combat weapon"},	56	# include "slotinc.h"
55	{KW_body_range , "You can use it as your range weapon" , "It is used as a range weapon"},	57	# undef def
56	{KW_body_shield , "You can wield it as a shield" , "It is used as a shield"},
57	{KW_body_arm , "You can put it on your arm" , "It goes on a human's arm"},
58	{KW_body_torso , "You can wear it on your body" , "It goes on a human's torso"},
59	{KW_body_head , "You can wear it on your head" , "It goes on a human's head"},
60	{KW_body_neck , "You can wear it around your neck" , "It goes around a human's neck"},
61	{KW_body_finger , "You can wear it on your finger" , "It goes on a human's finger"} ,
62	{KW_body_shoulder, "You can wear it around your shoulders", "It goes around a human's shoulders"},
63	{KW_body_foot , "You can put it on your foot" , "It goes on a human's foot"},
64	{KW_body_hand , "You can put it on your hand" , "It goes on a human's hand"},
65	{KW_body_wrist , "You can wear it around your wrist" , "It goes around a human's wrist"},
66	{KW_body_waist , "You can wear it around your waist" , "It goes around a human's waist"},
67	/{"body_dragon_torso", "your body", "a dragon's body"} /
68	};
69
70	static char numbers[21][20] = {
71	"no", "", "two", "three", "four", "five", "six", "seven", "eight", "nine", "ten",
72	"eleven", "twelve", "thirteen", "fourteen", "fifteen", "sixteen", "seventeen",
73	"eighteen", "nineteen", "twenty"
74	};	58	};
75		59
76	static char numbers_10[10][20] = {	60	static char numbers_10[10][20] = {
77	"zero", "ten", "twenty", "thirty", "fourty", "fifty", "sixty", "seventy",	61	"zero", "ten", "twenty", "thirty", "fourty", "fifty", "sixty", "seventy",
78	"eighty", "ninety"	62	"eighty", "ninety"
79	};	63	};
80		64
81	static char levelnumbers[21][20] = {	65	static char ordnumbers[21][20] = {
82	"zeroth", "first", "second", "third", "fourth", "fifth", "sixth", "seventh",	66	"zeroth", "first", "second", "third", "fourth", "fifth", "sixth", "seventh",
83	"eighth", "ninth", "tenth", "eleventh", "twelfth", "thirteenth",	67	"eighth", "ninth", "tenth", "eleventh", "twelfth", "thirteenth",
84	"fourteenth", "fifteenth", "sixteenth", "seventeenth", "eighteen",	68	"fourteenth", "fifteenth", "sixteenth", "seventeenth", "eighteenth",
85	"nineteen", "twentieth"	69	"nineteenth", "twentieth"
86	};	70	};
87		71
88	static char levelnumbers_10[11][20] = {	72	static char ordnumbers_10[11][20] = {
89	"zeroth", "tenth", "twentieth", "thirtieth", "fortieth", "fiftieth", "sixtieth",	73	"zeroth", "tenth", "twentieth", "thirtieth", "fortieth", "fiftieth", "sixtieth",
90	"seventieth", "eightieth", "ninetieth"	74	"seventieth", "eightieth", "ninetieth"
91	};	75	};
92		76
93	/* The following is a large table of item types, the fields are:	77	/* The following is a large table of item types, the fields are:
94	* item number, item name, item name (plural), and two numbers that are the skills	78	* item number, item name, item name (plural), and two numbers that are the skills
95	* used to identify them. Anytime a new item type is added or removed, this list	79	* used to identify them. Anytime a new item type is added or removed, this list
96	* should be altered to reflect that. The defines for the numerical values are in	80	* should be altered to reflect that. The defines for the numerical values are in
97	* define.h	81	* define.h
98	*/	82	*/
99	static const typedata item_types[] = {	83	static const typedata item_types[] = {
100	{PLAYER, "player", "players", 0, 0},	84	{PLAYER, "player", "players", 0, 0},
101	{ROD, "rod", "rods", SK_THAUMATURGY, 0},	85	{ROD, "rod", "rods", SK_THAUMATURGY, 0},
102	{TREASURE, "treasure", "treasure", 0, 0},	86	{TREASURE, "treasure", "treasure", 0, 0},
…		…
156	{EXIT, "exit", "exits", 0, 0},	140	{EXIT, "exit", "exits", 0, 0},
157	{ENCOUNTER, "encounter", "encounters", 0, 0},	141	{ENCOUNTER, "encounter", "encounters", 0, 0},
158	{SHOP_FLOOR, "shop floor", "shop floors", 0, 0},	142	{SHOP_FLOOR, "shop floor", "shop floors", 0, 0},
159	{SHOP_MAT, "shop mat", "shop mats", 0, 0},	143	{SHOP_MAT, "shop mat", "shop mats", 0, 0},
160	{RING, "ring", "rings", SK_JEWELER, 0},	144	{RING, "ring", "rings", SK_JEWELER, 0},
161	{FLOOR, "floor", "floors", 0, 0},	145	// {FLOOR, "floor", "floors", 0, 0},
162	{FLESH, "flesh", "flesh", SK_WOODSMAN, 0},	146	{FLESH, "flesh", "flesh", SK_WOODSMAN, 0},
163	{INORGANIC, "inorganic", "inorganics", SK_ALCHEMY, 0},	147	{INORGANIC, "inorganic", "inorganics", SK_ALCHEMY, 0},
164	{SKILL_TOOL, "skill tool", "skill tools", 0, 0},	148	{SKILL_TOOL, "skill tool", "skill tools", 0, 0},
165	{LIGHTER, "lighter", "lighters", 0, 0},	149	{LIGHTER, "lighter", "lighters", 0, 0},
166	{BUILDABLE_WALL, "buildable wall", "buildable walls", 0, 0},	150	{BUILDABLE_WALL, "buildable wall", "buildable walls", 0, 0},
167	{MISC_OBJECT, "bric-a-brac", "bric-a-brac", 0, 0},	151	{MISC_OBJECT, "bric-a-brac", "bric-a-brac", 0, 0},
		152	{TORCH, "torch", "torches", 0, 0},
168	{LAMP, "lamp", "lamps", 0, 0},	153	{LAMP, "lamp", "lamps", 0, 0},
169	{DUPLICATOR, "duplicator", "duplicators", 0, 0},	154	{DUPLICATOR, "duplicator", "duplicators", 0, 0},
170	{SPELLBOOK, "spellbook", "spellbooks", SK_LITERACY, 0},	155	{SPELLBOOK, "spellbook", "spellbooks", SK_LITERACY, 0},
171	{CLOAK, "cloak", "cloaks", SK_SMITHERY, 0},	156	{CLOAK, "cloak", "cloaks", SK_SMITHERY, 0},
172	{SPINNER, "spinner", "spinners", 0, 0},	157	{SPINNER, "spinner", "spinners", 0, 0},
173	{GATE, "gate", "gates", 0, 0},	158	{GATE, "gate", "gates", 0, 0},
174	{BUTTON, "button", "buttons", 0, 0},	159	{BUTTON, "button", "buttons", 0, 0},
175	{CF_HANDLE, "cf handle", "cf handles", 0, 0},	160	{T_HANDLE, "cf handle", "cf handles", 0, 0},
176	{HOLE, "hole", "holes", 0, 0},	161	{HOLE, "hole", "holes", 0, 0},
177	{TRAPDOOR, "trapdoor", "trapdoors", 0, 0},	162	{TRAPDOOR, "trapdoor", "trapdoors", 0, 0},
178	{SIGN, "sign", "signs", 0, 0},	163	{SIGN, "sign", "signs", 0, 0},
179	{BOOTS, "boots", "boots", SK_SMITHERY, 0},	164	{BOOTS, "boots", "boots", SK_SMITHERY, 0},
180	{GLOVES, "gloves", "gloves", SK_SMITHERY, 0},	165	{GLOVES, "gloves", "gloves", SK_SMITHERY, 0},
…		…
207	{BUILDER, "item builder", "item builders", 0, 0},	192	{BUILDER, "item builder", "item builders", 0, 0},
208	{MATERIAL, "building material", "building materials", 0, 0},	193	{MATERIAL, "building material", "building materials", 0, 0},
209	{ITEM_TRANSFORMER, "item_transformer", "item_transformers", 0, 0},	194	{ITEM_TRANSFORMER, "item_transformer", "item_transformers", 0, 0},
210	};	195	};
211		196
212	const int item_types_size = sizeof (item_types) / sizeof (*item_types);	197	static const int item_types_size = array_length (item_types);
213
214	materialtype_t *materialt;
215
216	/*
217	materialtype material[NROFMATERIALS] = {
218	* P M F E C C A D W G P S P T F C D D C C G H B I *
219	* H A I L O O C R E H O L A U E A E E H O O O L N *
220	* Y G R E L N I A A O I O R R A N P A A U D L I T *
221	* S I E C D F D I P S S W A N R C L T O N Y N R *
222	* I C T U N O T O L E E H S T P D N *
223	{"paper", {15,10,17, 9, 5, 7,13, 0,20,15, 0,0,0,0,0,10,0,0,0,0,0,0,0,0}},
224	{"metal", { 2,12, 3,12, 2,10, 7, 0,20,15, 0,0,0,0,0,10,0,0,0,0,0,0,0,0}},
225	{"glass", {14,11, 8, 3,10, 5, 1, 0,20,15, 0,0,0,0,0, 0,0,0,0,0,0,0,0,0}},
226	{"leather", { 5,10,10, 3, 3,10,10, 0,20,15, 0,0,0,0,0,12,0,0,0,0,0,0,0,0}},
227	{"wood", {10,11,13, 2, 2,10, 9, 0,20,15, 0,0,0,0,0,12,0,0,0,0,0,0,0,0}},
228	{"organics", { 3,12, 9,11, 3,10, 9, 0,20,15, 0,0,0,0,0, 0,0,0,0,0,0,0,0,0}},
229	{"stone", { 2, 5, 2, 2, 2, 2, 1, 0,20,15, 0,0,0,0,0, 5,0,0,0,0,0,0,0,0}},
230	{"cloth", {14,11,13, 4, 4, 5,10, 0,20,15, 0,0,0,0,0, 5,0,0,0,0,0,0,0,0}},
231	{"adamant", { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,0,0,0,0, 0,0,0,0,0,0,0,0,0}},
232	{"liquid", { 0, 8, 9, 6,17, 0,15, 0,20,15,12,0,0,0,0,11,0,0,0,0,0,0,0,0}},
233	{"soft metal",{ 6,12, 6,14, 2,10, 1, 0,20,15, 0,0,0,0,0,10,0,0,0,0,0,0,0,0}},
234	{"bone", {10, 9, 4, 5, 3,10,10, 0,20,15, 0,0,0,0,0, 2,0,0,0,0,0,0,0,0}},
235	{"ice", {14,11,16, 5, 0, 5, 6, 0,20,15, 0,0,0,0,0, 7,0,0,0,0,0,0,0,0}}
236	};
237	*/
238		198
239	/* This curve may be too steep. But the point is that there should	199	/* This curve may be too steep. But the point is that there should
240	* be tough choices - there is no real point to this if everyone can	200	* be tough choices - there is no real point to this if everyone can
241	* wear whatever they want with no worries. Perhaps having the steep	201	* wear whatever they want with no worries. Perhaps having the steep
242	* curve is good (maybe even steeper), but allowing players to	202	* curve is good (maybe even steeper), but allowing players to
…		…
244	* able to use 2-3 of the most powerful items.	204	* able to use 2-3 of the most powerful items.
245	* note that this table is only really used for program generated items -	205	* note that this table is only really used for program generated items -
246	* custom objects can use whatever they want.	206	* custom objects can use whatever they want.
247	*/	207	*/
248	static int enc_to_item_power[21] = {	208	static int enc_to_item_power[21] = {
		209	0,
249	0, 0, 1, 2, 3, 4, /* 5 */	210	0, 1, 2, 3, 4, // 5
250	5, 7, 9, 11, 13, /* 10 */	211	5, 7, 9, 11, 13, // 10
251	15, 18, 21, 24, 27, /* 15 */	212	15, 18, 21, 24, 27, // 15
252	30, 35, 40, 45, 50 /* 20 */	213	30, 35, 40, 45, 50 // 20
253	};	214	};
254		215
255	int	216	int
256	get_power_from_ench (int ench)	217	get_power_from_ench (int ench)
257	{	218	{
258	if (ench < 0) ench = 0;
259	if (ench > 20) ench = 20;
260
261	return enc_to_item_power[ench];	219	return enc_to_item_power [clamp (ench, 0, 20)];
		220	}
		221
		222	static const struct need_identify_types : typeset
		223	{
		224	need_identify_types ()
		225	{
		226	set (RING);
		227	set (WAND);
		228	set (ROD);
		229	set (HORN);
		230	set (SCROLL);
		231	set (SKILL);
		232	set (SKILLSCROLL);
		233	set (SPELLBOOK);
		234	set (FOOD);
		235	set (POTION);
		236	set (BOW);
		237	set (ARROW);
		238	set (WEAPON);
		239	set (ARMOUR);
		240	set (SHIELD);
		241	set (HELMET);
		242	set (AMULET);
		243	set (BOOTS);
		244	set (GLOVES);
		245	set (BRACERS);
		246	set (GIRDLE);
		247	set (CONTAINER);
		248	set (DRINK);
		249	set (FLESH);
		250	set (INORGANIC);
		251	set (CLOSE_CON);
		252	set (CLOAK);
		253	set (GEM);
		254	set (POWER_CRYSTAL);
		255	set (POISON);
		256	set (BOOK);
		257	set (SKILL_TOOL);
		258	}
		259	} need_identify_types;
		260
		261	bool
		262	object::need_identify () const
		263	{
		264	return need_identify_types [type];
262	}	265	}
263		266
264	/* This takes an object 'op' and figures out what its item_power	267	/* This takes an object 'op' and figures out what its item_power
265	* rating should be. This should only really be used by the treasure	268	* rating should be. This should only really be used by the treasure
266	* generation code, and when loading legacy objects. It returns	269	* generation code, and when loading legacy objects. It returns
…		…
278	enc += op->stats.stat (i);	281	enc += op->stats.stat (i);
279		282
280	/* This protection logic is pretty flawed. 20% fire resistance	283	/* This protection logic is pretty flawed. 20% fire resistance
281	* is much more valuable than 20% confusion, or 20% slow, or	284	* is much more valuable than 20% confusion, or 20% slow, or
282	* several others. Start at 1 - ignore physical - all that normal	285	* several others. Start at 1 - ignore physical - all that normal
283	* armour shouldn't be counted against	286	* armour shouldn't be counted against
284	*/	287	*/
285	tmp = 0;	288	tmp = 0;
286	for (i = 1; i < NROFATTACKS; i++)	289	for (i = 1; i < NROFATTACKS; i++)
287	tmp += op->resist[i];	290	tmp += op->resist[i];
288		291
…		…
300	if (op->type == WEAPON)	303	if (op->type == WEAPON)
301	{	304	{
302	for (i = 1; i < NROFATTACKS; i++)	305	for (i = 1; i < NROFATTACKS; i++)
303	if (op->attacktype & (1 << i))	306	if (op->attacktype & (1 << i))
304	enc++;	307	enc++;
		308
305	if (op->slaying)	309	if (op->slaying)
306	enc += 2; /* What it slays is probably more relevent */	310	enc += 2; /* What it slays is probably more relevent */
307	}	311	}
		312
308	/* Items the player can equip */	313	/* Items the player can equip */
309	if ((op->type == WEAPON) \|\| (op->type == ARMOUR) \|\| (op->type == HELMET) \|\|	314	if ((op->type == WEAPON) \|\| (op->type == ARMOUR) \|\| (op->type == HELMET) \|\|
310	(op->type == SHIELD) \|\| (op->type == RING) \|\|	315	(op->type == SHIELD) \|\| (op->type == RING) \|\|
311	(op->type == BOOTS) \|\| (op->type == GLOVES) \|\|	316	(op->type == BOOTS) \|\| (op->type == GLOVES) \|\|
312	(op->type == AMULET) \|\| (op->type == GIRDLE) \|\| (op->type == BRACERS) \|\| (op->type == CLOAK))	317	(op->type == AMULET) \|\| (op->type == GIRDLE) \|\| (op->type == BRACERS) \|\| (op->type == CLOAK))
…		…
315	enc += op->stats.hp; /* hp regen */	320	enc += op->stats.hp; /* hp regen */
316	enc += op->stats.sp; /* mana regen */	321	enc += op->stats.sp; /* mana regen */
317	enc += op->stats.grace; /* grace regen */	322	enc += op->stats.grace; /* grace regen */
318	enc += op->stats.exp; /* speed bonus */	323	enc += op->stats.exp; /* speed bonus */
319	}	324	}
		325
320	enc += op->stats.luck;	326	enc += op->stats.luck;
321		327
322	/* Do spell paths now */	328	/* Do spell paths now */
323	for (i = 1; i < NRSPELLPATHS; i++)	329	for (i = 1; i < NRSPELLPATHS; i++)
324	{
325	if (op->path_attuned & (1 << i))	330	if (op->path_attuned & (1 << i))
326	enc++;	331	enc++;
327	else if (op->path_denied & (1 << i))	332	else if (op->path_denied & (1 << i))
328	enc -= 2;	333	enc -= 2;
329	else if (op->path_repelled & (1 << i))	334	else if (op->path_repelled & (1 << i))
330	enc--;	335	enc--;
331	}
332		336
333	if (QUERY_FLAG (op, FLAG_LIFESAVE))	337	if (op->flag [FLAG_LIFESAVE ]) enc += 5;
334	enc += 5;	338	if (op->flag [FLAG_REFL_SPELL ]) enc += 3;
335	if (QUERY_FLAG (op, FLAG_REFL_SPELL))	339	if (op->flag [FLAG_REFL_MISSILE]) enc += 2;
336	enc += 3;	340	if (op->flag [FLAG_XRAYS ]) enc += 2;
337	if (QUERY_FLAG (op, FLAG_REFL_MISSILE))	341	if (op->flag [FLAG_STEALTH ]) enc += 1;
338	enc += 2;	342	if (op->flag [FLAG_SEE_IN_DARK ]) enc += 1;
339	if (QUERY_FLAG (op, FLAG_STEALTH))	343	if (op->flag [FLAG_MAKE_INVIS ]) enc += 1;
340	enc += 1;
341	if (QUERY_FLAG (op, FLAG_XRAYS))
342	enc += 2;
343	if (QUERY_FLAG (op, FLAG_SEE_IN_DARK))
344	enc += 1;
345	if (QUERY_FLAG (op, FLAG_MAKE_INVIS))
346	enc += 1;
347		344
348	return get_power_from_ench (enc);	345	return get_power_from_ench (enc);
349	}	346	}
350		347
		348	static const struct get_typedata
		349	{
		350	const typedata *data [NUM_TYPES];
		351
		352	get_typedata ()
		353	{
		354	for (int i = 0; i < item_types_size; i++)
		355	data [item_types[i].number] = &item_types [i];
		356	}
		357
		358	const typedata *operator ()(int itemtype) const
		359	{
		360	return data [itemtype];
		361	}
		362	} get_typedata_;
		363
351	/* returns the typedata that has a number equal to itemtype, if there	364	/* returns the typedata that has a number equal to itemtype, if there
352	* isn't one, returns NULL */	365	* isn't one, returns NULL */
353	const typedata *	366	const typedata *
354	get_typedata (int itemtype)	367	get_typedata (int itemtype)
355	{	368	{
356	int i;	369	return get_typedata_ (itemtype);
357
358	for (i = 0; i < item_types_size; i++)
359	if (item_types[i].number == itemtype)
360	return &item_types[i];
361	return NULL;
362	}	370	}
363		371
364	/* returns the typedata that has a name equal to itemtype, if there	372	/* returns the typedata that has a name equal to itemtype, if there
365	* isn't one, return the plural name that matches, if there still isn't	373	* isn't one, return the plural name that matches, if there still isn't
366	* one return NULL */	374	* one return NULL */
367	const typedata *	375	const typedata *
368	get_typedata_by_name (const char *name)	376	get_typedata_by_name (const char *name)
369	{	377	{
370	int i;
371
372	for (i = 0; i < item_types_size; i++)	378	for (int i = 0; i < item_types_size; i++)
373	if (!strcmp (item_types[i].name, name))	379	if (!strcmp (item_types[i].name, name))
374	return &item_types[i];	380	return &item_types[i];
		381
375	for (i = 0; i < item_types_size; i++)	382	for (int i = 0; i < item_types_size; i++)
376	if (!strcmp (item_types[i].name_pl, name))	383	if (!strcmp (item_types[i].name_pl, name))
377	{	384	{
378	LOG (llevInfo,	385	LOG (llevInfo,
379	"get_typedata_by_name: I have been sent the plural %s, the singular form %s is preffered\n", name, item_types[i].name);	386	"get_typedata_by_name: I have been sent the plural %s, the singular form %s is prefered\n", name, item_types[i].name);
380	return &item_types[i];	387	return &item_types[i];
381	}	388	}
		389
382	return NULL;	390	return 0;
383	}	391	}
384		392
385	/* describe_resistance generates the visible naming for resistances.	393	/* describe_resistance generates the visible naming for resistances.
386	* returns a static array of the description. This can return	394	* returns a static array of the description. This can return
387	* a big buffer.	395	* a big buffer.
…		…
389	* but do put a newline at the end. Useful when dumping to files	397	* but do put a newline at the end. Useful when dumping to files
390	*/	398	*/
391	const char *	399	const char *
392	describe_resistance (const object *op, int newline)	400	describe_resistance (const object *op, int newline)
393	{	401	{
394	static char buf[VERY_BIG_BUF];	402	static dynbuf_text buf; buf.clear ();
395	char buf1[VERY_BIG_BUF];
396	int tmpvar;
397		403
398	buf[0] = 0;	404	for (int i = 0; i < NROFATTACKS; i++)
399	for (tmpvar = 0; tmpvar < NROFATTACKS; tmpvar++)
400	{
401	if (op->resist[tmpvar] && (op->type != FLESH \|\| atnr_is_dragon_enabled (tmpvar) == 1))	405	if (op->resist[i] && (op->type != FLESH \|\| atnr_is_dragon_enabled (i) == 1))
402	{	406	buf.printf (newline ? "%s %d\n" : "(%s %+d)", resist_plus[i], op->resist[i]);
403	if (!newline)
404	sprintf (buf1, "(%s %+d)", resist_plus[tmpvar], op->resist[tmpvar]);
405	else
406	sprintf (buf1, "%s %d\n", resist_plus[tmpvar], op->resist[tmpvar]);
407		407
408	strcat (buf, buf1);
409	}
410	}
411	return buf;	408	return buf;
412	}	409	}
413
414		410
415	/*	411	/*
416	* query_weight(object) returns a character pointer to a static buffer	412	* query_weight(object) returns a character pointer to a static buffer
417	* containing the text-representation of the weight of the given object.	413	* containing the text-representation of the weight of the given object.
418	* The buffer will be overwritten by the next call to query_weight().	414	* The buffer will be overwritten by the next call to query_weight().
		415	*
		416	* Seems to be used only by unimportant stuff. Remove?
419	*/	417	*/
420	const char *	418	const char *
421	query_weight (const object *op)	419	query_weight (const object *op)
422	{	420	{
423	static char buf[10];	421	static char buf[10];
424	sint32 i = (op->nrof ? op->nrof : 1) * op->weight + op->carrying;	422	sint32 i = op->total_weight ();
425		423
426	if (op->weight < 0)	424	if (op->weight < 0)
427	return " ";	425	return " ";
428		426
429	if (i % 1000)	427	if (i % 1000)
…		…
437	/*	435	/*
438	* Returns the pointer to a static buffer containing	436	* Returns the pointer to a static buffer containing
439	* the number requested (of the form first, second, third...)	437	* the number requested (of the form first, second, third...)
440	*/	438	*/
441	const char *	439	const char *
442	get_levelnumber (int i)	440	ordinal (int i)
443	{	441	{
444	static char buf[MAX_BUF];	442	if (i < 0)
445		443	return format ("minus %s", ordinal (-i));
446	if (i > 99)
447	{
448	sprintf (buf, "%d.", i);
449	return buf;
450	}
451		444
452	if (i < 21)	445	if (i < 21)
453	return levelnumbers[i];
454	if (!(i % 10))
455	return levelnumbers_10[i / 10];
456
457	strcpy (buf, numbers_10[i / 10]);
458	strcat (buf, levelnumbers[i % 10]);
459	return buf;
460	}
461
462	/*
463	* get_number(integer) returns the text-representation of the given number
464	* in a static buffer. The buffer might be overwritten at the next
465	* call to get_number().
466	* It is currently only used by the query_name() function.
467	*/
468	const char *
469	get_number (int i)
470	{
471	if (i <= 20)
472	return numbers[i];	446	return ordnumbers[i];
		447
		448	int digit = i % 10;
		449
		450	if (i >= 100)
		451	return format (
		452	digit == 1 ? "%dst"
		453	: digit == 2 ? "%dnd"
		454	: digit == 3 ? "%drd"
		455	: "%dth",
		456	i
		457	);
		458
		459	if (digit == 0)
		460	return ordnumbers_10[i / 10];
473	else	461	else
474	{	462	return format ("%s%s", numbers_10[i / 10], ordnumbers[i % 10]);
475	static char buf[MAX_BUF];
476
477	sprintf (buf, "%d", i);
478	return buf;
479	}
480	}	463	}
481		464
482	/*	465	/*
483	* Returns pointer to static buffer containing ring's or amulet's	466	* Returns pointer to static buffer containing ring's or amulet's
484	* abilities	467	* abilities
…		…
490	*/	473	*/
491		474
492	/* Aug 95 modified this slightly so that Skill tools don't have magic bonus	475	/* Aug 95 modified this slightly so that Skill tools don't have magic bonus
493	* from stats.sp - b.t.	476	* from stats.sp - b.t.
494	*/	477	*/
495	const char *	478	static const char *
496	ring_desc (const object *op)	479	ring_desc (const object *op)
497	{	480	{
498	static dynbuf_text buf; buf.clear ();	481	static dynbuf_text buf; buf.clear ();
499	int attr, val, len;	482	int attr, val;
500		483
501	if (QUERY_FLAG (op, FLAG_IDENTIFIED))	484	if (op->flag [FLAG_IDENTIFIED])
502	{	485	{
503	for (attr = 0; attr < NUM_STATS; attr++)	486	for (attr = 0; attr < NUM_STATS; attr++)
504	if ((val = op->stats.stat (attr)))	487	if ((val = op->stats.stat (attr)))
505	buf.printf ("(%s%+d)", short_stat_name[attr], val);	488	buf.printf ("(%s%+d)", short_stat_name[attr], val);
506		489
507	if (op->stats.exp) buf.printf ("(speed %+lld)", (long long)op->stats.exp);	490	if (op->stats.exp) buf.printf ("(speed %+d)", (int)op->stats.exp);
508	if (op->stats.wc) buf.printf ("(wc%+d)", op->stats.wc);	491	if (op->stats.wc) buf.printf ("(wc%+d)", op->stats.wc);
509	if (op->stats.dam) buf.printf ("(dam%+d)", op->stats.dam);	492	if (op->stats.dam) buf.printf ("(dam%+d)", op->stats.dam);
510	if (op->stats.ac) buf.printf ("(ac%+d)", op->stats.ac);	493	if (op->stats.ac) buf.printf ("(ac%+d)", op->stats.ac);
511		494
512	buf << describe_resistance (op, 0);	495	buf << describe_resistance (op, 0);
…		…
515	if (op->stats.grace) buf.printf ("(grace%+d)", op->stats.grace);	498	if (op->stats.grace) buf.printf ("(grace%+d)", op->stats.grace);
516	if (op->stats.sp && op->type != SKILL) buf.printf ("(magic%+d)", op->stats.sp);	499	if (op->stats.sp && op->type != SKILL) buf.printf ("(magic%+d)", op->stats.sp);
517	if (op->stats.hp) buf.printf ("(regeneration%+d)", op->stats.hp);	500	if (op->stats.hp) buf.printf ("(regeneration%+d)", op->stats.hp);
518	if (op->stats.luck) buf.printf ("(luck%+d)", op->stats.luck);	501	if (op->stats.luck) buf.printf ("(luck%+d)", op->stats.luck);
519		502
520	if (QUERY_FLAG (op, FLAG_LIFESAVE)) buf << "(lifesaving)";	503	if (op->flag [FLAG_LIFESAVE]) buf << "(lifesaving)";
521	if (QUERY_FLAG (op, FLAG_REFL_SPELL)) buf << "(reflect spells)";	504	if (op->flag [FLAG_REFL_SPELL]) buf << "(reflect spells)";
522	if (QUERY_FLAG (op, FLAG_REFL_MISSILE)) buf << "(reflect missiles)";	505	if (op->flag [FLAG_REFL_MISSILE]) buf << "(reflect missiles)";
523	if (QUERY_FLAG (op, FLAG_STEALTH)) buf << "(stealth)";	506	if (op->flag [FLAG_STEALTH]) buf << "(stealth)";
524		507
525	buf.add_paths ("Attuned" , op->path_attuned);	508	buf.add_paths ("Attuned" , op->path_attuned);
526	buf.add_paths ("Repelled", op->path_repelled);	509	buf.add_paths ("Repelled", op->path_repelled);
527	buf.add_paths ("Denied" , op->path_denied);	510	buf.add_paths ("Denied" , op->path_denied);
528		511
…		…
532		515
533	return buf;	516	return buf;
534	}	517	}
535		518
536	/*	519	/*
537	* query_short_name(object) is similar to query_name, but doesn't	520	* query_short_name(object) is similar to query_name, but doesn't
538	* contain any information about object status (worn/cursed/etc.)	521	* contain any information about object status (worn/cursed/etc.)
		522	*
		523	* It is sometimes used when printing messages, so should fit well into a sentence.
539	*/	524	*/
540	const char *	525	const char *
541	query_short_name (const object *op)	526	query_short_name (const object *op)
542	{	527	{
543	if (op->name == 0)	528	if (!op->name)
544	return "(null)";	529	return "(null)";
545		530
546	if (!op->nrof	531	if (!op->nrof
547	&& !op->weight	532	&& !op->weight
548	&& !op->title	533	&& !op->title
…		…
552		537
553	static dynbuf_text buf; buf.clear ();	538	static dynbuf_text buf; buf.clear ();
554		539
555	buf << (op->nrof <= 1 ? op->name : op->name_pl);	540	buf << (op->nrof <= 1 ? op->name : op->name_pl);
556		541
557	if (op->title && QUERY_FLAG (op, FLAG_IDENTIFIED))	542	if (op->title && op->flag [FLAG_IDENTIFIED])
558	buf << ' ' << op->title;	543	buf << ' ' << op->title;
559		544
560	switch (op->type)	545	switch (op->type)
561	{	546	{
562	case SPELLBOOK:	547	case SPELLBOOK:
563	case SCROLL:	548	case SCROLL:
564	case WAND:	549	case WAND:
565	case ROD:	550	case ROD:
566	if (QUERY_FLAG (op, FLAG_IDENTIFIED) \|\| QUERY_FLAG (op, FLAG_BEEN_APPLIED))	551	if (op->flag [FLAG_IDENTIFIED] \|\| op->flag [FLAG_BEEN_APPLIED])
567	{	552	{
568	if (!op->title)	553	if (!op->title)
569	buf << " of " << (op->inv ? &op->inv->name : "bug, please report");	554	buf << " of " << (op->inv ? &op->inv->name : "bug, please report");
570		555
571	if (op->type != SPELLBOOK)	556	if (op->type != SPELLBOOK)
572	buf.printf (" (lvl %d)", op->level);	557	buf.printf (" (lvl %d)", op->level);
573	}	558	}
574	break;	559	break;
575		560
576	case ALTAR:	561	case ALTAR:
577	case TRIGGER_ALTAR:	562	case TRIGGER_ALTAR:
578	case IDENTIFY_ALTAR:	563	case IDENTIFY_ALTAR:
579	case CONVERTER:	564	case CONVERTER:
580	if (op->slaying == shstr_money)	565	if (op->slaying == shstr_money)
581	{	566	{
582	bool wrap = !!buf.size ();	567	bool wrap = !!buf.size ();
583		568
584	if (wrap) buf << " [";	569	if (wrap) buf << " [";
585		570
586	archetype *coin = 0;	571	archetype *coin = 0;
587		572
588	for (char const const c = coins; *coins; ++c)	573	for (char const const c = coins; *coins; ++c)
589	if ((coin = archetype::find (*c)))	574	if ((coin = archetype::find (*c)))
590	if (op->stats.food % coin->value == 0)	575	if (op->stats.food % coin->value == 0)
591	break;	576	break;
592		577
593	sint32 coins = op->stats.food / coin->value;	578	sint32 coins = op->stats.food / coin->value;
594		579
595	buf.printf ("drop %d %s (or equivalent)", coins, coins == 1 ? &coin->name : &coin->name_pl);	580	buf.printf ("drop %d %s (or equivalent)", coins, coins == 1 ? &coin->name : &coin->name_pl);
596		581
597	if (wrap) buf << ']';	582	if (wrap) buf << ']';
598	}	583	}
599	break;	584	break;
600		585
601	case SKILL:	586	case SKILL:
602	case AMULET:	587	case AMULET:
603	case RING:	588	case RING:
604	if (!op->title)	589	if (!op->title)
…		…
610	buf << " " << s;	595	buf << " " << s;
611	}	596	}
612	break;	597	break;
613		598
614	default:	599	default:
615	if (op->magic && ((QUERY_FLAG (op, FLAG_BEEN_APPLIED) && need_identify (op)) \|\| QUERY_FLAG (op, FLAG_IDENTIFIED)))	600	if (op->magic
		601	&& ((op->flag [FLAG_BEEN_APPLIED] && op->need_identify ())
		602	\|\| op->flag [FLAG_IDENTIFIED]))
616	buf.printf (" %+d", op->magic);	603	buf.printf (" %+d", op->magic);
617	}	604	}
618		605
619	return buf;	606	return buf;
620	}	607	}
…		…
627	* you can make several calls to query_name before the bufs start getting	614	* you can make several calls to query_name before the bufs start getting
628	* overwritten. This may be a bad thing (it may be easier to assume the value	615	* overwritten. This may be a bad thing (it may be easier to assume the value
629	* returned is good forever.) However, it makes printing statements that	616	* returned is good forever.) However, it makes printing statements that
630	* use several names much easier (don't need to store them to temp variables.)	617	* use several names much easier (don't need to store them to temp variables.)
631	*	618	*
		619	* It is used extensively within messages, so should return only a prose
		620	* and short description of the item.
		621	* It is also used by examine/ex and similar functions.
632	*/	622	*/
633	const char *	623	const char *
634	query_name (const object *op)	624	query_name (const object *op)
635	{	625	{
636	int len = 0;
637	static dynbuf_text bufs[5];	626	static dynbuf_text bufs[5];
638	static int use_buf = 0;	627	static int use_buf = 0;
639		628
640	use_buf++;	629	use_buf++;
641	use_buf %= 5;	630	use_buf %= 5;
642		631
643	dynbuf_text &buf = bufs [use_buf];	632	dynbuf_text &buf = bufs [use_buf];
644	buf.clear ();	633	buf.clear ();
645		634
		635	#if 0
646	if ((op->is_armor () \|\| op->is_weapon ()) && op->materialname)	636	if ((op->is_armor () \|\| op->is_weapon ()) && op->material)
647	if (materialtype_t *mt = name_to_material (op->materialname))
648	buf << mt->description << ' ';	637	buf << op->material->description << ' ';
		638	#endif
649		639
650	buf << query_short_name (op);	640	buf << query_short_name (op);
651		641
652	if (QUERY_FLAG (op, FLAG_INV_LOCKED))	642	if (op->flag [FLAG_INV_LOCKED])
653	buf << " *";	643	buf << " *";
654	if (op->type == CONTAINER && ((op->env && op->env->container == op) \|\| (!op->env && QUERY_FLAG (op, FLAG_APPLIED))))	644	if (op->is_open_container ())
655	buf << " (open)";	645	buf << " (open)";
656		646
657	if (QUERY_FLAG (op, FLAG_KNOWN_CURSED))	647	if (op->flag [FLAG_KNOWN_CURSED])
658	{	648	{
659	if (QUERY_FLAG (op, FLAG_DAMNED))	649	if (op->flag [FLAG_DAMNED])
660	buf << " (damned)";	650	buf << " (damned)";
661	else if (QUERY_FLAG (op, FLAG_CURSED))	651	else if (op->flag [FLAG_CURSED])
662	buf << " (cursed)";	652	buf << " (cursed)";
663	}	653	}
664		654
665	/* Basically, if the object is known magical (detect magic spell on it),	655	/* Basically, if the object is known magical (detect magic spell on it),
666	* and it isn't identified, print out the fact that	656	* and it isn't identified, print out the fact that
…		…
669	*	659	*
670	* Changed in V 0.91.4 - still print that the object is magical even	660	* Changed in V 0.91.4 - still print that the object is magical even
671	* if it has been applied. Equipping an item does not tell full	661	* if it has been applied. Equipping an item does not tell full
672	* abilities, especially for artifact items.	662	* abilities, especially for artifact items.
673	*/	663	*/
674	if (QUERY_FLAG (op, FLAG_KNOWN_MAGICAL) && !QUERY_FLAG (op, FLAG_IDENTIFIED))	664	if (op->flag [FLAG_KNOWN_MAGICAL] && !op->flag [FLAG_IDENTIFIED])
675	buf << " (magic)";	665	buf << " (magic)";
676		666
677	#if 0	667	#if 0
678	/* item_power will be returned in desribe_item - it shouldn't really	668	/* item_power will be returned in describe_item - it shouldn't really
679	* be returned in the name.	669	* be returned in the name.
680	*/	670	*/
681	if (op->item_power)	671	if (op->item_power)
682	sprintf (buf[use_buf] + strlen (buf[use_buf]), "(item_power %+d)", op->item_power);	672	sprintf (buf[use_buf] + strlen (buf[use_buf]), "(item_power %+d)", op->item_power);
683		673
684	#endif	674	#endif
685		675
686	if (QUERY_FLAG (op, FLAG_APPLIED))	676	if (op->flag [FLAG_APPLIED])
687	{	677	{
688	switch (op->type)	678	switch (op->type)
689	{	679	{
		680	case RANGED:
690	case BOW:	681	case BOW:
691	case WAND:	682	case WAND:
692	case ROD:	683	case ROD:
693	case HORN:	684	case HORN:
694	buf << (op->env && op->env->current_weapon == op ? " (readied)" : " (applied)");
695	break;
696	case WEAPON:	685	case WEAPON:
697	buf << (op->env && op->env->current_weapon == op ? " (wielded)" : " (applied)");	686	buf << " (applied)";
698	break;	687	break;
699	case ARMOUR:	688	case ARMOUR:
700	case HELMET:	689	case HELMET:
701	case SHIELD:	690	case SHIELD:
702	case RING:	691	case RING:
…		…
715	default:	704	default:
716	buf << " (applied)";	705	buf << " (applied)";
717	}	706	}
718	}	707	}
719		708
720	if (QUERY_FLAG (op, FLAG_UNPAID))	709	switch (op->type)
		710	{
		711	case LAMP:
		712	if (op->glow_radius)
		713	buf << " (on)";
		714	else if (op->stats.food <= 0)
		715	buf << " (empty)";
		716	else
		717	buf << " (off)";
		718	break;
		719
		720	case TORCH:
		721	if (op->glow_radius)
		722	buf << " (burning)";
		723	else if (op->stats.food <= 0)
		724	buf << " (burned out)";
		725	break;
		726	}
		727
		728	if (op->flag [FLAG_UNPAID])
721	buf << " (unpaid)";	729	buf << " (unpaid)";
722		730
723	return buf;	731	return buf;
724	}	732	}
725		733
…		…
729	* of the given object. The buffer will be overwritten at the next	737	* of the given object. The buffer will be overwritten at the next
730	* call to query_base_name(). This is a lot like query_name, but we	738	* call to query_base_name(). This is a lot like query_name, but we
731	* don't include the item count or item status. Used for inventory sorting	739	* don't include the item count or item status. Used for inventory sorting
732	* and sending to client.	740	* and sending to client.
733	* If plural is set, we generate the plural name of this.	741	* If plural is set, we generate the plural name of this.
		742	*
		743	* It is sometimes used to display messages, and usually only used to match stuff,
		744	* so maybe this function should be removed.
		745	* It is also used for client-side inventory/item descriptions.
734	*/	746	*/
735	const char *	747	const char *
736	query_base_name (const object *op, int plural)	748	query_base_name (const object *op, int plural)
737	{	749	{
738	if ((!plural && !op->name) \|\| (plural && !op->name_pl))	750	if ((!plural && !op->name) \|\| (plural && !op->name_pl))
739	return "(null)";	751	return "(null)";
740		752
741	if (!op->nrof && !op->weight && !op->title && !is_magical (op))	753	if (!op->nrof && !op->weight && !op->title && !is_magical (op)
		754	&& op->type != EXIT)
742	return op->name; /* To speed things up (or make things slower?) */	755	return op->name; /* To speed things up (or make things slower?) */
743		756
744	static dynbuf_text buf; buf.clear ();	757	static dynbuf_text buf; buf.clear ();
745		758
		759	#if 0
746	if ((op->is_armor () \|\| op->is_weapon ()) && op->materialname)	760	if ((op->is_armor () \|\| op->is_weapon ()) && op->material)
747	if (materialtype_t *mt = name_to_material (op->materialname))
748	if (op->arch->materialname != mt->name)	761	if (op->arch->material != op->material)
749	buf << mt->description << ' ';	762	buf << op->material->description << ' ';
		763	#endif
750		764
751	buf << (plural ? op->name_pl : op->name);	765	buf << (plural ? op->name_pl : op->name);
752		766
753	if (op->title && QUERY_FLAG (op, FLAG_IDENTIFIED))	767	if (op->title && op->flag [FLAG_IDENTIFIED])
754	buf << ' ' << op->title;	768	buf << ' ' << op->title;
755		769
756	switch (op->type)	770	switch (op->type)
757	{	771	{
758	case SPELLBOOK:	772	case SPELLBOOK:
759	case SCROLL:	773	case SCROLL:
760	case WAND:	774	case WAND:
761	case ROD:	775	case ROD:
762	if (QUERY_FLAG (op, FLAG_IDENTIFIED) \|\| QUERY_FLAG (op, FLAG_BEEN_APPLIED))	776	if (op->flag [FLAG_IDENTIFIED] \|\| op->flag [FLAG_BEEN_APPLIED])
763	{	777	{
764	if (!op->title)	778	if (!op->title)
765	buf << " of " << (op->inv ? &op->inv->name : "bug, please report");	779	buf << " of " << (op->inv ? &op->inv->name : "bug, please report");
766		780
767	if (op->type != SPELLBOOK)	781	if (op->type != SPELLBOOK)
…		…
781	if (s && *s)	795	if (s && *s)
782	buf << ' ' << s;	796	buf << ' ' << s;
783	}	797	}
784	break;	798	break;
785		799
		800	case EXIT:
		801	// random map exits "unfortunately" get patched, so this only works before entering
		802	if (EXIT_PATH (op) == shstr_random_map_exit)
		803	buf << " (random map)";
		804	else if (!EXIT_PATH (op))
		805	buf << " (closed)";
		806	break;
		807
786	default:	808	default:
787	if (op->magic && ((QUERY_FLAG (op, FLAG_BEEN_APPLIED) && need_identify (op)) \|\| QUERY_FLAG (op, FLAG_IDENTIFIED)))	809	if (op->magic
		810	&& ((op->flag [FLAG_BEEN_APPLIED] && op->need_identify ())
		811	\|\| op->flag [FLAG_IDENTIFIED]))
788	buf.printf (" %+d", op->magic);	812	buf.printf (" %+d", op->magic);
789	}	813	}
790		814
791	return buf;	815	return buf;
792	}	816	}
…		…
805	/* Note that the resolution this provides for players really isn't	829	/* Note that the resolution this provides for players really isn't
806	* very good. Any player with a speed greater than .67 will	830	* very good. Any player with a speed greater than .67 will
807	* fall into the 'lightning fast movement' category.	831	* fall into the 'lightning fast movement' category.
808	*/	832	*/
809	if (op->has_active_speed ())	833	if (op->has_active_speed ())
810	switch ((int) ((FABS (op->speed)) * 15))	834	switch ((int)(op->speed * 15.))
811	{	835	{
812	case 0:	836	case 0:
813	buf << "(very slow movement";	837	buf << "(very slow movement)";
814	break;	838	break;
815	case 1:	839	case 1:
816	buf << "(slow movement)";	840	buf << "(slow movement)";
817	break;	841	break;
818	case 2:	842	case 2:
…		…
835	default:	859	default:
836	buf << "(lightning fast movement)";	860	buf << "(lightning fast movement)";
837	break;	861	break;
838	}	862	}
839		863
840	if (QUERY_FLAG (op, FLAG_UNDEAD)) buf << "(undead)";	864	if (op->flag [FLAG_UNDEAD]) buf << "(undead)";
841	if (QUERY_FLAG (op, FLAG_SEE_INVISIBLE)) buf << "(see invisible)";	865	if (op->flag [FLAG_SEE_INVISIBLE]) buf << "(see invisible)";
842	if (QUERY_FLAG (op, FLAG_USE_WEAPON)) buf << "(wield weapon)";	866	if (op->flag [FLAG_USE_WEAPON]) buf << "(wield weapon)";
843	if (QUERY_FLAG (op, FLAG_USE_BOW)) buf << "(archer)";	867	if (op->flag [FLAG_USE_BOW]) buf << "(archer)";
844	if (QUERY_FLAG (op, FLAG_USE_ARMOUR)) buf << "(wear armour)";	868	if (op->flag [FLAG_USE_ARMOUR]) buf << "(wear armour)";
845	if (QUERY_FLAG (op, FLAG_USE_RING)) buf << "(wear ring)";	869	if (op->flag [FLAG_USE_RING]) buf << "(wear ring)";
846	if (QUERY_FLAG (op, FLAG_USE_SCROLL)) buf << "(read scroll)";	870	if (op->flag [FLAG_USE_SCROLL]) buf << "(read scroll)";
847	if (QUERY_FLAG (op, FLAG_USE_RANGE)) buf << "(fires wand/rod/horn)";	871	if (op->flag [FLAG_USE_RANGE]) buf << "(fires wand/rod/horn)";
848	if (QUERY_FLAG (op, FLAG_CAN_USE_SKILL)) buf << "(skill user)";	872	if (op->flag [FLAG_CAN_USE_SKILL]) buf << "(skill user)";
849	if (QUERY_FLAG (op, FLAG_CAST_SPELL)) buf << "(spellcaster)";	873	if (op->flag [FLAG_CAST_SPELL]) buf << "(spellcaster)";
850	if (QUERY_FLAG (op, FLAG_FRIENDLY)) buf << "(friendly)";	874	if (op->flag [FLAG_FRIENDLY]) buf << "(friendly)";
851	if (QUERY_FLAG (op, FLAG_UNAGGRESSIVE)) buf << "(unaggressive)";	875	if (op->flag [FLAG_UNAGGRESSIVE]) buf << "(unaggressive)";
852	if (QUERY_FLAG (op, FLAG_HITBACK)) buf << "(hitback)";	876	if (op->flag [FLAG_HITBACK]) buf << "(hitback)";
853	if (QUERY_FLAG (op, FLAG_STEALTH)) buf << "(stealthy)";	877	if (op->flag [FLAG_STEALTH]) buf << "(stealthy)";
854		878
855	if (op->randomitems)	879	if (op->randomitems)
856	{	880	{
857	bool first = 1;	881	bool first = 1;
858		882
…		…
885	if (op->stats.luck)	909	if (op->stats.luck)
886	buf.printf ("(luck%+d)", op->stats.luck);	910	buf.printf ("(luck%+d)", op->stats.luck);
887	}	911	}
888		912
889	/* describe attacktypes */	913	/* describe attacktypes */
890	if (is_dragon_pl (op))	914	if (op->is_dragon ())
891	{	915	{
892	/* for dragon players display the attacktypes from clawing skill	916	/* for dragon players display the attacktypes from clawing skill
893	* Break apart the for loop - move the comparison checking down -	917	* Break apart the for loop - move the comparison checking down -
894	* this makes it more readable.	918	* this makes it more readable.
895	*/	919	*/
…		…
933	* wouldn't need to use the SEE_INVISIBLE flag to know it is	957	* wouldn't need to use the SEE_INVISIBLE flag to know it is
934	* a dragon player examining food. Could have things like	958	* a dragon player examining food. Could have things like
935	* a dwarven axe, in which the full abilities are only known to	959	* a dwarven axe, in which the full abilities are only known to
936	* dwarves, etc.	960	* dwarves, etc.
937	*	961	*
938	* This function is really much more complicated than it should
939	* be, because different objects have different meanings
940	* for the same field (eg, wands use 'food' for charges). This
941	* means these special cases need to be worked out.
942	*
943	* Add 'owner' who is the person examining this object.	962	* Add 'owner' who is the person examining this object.
944	* owner can be null if no one is being associated with this	963	* owner can be null if no one is being associated with this
945	* item (eg, debug dump or the like)	964	* item (eg, debug dump or the like)
946	*/	965	*/
947	const char *	966	const char *
948	describe_item (const object op, object owner)	967	describe_item (const object op, object owner)
949	{	968	{
950	if (QUERY_FLAG (op, FLAG_MONSTER) \|\| op->type == PLAYER)	969	if (op->flag [FLAG_MONSTER] \|\| op->type == PLAYER)
951	return describe_monster (op);	970	return describe_monster (op);
952		971
953	static dynbuf_text buf; buf.clear ();	972	static dynbuf_text buf; buf.clear ();
954	int identified, i;	973	int identified, i;
955		974
956	/* figure this out once, instead of making multiple calls to need_identify.	975	/* figure this out once, instead of making multiple calls to need_identify.
957	* also makes the code easier to read.	976	* also makes the code easier to read.
958	*/	977	*/
959	identified = !need_identify (op) \|\| QUERY_FLAG (op, FLAG_IDENTIFIED);	978	identified = !op->need_identify () \|\| op->flag [FLAG_IDENTIFIED];
960	if (!identified)	979	if (!identified)
961	buf << "(unidentified)";	980	buf << "(unidentified)";
962		981
963	switch (op->type)	982	switch (op->type)
964	{	983	{
		984	case RANGED:
965	case BOW:	985	case BOW:
966	case ARROW:	986	case ARROW:
967	case WAND:	987	case WAND:
968	case ROD:	988	case ROD:
969	case HORN:	989	case HORN:
…		…
983	if (op->stats.maxsp > 1000)	1003	if (op->stats.maxsp > 1000)
984	{ /higher capacity crystals /	1004	{ /higher capacity crystals /
985	i = (op->stats.maxsp % 1000) / 100;	1005	i = (op->stats.maxsp % 1000) / 100;
986		1006
987	if (i)	1007	if (i)
988	buf.printf ("(capacity %d.%dk). It is ", op->stats.maxsp / 1000, i);	1008	buf.printf ("(capacity %d.%dk; it is ", op->stats.maxsp / 1000, i);
989	else	1009	else
990	buf.printf ("(capacity %dk). It is ", op->stats.maxsp / 1000);	1010	buf.printf ("(capacity %dk; it is ", op->stats.maxsp / 1000);
991	}	1011	}
992	else	1012	else
993	buf.printf ("(capacity %d). It is ", op->stats.maxsp);	1013	buf.printf ("(capacity %d; it is ", op->stats.maxsp);
994		1014
995	i = (op->stats.sp * 10) / op->stats.maxsp;	1015	i = op->stats.sp * 10 / max (op->stats.maxsp, 1);
996	if (op->stats.sp == 0)	1016
		1017	if (op->stats.sp == 0) buf << "empty";
		1018	else if (i <= 0) buf << "almost empty";
		1019	else if (i <= 2) buf << "partially filled";
		1020	else if (i <= 5) buf << "half full";
		1021	else if (i <= 8) buf << "well charged";
		1022	else if (op->stats.sp < op->stats.maxsp) buf << "almost full";
		1023	else buf << "fully charged";
		1024
		1025	buf << ')';
		1026	break;
		1027
		1028	case LAMP:
		1029	{
		1030	int percent = ((double) 100 / op->arch->stats.food) * op->stats.food;
		1031	buf << "(fuel: ";
		1032	if (percent == 0)
997	buf << "empty.";	1033	buf << "empty";
998	else if (i == 0)	1034	else if (percent < 10)
		1035	buf << "very low";
		1036	else if (percent < 25)
		1037	buf << "low";
		1038	else if (percent < 50)
999	buf << "almost empty.";	1039	buf << "half empty";
1000	else if (i < 3)	1040	else if (percent < 75)
1001	buf << "partially filled.";
1002	else if (i < 6)
1003	buf << "half full.";	1041	buf << "half full";
1004	else if (i < 9)	1042	else if (percent < 95)
1005	buf << "well charged.";	1043	buf << "well filled";
1006	else if (op->stats.sp == op->stats.maxsp)	1044	else if (percent <= 100)
1007	buf << "fully charged.";
1008	else
1009	buf << "almost full.";	1045	buf << "full";
		1046	buf << ")";
		1047	}
1010	break;	1048	break;
1011		1049
1012	case FOOD:	1050	case FOOD:
1013	case FLESH:	1051	case FLESH:
1014	case DRINK:	1052	case DRINK:
1015	if (identified \|\| QUERY_FLAG (op, FLAG_BEEN_APPLIED))	1053	if (identified \|\| op->flag [FLAG_BEEN_APPLIED])
1016	{	1054	{
1017	buf.printf ("(food+%d)", op->stats.food);	1055	buf.printf ("(food+%d)", op->stats.food);
1018		1056
1019	if (op->type == FLESH && op->last_eat > 0 && atnr_is_dragon_enabled (op->last_eat))	1057	if (op->type == FLESH && op->last_eat > 0 && atnr_is_dragon_enabled (op->last_eat))
1020	buf.printf ("(%s metabolism)", change_resist_msg[op->last_eat]);	1058	buf.printf ("(%s metabolism)", change_resist_msg[op->last_eat]);
1021		1059
1022	if (!QUERY_FLAG (op, FLAG_CURSED))	1060	if (!op->flag [FLAG_CURSED])
1023	{	1061	{
1024	if (op->stats.hp) buf << "(heals)";	1062	if (op->stats.hp) buf << "(heals)";
1025	if (op->stats.sp) buf << "(spellpoint regen)";	1063	if (op->stats.sp) buf << "(spellpoint regen)";
1026	}	1064	}
1027	else	1065	else
…		…
1048	}	1086	}
1049		1087
1050	/* Down here, we more further describe equipment type items.	1088	/* Down here, we more further describe equipment type items.
1051	* only describe them if they have been identified or the like.	1089	* only describe them if they have been identified or the like.
1052	*/	1090	*/
1053	if (identified \|\| QUERY_FLAG (op, FLAG_BEEN_APPLIED))	1091	if (identified \|\| op->flag [FLAG_BEEN_APPLIED])
1054	{	1092	{
1055	int attr, val;
1056
1057	for (attr = 0; attr < NUM_STATS; attr++)	1093	for (int attr = 0; attr < NUM_STATS; attr++)
1058	if ((val = op->stats.stat (attr)))	1094	if (int val = op->stats.stat (attr))
1059	buf.printf ("(%s%+d)", short_stat_name[attr], val);	1095	buf.printf ("(%s%+d)", short_stat_name[attr], val);
1060		1096
1061	if (op->stats.exp)	1097	if (op->stats.exp)
1062	buf.printf ("(speed %+lld)", (long long) op->stats.exp);	1098	buf.printf ("(speed %+lld)", (long long) op->stats.exp);
1063		1099
1064	switch (op->type)	1100	switch (op->type)
1065	{	1101	{
		1102	case RANGED:
1066	case BOW:	1103	case BOW:
1067	case ARROW:	1104	case ARROW:
1068	case GIRDLE:	1105	case GIRDLE:
1069	case HELMET:	1106	case HELMET:
1070	case SHIELD:	1107	case SHIELD:
…		…
1089		1126
1090	default:	1127	default:
1091	break;	1128	break;
1092	}	1129	}
1093		1130
1094	if (QUERY_FLAG (op, FLAG_XRAYS)) buf << "(xray-vision)";	1131	if (op->flag [FLAG_XRAYS]) buf << "(xray-vision)";
1095	if (QUERY_FLAG (op, FLAG_SEE_IN_DARK)) buf << "(infravision)";	1132	if (op->flag [FLAG_SEE_IN_DARK]) buf << "(infravision)";
1096		1133
1097	/* levitate was what is was before, so we'll keep it */	1134	/* levitate was what is was before, so we'll keep it */
1098	if (op->move_type & MOVE_FLY_LOW) buf << "(levitate)";	1135	if (op->move_type & MOVE_FLY_LOW) buf << "(levitate)";
1099	if (op->move_type & MOVE_FLY_HIGH) buf << "(fly)";	1136	if (op->move_type & MOVE_FLY_HIGH) buf << "(fly)";
1100	if (op->move_type & MOVE_SWIM) buf << "(swim)";	1137	if (op->move_type & MOVE_SWIM) buf << "(swim)";
…		…
1113	{	1150	{
1114	int more_info = 0;	1151	int more_info = 0;
1115		1152
1116	switch (op->type)	1153	switch (op->type)
1117	{	1154	{
		1155	case RANGED:
1118	case ROD: /* These use stats.sp for spell selection and stats.food */	1156	case ROD: /* These use stats.sp for spell selection and stats.food */
1119	case HORN: /* and stats.hp for spell-point regeneration... */	1157	case HORN: /* and stats.hp for spell-point regeneration... */
1120	case BOW:	1158	case BOW:
1121	case ARROW:	1159	case ARROW:
1122	case WAND:	1160	case WAND:
…		…
1155		1193
1156	if (more_info)	1194	if (more_info)
1157	{	1195	{
1158	if (op->stats.food) buf.printf ("(sustenance%+d)", op->stats.food);	1196	if (op->stats.food) buf.printf ("(sustenance%+d)", op->stats.food);
1159	if (op->stats.grace) buf.printf ("(grace%+d)", op->stats.grace);	1197	if (op->stats.grace) buf.printf ("(grace%+d)", op->stats.grace);
1160	if (op->stats.sp) buf.printf ("(magic%+d)", op->stats.sp);	1198	if (op->stats.sp) buf.printf ("(magic%+d)", op->stats.sp);
1161	if (op->stats.hp) buf.printf ("(regeneration%+d)", op->stats.hp);	1199	if (op->stats.hp) buf.printf ("(regeneration%+d)", op->stats.hp);
1162	}	1200	}
1163		1201
1164	if (op->stats.luck)	1202	if (op->stats.luck)
1165	buf.printf ("(luck%+d)", op->stats.luck);	1203	buf.printf ("(luck%+d)", op->stats.luck);
1166		1204
1167	if (QUERY_FLAG (op, FLAG_LIFESAVE)) buf << "(lifesaving)";	1205	if (op->flag [FLAG_LIFESAVE]) buf << "(lifesaving)";
1168	if (QUERY_FLAG (op, FLAG_REFL_SPELL)) buf << "(reflect spells)";	1206	if (op->flag [FLAG_REFL_SPELL]) buf << "(reflect spells)";
1169	if (QUERY_FLAG (op, FLAG_REFL_MISSILE)) buf << "(reflect missiles)";	1207	if (op->flag [FLAG_REFL_MISSILE]) buf << "(reflect missiles)";
1170	if (QUERY_FLAG (op, FLAG_STEALTH)) buf << "(stealth)";	1208	if (op->flag [FLAG_STEALTH]) buf << "(stealth)";
1171		1209
1172	if (op->slaying && op->type != FOOD)	1210	if (op->slaying && op->type != FOOD)
1173	buf.printf ("(slay %s)", &op->slaying);	1211	buf.printf ("(slay %s)", &op->slaying);
		1212
		1213	if (op->type == SKILL_TOOL && op->skill)
		1214	buf.printf ("(%s)", &op->skill);
1174		1215
1175	buf.add_abilities ("Attacks", op->attacktype);	1216	buf.add_abilities ("Attacks", op->attacktype);
1176	/* resistance on flesh is only visible for quetzals. If	1217	/* resistance on flesh is only visible for quetzals. If
1177	* non flesh, everyone can see its resistances	1218	* non flesh, everyone can see its resistances
1178	*/	1219	*/
1179	if (op->type != FLESH \|\| (owner && is_dragon_pl (owner)))	1220	if (op->type != FLESH \|\| (owner && owner->is_dragon ()))
1180	buf << describe_resistance (op, 0);	1221	buf << describe_resistance (op, 0);
1181		1222
1182	buf.add_paths ("Attuned", op->path_attuned);	1223	buf.add_paths ("Attuned", op->path_attuned);
1183	buf.add_paths ("Repelled", op->path_repelled);	1224	buf.add_paths ("Repelled", op->path_repelled);
1184	buf.add_paths ("Denied", op->path_denied);	1225	buf.add_paths ("Denied", op->path_denied);
…		…
1191	object::describe_item (object *who)	1232	object::describe_item (object *who)
1192	{	1233	{
1193	return std::string (::describe_item (this, who));	1234	return std::string (::describe_item (this, who));
1194	}	1235	}
1195		1236
		1237	static void
		1238	describe_dump_object (dynbuf &buf, object *ob)
		1239	{
		1240	char *txt = dump_object (ob);
		1241	for (char p = txt; p; ++p) if (p == '\n') p = '\r';
		1242	buf << "\n" << txt << "\n";
		1243
		1244	if (!ob->is_arch ())
		1245	describe_dump_object (buf, ob->arch);
		1246	}
		1247
		1248	std::string
		1249	object::describe (object *who)
		1250	{
		1251	dynbuf_text buf (1024, 1024);
		1252
		1253	buf.printf ("That is: %s.\r", long_desc (who).c_str ());
		1254
		1255	if (custom_name)
		1256	buf.printf ("You call it %s.\r", &custom_name);
		1257
		1258	switch (type)
		1259	{
		1260	case SPELLBOOK:
		1261	if (flag [FLAG_IDENTIFIED] && inv)
		1262	buf.printf ("%s is a %s level %s spell.\r", &inv->name, ordinal (inv->level), &inv->skill);
		1263	break;
		1264
		1265	case BOOK:
		1266	if (msg)
		1267	buf << "Something is written in it.\r";
		1268	break;
		1269
		1270	case CONTAINER:
		1271	if (race)
		1272	{
		1273	if (weight_limit && stats.Str < 100)
		1274	buf.printf ("It can hold only %s and its weight limit is %.1f kg.\r",
		1275	&race, weight_limit / (10.0 * (100 - stats.Str)));
		1276	else
		1277	buf.printf ("It can hold only %s.\r", &race);
		1278	}
		1279	else if (weight_limit && stats.Str < 100)
		1280	buf.printf ("Its weight limit is %.1f kg.\r", weight_limit / (10.0 * (100 - stats.Str)));
		1281	break;
		1282
		1283	case WAND:
		1284	if (flag [FLAG_IDENTIFIED])
		1285	buf.printf ("It has %d %s left.\r", stats.food, stats.food == 1 ? "charge" : "charges");
		1286	break;
		1287	}
		1288
		1289	if (material != MATERIAL_NULL && !msg)
		1290	buf << (nrof > 1 ? "They are made of " : "It is made of ")
		1291	<< material->description
		1292	<< ".\r";
		1293
		1294	if (who)
		1295	/* Where to wear this item */
		1296	for (int i = 0; i < NUM_BODY_LOCATIONS; i++)
		1297	if (slot[i].info)
		1298	{
		1299	buf << (who->slot[i].info ? body_locations[i].use_name : body_locations[i].nonuse_name);
		1300
		1301	if (slot[i].info < -1 && who->slot[i].info)
		1302	buf.printf ("(%d)", -slot[i].info);
		1303
		1304	buf << ".\r";
		1305	}
		1306
		1307	if (weight)
		1308	buf.printf ("%s %3.3f kg.\r", nrof > 1 ? "They weigh" : "It weighs", weight * (nrof ? nrof : 1) / 1000.0);
		1309
		1310	if (flag [FLAG_STARTEQUIP])
		1311	buf << (nrof > 1 ? "They were" : "It was")
		1312	<< " given by a god and will vanish when dropped.\r";
		1313
		1314	if (value && !flag [FLAG_STARTEQUIP] && !flag [FLAG_NO_PICK] && who)
		1315	{
		1316	buf.printf ("You reckon %s worth %s.\r", nrof > 1 ? "they are" : "it is", query_cost_string (this, who, F_TRUE \| F_APPROX));
		1317
		1318	if (who->is_in_shop ())
		1319	{
		1320	if (flag [FLAG_UNPAID])
		1321	buf.printf ("%s would cost you %s.\r", nrof > 1 ? "They" : "It", query_cost_string (this, who, F_BUY \| F_SHOP));
		1322	else
		1323	buf.printf ("You are offered %s for %s.\r", query_cost_string (this, who, F_SELL + F_SHOP), nrof > 1 ? "them" : "it");
		1324	}
		1325	}
		1326
		1327	if (flag [FLAG_MONSTER])
		1328	buf << describe_monster (who);
		1329
		1330	/* Is this item buildable? */
		1331	if (flag [FLAG_IS_BUILDABLE])
		1332	buf << "This is a buildable item.\r";
		1333
		1334	/* Does the object have a message? Don't show message for all object
		1335	* types - especially if the first entry is a match
		1336	*/
		1337	if (msg)
		1338	{
		1339	if (type != EXIT && type != BOOK && type != CORPSE && !move_on && !has_dialogue ())
		1340	{
		1341	if (!need_identify ())
		1342	buf << '\r' << msg << '\n';
		1343	else if (flag [FLAG_IDENTIFIED])
		1344	buf << '\r' << "The object has a story:\r" << msg;
		1345	}
		1346	}
		1347	else if (inv
		1348	&& inv->msg
		1349	&& inv->type == SPELL
		1350	&& flag [FLAG_IDENTIFIED]
		1351	&& (type == SPELLBOOK \|\| type == ROD \|\| type == WAND
		1352	\|\| type == POTION \|\| type == SCROLL))
		1353	// for spellbooks and other stuff that contains spells, print the spell message,
		1354	// unless the object has a custom message handled above.
		1355	buf << '\r' << inv->msg << '\n';
		1356
		1357	// try to display the duration for some potions and scrolls
		1358	// this includes change ability potions and group spells,
		1359	// but does not handle protection potions
		1360	if (inv && inv->type == SPELL && flag [FLAG_IDENTIFIED]
		1361	&& (type == POTION \|\| type == SCROLL))
		1362	{
		1363	object *spell = inv;
		1364
		1365	if (spell->subtype == SP_PARTY_SPELL)
		1366	spell = spell->other_arch;
		1367
		1368	if (spell->subtype == SP_CHANGE_ABILITY)
		1369	buf.printf ("\nH<The effect will last about %.10g seconds.>",
		1370	TICK2TIME (change_ability_duration (spell, this)));
		1371	}
		1372
		1373	// some help text for skill tools
		1374	if (type == SKILL_TOOL)
		1375	buf << "\nH<This item is a skill tool: as long as you have this item applied "
		1376	"you can use the " << &skill << " skill as if you had learned it.>";
		1377
		1378	// Display a hint about inscribable items [empty books]
		1379	// This includes the amount of text they can hold.
		1380	if (type == INSCRIBABLE)
		1381	{
		1382	if (other_arch && other_arch->type == SCROLL)
		1383	buf.printf ("\nH<You can use the inscription skill to inscribe a spell into it.>");
		1384	else
		1385	buf.printf ("\nH<You can use the inscription skill to inscribe text into it. It has room for up to %d characters.>",
		1386	weight_limit);
		1387	}
		1388
		1389	buf << '\n';
		1390
		1391	// the dungeon master additionally gets a complete dump
		1392	if (who && who->flag [FLAG_WIZLOOK])
		1393	{
		1394	buf << "\nT<Object>\n";
		1395	describe_dump_object (buf, this);
		1396
		1397	if (inv)
		1398	{
		1399	buf << "\nT<Top Inventory>\n";
		1400	describe_dump_object (buf, inv);
		1401	}
		1402	}
		1403
		1404	return std::string (buf.linearise (), buf.size ());
		1405	}
		1406
1196	void	1407	void
1197	examine (object op, object tmp)	1408	examine (object op, object tmp)
1198	{	1409	{
1199	std::string s = tmp->describe (op);	1410	std::string info = tmp->describe (op);
1200		1411
1201	new_draw_info (NDI_UNIQUE, 0, op, s.c_str ());	1412	op->contr->infobox (MSG_CHANNEL ("examine"), info.c_str ());
1202	}	1413	}
1203		1414
1204	/*	1415	/*
1205	* inventory prints object's inventory. If inv==NULL then print player's	1416	* inventory prints object's inventory. If inv==NULL then print player's
1206	* inventory.	1417	* inventory.
1207	* [ Only items which are applied are showed. Tero.Haatanen@lut.fi ]	1418	* [ Only items which are applied are showed. Tero.Haatanen@lut.fi ]
1208	*/	1419	*/
1209	const char *	1420	const char *
1210	object::query_inventory (object who, const char indent)	1421	object::query_inventory (object who, const char indent)
1211	{	1422	{
1212	static dynbuf_text buf; buf.clear ();	1423	static dynbuf_text buf; buf.clear ();
1213		1424
1214	for (object *tmp = inv; tmp; tmp = tmp->below)	1425	for (object *tmp = inv; tmp; tmp = tmp->below)
1215	if (who && QUERY_FLAG (who, FLAG_WIZ))	1426	if (who && who->flag [FLAG_WIZ])
1216	buf.printf ("%s- %-28.28s (%5d) %-8s\n", indent, query_name (tmp), tmp->count, query_weight (tmp));	1427	buf.printf ("%s- %-28.28s %-8s (%9d) %s\n", indent, tmp->query_name (), tmp->query_weight (), tmp->count, tmp->uuid.c_str ());
1217	else if (!tmp->invisible && (type == CONTAINER \|\| QUERY_FLAG (tmp, FLAG_APPLIED)))	1428	else if (!tmp->invisible && (type == CONTAINER \|\| tmp->flag [FLAG_APPLIED]))
1218	buf.printf ("%s- %-36.36s %-8s\n", indent, query_name (tmp), query_weight (tmp));	1429	buf.printf ("%s- %-36.36s %-8s\n", indent, tmp->query_name (), tmp->query_weight ());
1219		1430
1220	if (buf.size ())	1431	if (buf.size ())
1221	buf.printf ("%s(total weight: %s)\n", indent, query_weight (this));	1432	buf.printf ("%s(total weight: %s)\n", indent, query_weight ());
1222	else	1433	else
1223	buf.printf ("%s(empty)\n", indent);	1434	buf.printf ("%s(empty)\n", indent);
1224		1435
1225	return buf;	1436	return buf;
1226	}	1437	}
…		…
1235	is_magical (const object *op)	1446	is_magical (const object *op)
1236	{	1447	{
1237	int i;	1448	int i;
1238		1449
1239	/* living creatures are considered non magical */	1450	/* living creatures are considered non magical */
1240	if (QUERY_FLAG (op, FLAG_ALIVE))	1451	if (op->flag [FLAG_ALIVE])
1241	return 0;	1452	return 0;
1242		1453
1243	/* This is a test for it being an artifact, as artifacts have titles */	1454	/* This is a test for it being an artifact, as artifacts have titles */
1244	if (op->title != NULL)	1455	if (op->title != NULL)
1245	return 1;	1456	return 1;
…		…
1251	(op->stats.ac \|\| op->stats.food \|\| op->stats.exp \|\| op->stats.dam \|\| op->stats.wc \|\| op->stats.sp \|\| op->stats.hp \|\| op->stats.luck))	1462	(op->stats.ac \|\| op->stats.food \|\| op->stats.exp \|\| op->stats.dam \|\| op->stats.wc \|\| op->stats.sp \|\| op->stats.hp \|\| op->stats.luck))
1252	return 1;	1463	return 1;
1253		1464
1254	/* Check for stealty, speed, flying, or just plain magic in the boots */	1465	/* Check for stealty, speed, flying, or just plain magic in the boots */
1255	/* Presume any boots that hvae a move_type are special. */	1466	/* Presume any boots that hvae a move_type are special. */
1256	if (op->type == BOOTS && ((QUERY_FLAG (op, FLAG_STEALTH) \|\| op->move_type \|\| op->stats.exp)))	1467	if (op->type == BOOTS && ((op->flag [FLAG_STEALTH] \|\| op->move_type \|\| op->stats.exp)))
1257	return 1;	1468	return 1;
1258		1469
1259	/* Take care of amulet/shield that reflects spells/missiles */	1470	/* Take care of amulet/shield that reflects spells/missiles */
1260	if ((op->type == AMULET \|\| op->type == SHIELD) && (QUERY_FLAG (op, FLAG_REFL_SPELL) \|\| QUERY_FLAG (op, FLAG_REFL_MISSILE)))	1471	if ((op->type == AMULET \|\| op->type == SHIELD) && (op->flag [FLAG_REFL_SPELL] \|\| op->flag [FLAG_REFL_MISSILE]))
1261	return 1;	1472	return 1;
1262		1473
1263	/* Take care of helmet of xrays */	1474	/* Take care of helmet of xrays */
1264	if (op->type == HELMET && QUERY_FLAG (op, FLAG_XRAYS))	1475	if (op->type == HELMET && op->flag [FLAG_XRAYS])
1265	return 1;	1476	return 1;
1266		1477
1267	/* Potions & rods are always magical. Wands/staves are also magical,	1478	/* Potions & rods are always magical. Wands/staves are also magical,
1268	* assuming they still have any charges left.	1479	* assuming they still have any charges left.
1269	*/	1480	*/
…		…
1298	* be non magical.	1509	* be non magical.
1299	*/	1510	*/
1300	return 0;	1511	return 0;
1301	}	1512	}
1302		1513
1303	/* need_identify returns true if the item should be identified. This
1304	* function really should not exist - by default, any item not identified
1305	* should need it.
1306	*/
1307
1308	int
1309	need_identify (const object *op)
1310	{
1311	switch (op->type)
1312	{
1313	case RING:
1314	case WAND:
1315	case ROD:
1316	case HORN:
1317	case SCROLL:
1318	case SKILL:
1319	case SKILLSCROLL:
1320	case SPELLBOOK:
1321	case FOOD:
1322	case POTION:
1323	case BOW:
1324	case ARROW:
1325	case WEAPON:
1326	case ARMOUR:
1327	case SHIELD:
1328	case HELMET:
1329	case AMULET:
1330	case BOOTS:
1331	case GLOVES:
1332	case BRACERS:
1333	case GIRDLE:
1334	case CONTAINER:
1335	case DRINK:
1336	case FLESH:
1337	case INORGANIC:
1338	case CLOSE_CON:
1339	case CLOAK:
1340	case GEM:
1341	case POWER_CRYSTAL:
1342	case POISON:
1343	case BOOK:
1344	case SKILL_TOOL:
1345	return 1;
1346	}
1347
1348	/* Try to track down some stuff that may show up here. Thus, the
1349	* archetype file can be updated, and this function removed.
1350	*/
1351	#if 0
1352	LOG (llevDebug, "need_identify: %s does not need to be id'd\n", op->name);
1353	#endif
1354	return 0;
1355	}
1356
1357	/*	1514	/*
1358	* Supposed to fix face-values as well here, but later.	1515	* Supposed to fix face-values as well here, but later.
1359	*/	1516	*/
1360	void	1517	void
1361	identify (object *op)	1518	identify (object *op)
1362	{	1519	{
1363	object *pl;	1520	op->set_flag (FLAG_IDENTIFIED);
1364		1521	op->clr_flag (FLAG_KNOWN_MAGICAL);
1365	SET_FLAG (op, FLAG_IDENTIFIED);	1522	op->clr_flag (FLAG_NO_SKILL_IDENT);
1366	CLEAR_FLAG (op, FLAG_KNOWN_MAGICAL);
1367	CLEAR_FLAG (op, FLAG_NO_SKILL_IDENT);
1368		1523
1369	/*	1524	/*
1370	* We want autojoining of equal objects:	1525	* We want autojoining of equal objects:
1371	*/	1526	*/
1372	if (QUERY_FLAG (op, FLAG_CURSED) \|\| QUERY_FLAG (op, FLAG_DAMNED))	1527	if (op->flag [FLAG_CURSED] \|\| op->flag [FLAG_DAMNED])
1373	SET_FLAG (op, FLAG_KNOWN_CURSED);	1528	op->set_flag (FLAG_KNOWN_CURSED);
1374		1529
1375	if (op->type == POTION)	1530	if (op->type == POTION)
1376	{	1531	{
1377	if (op->inv && op->randomitems)	1532	if (op->inv && op->randomitems)
1378	op->title = op->inv->name;	1533	op->title = op->inv->name;
1379	else if (op->arch)	1534	else if (op->arch)
1380	{	1535	{
1381	op->name = op->arch->object::name;	1536	op->name = op->arch->object::name;
1382	op->name_pl = op->arch->object::name_pl;	1537	op->name_pl = op->arch->object::name_pl;
1383	}	1538	}
1384	}	1539	}
1385		1540
1386	/* If the object is on a map, make sure we update its face */	1541	/* If the object is on a map, make sure we update its face */
1387	if (op->map)	1542	if (op->map)
1388	update_object (op, UP_OBJ_CHANGE);	1543	update_object (op, UP_OBJ_CHANGE);
1389	else	1544
1390	{	1545	if (object *pl = op->visible_to ())
1391	pl = op->in_player ();
1392	if (pl)
1393	/* A lot of the values can change from an update - might as well send	1546	/* A lot of the values can change from an update - might as well send
1394	* it all.	1547	* it all.
1395	*/	1548	*/
1396	esrv_send_item (pl, op);	1549	esrv_send_item (pl, op);
1397	}
1398	}	1550	}
1399		1551

Diff Legend

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+Removed lines
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+Changed lines
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+Changed lines

Comparing deliantra/server/common/item.C (file contents): Revision 1.44 by root, Sun Apr 13 21:22:47 2008 UTC vs. Revision 1.100 by root, Sat Nov 17 23:40:00 2018 UTC

Diff Legend

Comparing deliantra/server/common/item.C (file contents):
Revision 1.44 by root, Sun Apr 13 21:22:47 2008 UTC vs.
Revision 1.100 by root, Sat Nov 17 23:40:00 2018 UTC