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

Comparing deliantra/server/common/utils.C (file contents):
Revision 1.1 by elmex, Sun Aug 13 17:16:01 2006 UTC vs.
Revision 1.44 by root, Thu Jan 25 03:54:44 2007 UTC

…		…
1	/*	1	/*
2	* static char *rcsid_utils_c =
3	* "$Id: utils.C,v 1.1 2006/08/13 17:16:01 elmex Exp $";
4	*/
5
6	/*
7	CrossFire, A Multiplayer game for X-windows	2	* CrossFire, A Multiplayer game for X-windows
8		3	*
		4	* Copyright (C) 2005, 2006, 2007 Marc Lehmann & Crossfire+ Development Team
9	Copyright (C) 2002 Mark Wedel & Crossfire Development Team	5	* Copyright (C) 2002 Mark Wedel & Crossfire Development Team
10	Copyright (C) 1992 Frank Tore Johansen	6	* Copyright (C) 1992 Frank Tore Johansen
11		7	*
12	This program is free software; you can redistribute it and/or modify	8	* This program is free software; you can redistribute it and/or modify
13	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
14	the Free Software Foundation; either version 2 of the License, or	10	* the Free Software Foundation; either version 2 of the License, or
15	(at your option) any later version.	11	* (at your option) any later version.
16		12	*
17	This program is distributed in the hope that it will be useful,	13	* This program is distributed in the hope that it will be useful,
18	but WITHOUT ANY WARRANTY; without even the implied warranty of	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
19	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20	GNU General Public License for more details.	16	* GNU General Public License for more details.
21		17	*
22	You should have received a copy of the GNU General Public License	18	* You should have received a copy of the GNU General Public License
23	along with this program; if not, write to the Free Software	19	* along with this program; if not, write to the Free Software
24	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.	20	* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25		21	*
26	The authors can be reached via e-mail at crossfire-devel@real-time.com	22	* The authors can be reached via e-mail at <crossfire@schmorp.de>
27	*/	23	*/
28		24
29	/*	25	/*
30	* General convenience functions for crossfire.	26	* General convenience functions for crossfire.
31	*/	27	*/
		28
		29	#include <cstdlib>
		30	#include <sys/types.h>
		31	#include <unistd.h>
		32	#include <sys/time.h>
		33	#include <time.h>
		34	#include <signal.h>
32		35
33	#include <global.h>	36	#include <global.h>
34	#include <funcpoint.h>	37	#include <funcpoint.h>
35	#include <material.h>	38	#include <material.h>
		39
		40	#include <glib.h>
		41
		42	rand_gen rndm;
		43
		44	void
		45	tausworthe_random_generator::seed (uint32_t seed)
		46	{
		47	state [0] = max ( 2U, seed * 69069U);
		48	state [1] = max ( 8U, state [0] * 69069U);
		49	state [2] = max ( 16U, state [1] * 69069U);
		50	state [3] = max (128U, state [2] * 69069U);
		51
		52	for (int i = 11; --i; )
		53	operator ()();
		54	}
		55
		56	uint32_t
		57	tausworthe_random_generator::next ()
		58	{
		59	state [0] = ((state [0] & 0xFFFFFFFEU) << 18U) ^ (((state [0] << 6U) ^ state [0]) >> 13U);
		60	state [1] = ((state [1] & 0xFFFFFFF8U) << 2U) ^ (((state [1] << 2U) ^ state [1]) >> 27U);
		61	state [2] = ((state [2] & 0xFFFFFFF0U) << 7U) ^ (((state [2] << 13U) ^ state [2]) >> 21U);
		62	state [3] = ((state [3] & 0xFFFFFF80U) << 13U) ^ (((state [3] << 3U) ^ state [3]) >> 12U);
		63
		64	return state [0] ^ state [1] ^ state [2] ^ state [3];
		65	}
		66
		67	uint32_t
		68	tausworthe_random_generator::get_range (uint32_t r_max)
		69	{
		70	return next () % r_max;
		71	}
		72
		73	// return a number within (min .. max)
		74	int
		75	tausworthe_random_generator::get_range (int r_min, int r_max)
		76	{
		77	return r_min + (*this) (max (r_max - r_min + 1, 1));
		78	}
36		79
37	/*	80	/*
38	* The random functions here take luck into account when rolling random	81	* The random functions here take luck into account when rolling random
39	* dice or numbers. This function has less of an impact the larger the	82	* dice or numbers. This function has less of an impact the larger the
40	* difference becomes in the random numbers. IE, the effect is lessened	83	* difference becomes in the random numbers. IE, the effect is lessened
47	* Roll a random number between min and max. Uses op to determine luck,	90	* Roll a random number between min and max. Uses op to determine luck,
48	* and if goodbad is non-zero, luck increases the roll, if zero, it decreases.	91	* and if goodbad is non-zero, luck increases the roll, if zero, it decreases.
49	* Generally, op should be the player/caster/hitter requesting the roll,	92	* Generally, op should be the player/caster/hitter requesting the roll,
50	* not the recipient (ie, the poor slob getting hit). [garbled 20010916]	93	* not the recipient (ie, the poor slob getting hit). [garbled 20010916]
51	*/	94	*/
52		95	int
53	int random_roll(int min, int max, const object *op, int goodbad) {	96	random_roll (int r_min, int r_max, const object *op, int goodbad)
54	int omin, diff, luck, base, ran;	97	{
		98	int base = r_max - r_min > 1 ? 20 : 50; /* d2 and d3 are corner cases */
55		99
56	omin = min;	100	if (r_max < 1 \|\| r_max < r_min)
57	diff = max - min + 1;	101	{
58	((diff > 2) ? (base = 20) : (base = 50)); /* d2 and d3 are corner cases */
59
60	if (max < 1 \|\| diff < 1) {
61	LOG(llevError, "Calling random_roll with min=%d max=%d\n", min, max);	102	LOG (llevError, "Calling random_roll with min=%d max=%d\n", r_min, r_max);
62	return(min); /* avoids a float exception */	103	return r_min;
63	}	104	}
64		105
65	ran = RANDOM();
66
67	if (op->type != PLAYER)	106	if (op->type == PLAYER)
68	return((ran%diff)+min);	107	{
69
70	luck = op->stats.luck;	108	int luck = op->stats.luck;
71	if (RANDOM()%base < MIN(10, abs(luck))) {
72	/* we have a winner */
73	((luck > 0) ? (luck = 1) : (luck = -1));
74	diff -= luck;
75	if (diff < 1)
76	return(omin); /check again/
77	((goodbad) ? (min += luck) : (diff));
78		109
79	return(MAX(omin, MIN(max, (ran%diff)+min)));	110	if (rndm (base) < min (10, abs (luck)))
		111	{
		112	//TODO: take luck into account
		113	}
80	}	114	}
81	return((ran%diff)+min);	115
		116	return rndm (r_min, r_max);
82	}	117	}
83		118
84	/*	119	/*
85	* This is a 64 bit version of random_roll above. This is needed	120	* This is a 64 bit version of random_roll above. This is needed
86	* for exp loss calculations for players changing religions.	121	* for exp loss calculations for players changing religions.
87	*/	122	*/
88		123
		124	sint64
89	sint64 random_roll64(sint64 min, sint64 max, const object *op, int goodbad) {	125	random_roll64 (sint64 min, sint64 max, const object *op, int goodbad)
		126	{
90	sint64 omin, diff, luck, ran;	127	sint64 omin, diff, luck, ran;
91	int base;	128	int base;
92		129
93	omin = min;	130	omin = min;
94	diff = max - min + 1;	131	diff = max - min + 1;
95	((diff > 2) ? (base = 20) : (base = 50)); /* d2 and d3 are corner cases */	132	((diff > 2) ? (base = 20) : (base = 50)); /* d2 and d3 are corner cases */
96		133
97	if (max < 1 \|\| diff < 1) {	134	if (max < 1 \|\| diff < 1)
98	#ifndef WIN32	135	{
99	LOG(llevError, "Calling random_roll with min=%lld max=%lld\n", min, max);
100	#else
101	LOG(llevError, "Calling random_roll with min=%I64d max=%I64d\n", min, max);	136	LOG (llevError, "Calling random_roll with min=%" PRId64 " max=%" PRId64 "\n", min, max);
102	#endif
103	return(min); /* avoids a float exception */	137	return (min); /* avoids a float exception */
104	}	138	}
105		139
106	/* Don't know of a portable call to get 64 bit random values.	140	/* Don't know of a portable call to get 64 bit random values.
107	* So make a call to get two 32 bit random numbers, and just to	141	* So make a call to get two 32 bit random numbers, and just to
108	* a little byteshifting. Do make sure the first one is only	142	* a little byteshifting. Do make sure the first one is only
109	* 32 bit, so we don't get skewed results	143	* 32 bit, so we don't get skewed results
110	*/	144	*/
111	ran = (RANDOM() & 0xffffffff) \| ((sint64)RANDOM() << 32);	145	ran = (RANDOM () & 0xffffffff) \| ((sint64) RANDOM () << 32);
112		146
113	if (op->type != PLAYER)	147	if (op->type != PLAYER)
114	return((ran%diff)+min);	148	return ((ran % diff) + min);
115		149
116	luck = op->stats.luck;	150	luck = op->stats.luck;
117	if (RANDOM()%base < MIN(10, abs(luck))) {	151	if (RANDOM () % base < MIN (10, abs (luck)))
		152	{
118	/* we have a winner */	153	/* we have a winner */
119	((luck > 0) ? (luck = 1) : (luck = -1));	154	((luck > 0) ? (luck = 1) : (luck = -1));
120	diff -= luck;	155	diff -= luck;
121	if (diff < 1)	156	if (diff < 1)
122	return(omin); /check again/	157	return (omin); /check again /
123	((goodbad) ? (min += luck) : (diff));	158	((goodbad) ? (min += luck) : (diff));
124		159
125	return(MAX(omin, MIN(max, (ran%diff)+min)));	160	return (MAX (omin, MIN (max, (ran % diff) + min)));
126	}	161	}
127	return((ran%diff)+min);	162	return ((ran % diff) + min);
128	}	163	}
129		164
130	/*	165	/*
131	* Roll a number of dice (2d3, 4d6). Uses op to determine luck,	166	* Roll a number of dice (2d3, 4d6). Uses op to determine luck,
132	* If goodbad is non-zero, luck increases the roll, if zero, it decreases.	167	* If goodbad is non-zero, luck increases the roll, if zero, it decreases.
133	* Generally, op should be the player/caster/hitter requesting the roll,	168	* Generally, op should be the player/caster/hitter requesting the roll,
134	* not the recipient (ie, the poor slob getting hit).	169	* not the recipient (ie, the poor slob getting hit).
135	* The args are num D size (ie 4d6) [garbled 20010916]	170	* The args are num D size (ie 4d6) [garbled 20010916]
136	*/	171	*/
137		172
		173	int
138	int die_roll(int num, int size, const object *op, int goodbad) {	174	die_roll (int num, int size, const object *op, int goodbad)
		175	{
139	int min, diff, luck, total, i, gotlucky, base, ran;	176	int min, diff, luck, total, i, gotlucky, base, ran;
140		177
141	diff = size;	178	diff = size;
142	min = 1;	179	min = 1;
143	luck = total = gotlucky = 0;	180	luck = total = gotlucky = 0;
144	((diff > 2) ? (base = 20) : (base = 50)); /* d2 and d3 are corner cases */	181	((diff > 2) ? (base = 20) : (base = 50)); /* d2 and d3 are corner cases */
145	if (size < 2 \|\| diff < 1) {	182	if (size < 2 \|\| diff < 1)
		183	{
146	LOG(llevError, "Calling die_roll with num=%d size=%d\n", num, size);	184	LOG (llevError, "Calling die_roll with num=%d size=%d\n", num, size);
147	return(num); /* avoids a float exception */	185	return (num); /* avoids a float exception */
148	}	186	}
149		187
150	if (op->type == PLAYER)	188	if (op->type == PLAYER)
151	luck = op->stats.luck;	189	luck = op->stats.luck;
152		190
153	for (i = 0; i < num; i++) {	191	for (i = 0; i < num; i++)
		192	{
154	if (RANDOM()%base < MIN(10, abs(luck)) && !gotlucky) {	193	if (RANDOM () % base < MIN (10, abs (luck)) && !gotlucky)
		194	{
155	/* we have a winner */	195	/* we have a winner */
156	gotlucky++;	196	gotlucky++;
157	((luck > 0) ? (luck = 1) : (luck = -1));	197	((luck > 0) ? (luck = 1) : (luck = -1));
158	diff -= luck;	198	diff -= luck;
159	if (diff < 1)	199	if (diff < 1)
160	return(num); /check again/	200	return (num); /check again /
161	((goodbad) ? (min += luck) : (diff));	201	((goodbad) ? (min += luck) : (diff));
162	ran = RANDOM();	202	ran = RANDOM ();
163	total += MAX(1, MIN(size, (ran%diff)+min));	203	total += MAX (1, MIN (size, (ran % diff) + min));
164	} else {	204	}
		205	else
		206	{
165	total += RANDOM()%size+1;	207	total += RANDOM () % size + 1;
166	}	208	}
167	}	209	}
168	return(total);	210	return (total);
169	}	211	}
170		212
171	/*
172	* Another convenience function. Returns a number between min and max.
173	* It is suggested one use these functions rather than RANDOM()%, as it
174	* would appear that a number of off-by-one-errors exist due to improper
175	* use of %. This should also prevent SIGFPE.
176	*/
177
178	int rndm(int min, int max)
179	{
180	int diff;
181
182	diff = max - min + 1;
183	if (max < 1 \|\| diff < 1)
184	return(min);
185
186	return(RANDOM()%diff+min);
187	}
188
189	/* decay and destroy persihable items in a map */	213	/* decay and destroy perishable items in a map */
190		214	void
191	void decay_objects(mapstruct *m)	215	maptile::decay_objects ()
192	{	216	{
193	int x, y, destroy;	217	if (!spaces)
194	object op, otmp;	218	return;
195		219
196	if (m->unique)	220	for (mapspace *ms = spaces + size (); ms-- > spaces; )
197	return;	221	for (object above, op = ms->bot; op; op = above)
		222	{
		223	above = op->above;
198		224
199	for (x=0; x < MAP_WIDTH(m); x++)	225	bool destroy = 0;
200	for (y=0; y < MAP_HEIGHT(m); y++)	226
201	for (op = get_map_ob(m, x, y); op; op = otmp) {	227	// do not decay anything above unique floor tiles (yet :)
202	destroy = 0;
203	otmp = op->above;
204	if (QUERY_FLAG(op,FLAG_IS_FLOOR) && QUERY_FLAG(op, FLAG_UNIQUE))	228	if (QUERY_FLAG (op, FLAG_IS_FLOOR) && QUERY_FLAG (op, FLAG_UNIQUE))
205	break;	229	break;
		230
206	if (QUERY_FLAG(op, FLAG_IS_FLOOR) \|\|	231	if (QUERY_FLAG (op, FLAG_IS_FLOOR)
207	QUERY_FLAG(op, FLAG_OBJ_ORIGINAL) \|\|	232	\|\| QUERY_FLAG (op, FLAG_OBJ_ORIGINAL)
208	QUERY_FLAG(op, FLAG_OBJ_SAVE_ON_OVL) \|\|	233	\|\| QUERY_FLAG (op, FLAG_OBJ_SAVE_ON_OVL)
209	QUERY_FLAG(op, FLAG_UNIQUE) \|\|	234	\|\| QUERY_FLAG (op, FLAG_UNIQUE)
210	QUERY_FLAG(op, FLAG_OVERLAY_FLOOR) \|\|	235	\|\| QUERY_FLAG (op, FLAG_OVERLAY_FLOOR)
211	QUERY_FLAG(op, FLAG_UNPAID) \|\| IS_LIVE(op))	236	\|\| QUERY_FLAG (op, FLAG_UNPAID)
212	continue;	237	\|\| op->is_alive ())
213	/* otherwise, we decay and destroy */	238	; // do not decay
214	if (IS_WEAPON(op)) {	239	else if (op->is_weapon ())
		240	{
215	op->stats.dam--;	241	op->stats.dam--;
216	if (op->stats.dam < 0)	242	if (op->stats.dam < 0)
217	destroy = 1;	243	destroy = 1;
218	} else if (IS_ARMOR(op)) {	244	}
		245	else if (op->is_armor ())
		246	{
219	op->stats.ac--;	247	op->stats.ac--;
220	if (op->stats.ac < 0)	248	if (op->stats.ac < 0)
221	destroy = 1;	249	destroy = 1;
		250	}
222	} else if (op->type == FOOD) {	251	else if (op->type == FOOD)
		252	{
223	op->stats.food -= rndm(5,20);	253	op->stats.food -= rndm (5, 20);
224	if (op->stats.food < 0)	254	if (op->stats.food < 0)
225	destroy = 1;	255	destroy = 1;
226	} else {	256	}
227	if (op->material & M_PAPER \|\| op->material & M_LEATHER \|\|	257	else
228	op->material & M_WOOD \|\| op->material & M_ORGANIC \|\|	258	{
229	op->material & M_CLOTH \|\| op->material & M_LIQUID)	259	int mat = op->material;
230	destroy = 1;	260
231	if (op->material & M_IRON && rndm(1,5) == 1)	261	if (mat & M_PAPER
232	destroy = 1;	262	\|\| mat & M_LEATHER
233	if (op->material & M_GLASS && rndm(1,2) == 1)	263	\|\| mat & M_WOOD
234	destroy = 1;	264	\|\| mat & M_ORGANIC
235	if ((op->material & M_STONE \|\| op->material & M_ADAMANT) &&	265	\|\| mat & M_CLOTH
236	rndm(1,10) == 1)	266	\|\| mat & M_LIQUID
237	destroy = 1;	267	\|\| (mat & M_IRON && rndm (1, 5) == 1)
238	if ((op->material & M_SOFT_METAL \|\| op->material & M_BONE) &&	268	\|\| (mat & M_GLASS && rndm (1, 2) == 1)
239	rndm(1,3) == 1)	269	\|\| ((mat & M_STONE \|\| mat & M_ADAMANT) && rndm (1, 10) == 1)
240	destroy = 1;	270	\|\| ((mat & M_SOFT_METAL \|\| mat & M_BONE) && rndm (1, 3) == 1)
241	if (op->material & M_ICE && MAP_TEMP(m) > 32)	271	\|\| (mat & M_ICE && temp > 32))
242	destroy = 1;	272	destroy = 1;
243	}	273	}
		274
244	/* adjust overall chance below */	275	/* adjust overall chance below */
245	if (destroy && rndm(0, 1)) {	276	if (destroy && rndm (0, 1))
246	remove_ob(op);	277	op->destroy ();
247	free_object(op);
248	}
249	}	278	}
250	}	279	}
251		280
252	/* convert materialname to materialtype_t */	281	/* convert materialname to materialtype_t */
253		282
		283	materialtype_t *
254	materialtype_t name_to_material(const char name)	284	name_to_material (const char *name)
255	{	285	{
256	materialtype_t mt, nmt;	286	materialtype_t mt, nmt;
257		287
258	mt = NULL;	288	mt = NULL;
259	for (nmt = materialt; nmt != NULL && nmt->next != NULL; nmt=nmt->next) {	289	for (nmt = materialt; nmt != NULL && nmt->next != NULL; nmt = nmt->next)
		290	{
260	if (strcmp(name, nmt->name) == 0) {	291	if (strcmp (name, nmt->name) == 0)
		292	{
261	mt = nmt;	293	mt = nmt;
262	break;	294	break;
263	}	295	}
264	}	296	}
265	return mt;	297	return mt;
266	}	298	}
267		299
268	/* when doing transmutation of objects, we have to recheck the resistances,	300	/* when doing transmutation of objects, we have to recheck the resistances,
269	* as some that did not apply previously, may apply now.	301	* as some that did not apply previously, may apply now.
270	*/	302	*/
271		303
		304	void
272	void transmute_materialname(object op, const object change)	305	transmute_materialname (object op, const object change)
273	{	306	{
274	materialtype_t *mt;	307	materialtype_t *mt;
275	int j;	308	int j;
276		309
277	if (op->materialname == NULL)	310	if (op->materialname == NULL)
278	return;	311	return;
279		312
280	if (change->materialname != NULL &&	313	if (change->materialname != NULL && strcmp (op->materialname, change->materialname))
281	strcmp(op->materialname, change->materialname))	314	return;
282	return;
283		315
284	if (!IS_ARMOR(op))	316	if (!op->is_armor ())
285	return;	317	return;
286		318
287	mt = name_to_material(op->materialname);	319	mt = name_to_material (op->materialname);
288	if (!mt) {	320	if (!mt)
		321	{
289	LOG(llevError, "archetype '%s>%s' uses nonexistent material '%s'\n", op->arch->name, op->name, op->materialname);	322	LOG (llevError, "archetype '%s>%s' uses nonexistent material '%s'\n", &op->arch->name, &op->name, &op->materialname);
290	return;	323	return;
291	}	324	}
292		325
293	for (j=0; j < NROFATTACKS; j++)	326	for (j = 0; j < NROFATTACKS; j++)
294	if (op->resist[j] == 0 && change->resist[j] != 0) {	327	if (op->resist[j] == 0 && change->resist[j] != 0)
		328	{
295	op->resist[j] += mt->mod[j];	329	op->resist[j] += mt->mod[j];
296	if (op->resist[j] > 100)	330	if (op->resist[j] > 100)
297	op->resist[j] = 100;	331	op->resist[j] = 100;
298	if (op->resist[j] < -100)	332	if (op->resist[j] < -100)
299	op->resist[j] = -100;	333	op->resist[j] = -100;
300	}	334	}
301	}	335	}
302		336
303	/* set the materialname and type for an item */	337	/* set the materialname and type for an item */
		338	void
304	void set_materialname(object op, int difficulty, materialtype_t nmt)	339	set_materialname (object op, int difficulty, materialtype_t nmt)
305	{	340	{
306	materialtype_t mt, lmt;	341	materialtype_t mt, lmt;
		342
		343	#ifdef NEW_MATERIAL_CODE
307	int j;	344	int j;
		345	#endif
308		346
309	if (op->materialname != NULL)	347	if (op->materialname != NULL)
310	return;	348	return;
311		349
312		350
313		351
314	if (nmt == NULL) {	352	if (nmt == NULL)
		353	{
315	lmt = NULL;	354	lmt = NULL;
316	#ifndef NEW_MATERIAL_CODE	355	#ifndef NEW_MATERIAL_CODE
317	for (mt = materialt; mt != NULL && mt->next != NULL; mt=mt->next) {	356	for (mt = materialt; mt != NULL && mt->next != NULL; mt = mt->next)
		357	{
318	if (op->material & mt->material) {	358	if (op->material & mt->material)
319	lmt = mt;	359	{
320	break;	360	lmt = mt;
321	}	361	break;
322	}	362	}
		363	}
323		364
324	#else	365	#else
325	for (mt = materialt; mt != NULL && mt->next != NULL; mt=mt->next) {	366	for (mt = materialt; mt != NULL && mt->next != NULL; mt = mt->next)
		367	{
326	if (op->material & mt->material && rndm(1, 100) <= mt->chance &&	368	if (op->material & mt->material && rndm (1, 100) <= mt->chance &&
327	difficulty >= mt->difficulty &&	369	difficulty >= mt->difficulty && (op->magic >= mt->magic \|\| mt->magic == 0))
328	(op->magic >= mt->magic \|\| mt->magic == 0)) {	370	{
329	lmt = mt;	371	lmt = mt;
330	if (!(IS_WEAPON(op) \|\| IS_ARMOR(op)))	372	if (!(op->is_weapon () \|\| op->is_armor ()))
331	break;	373	break;
332	}	374	}
333	}	375	}
334	#endif	376	#endif
335	} else {	377	}
336	lmt = nmt;	378	else
337	}	379	{
		380	lmt = nmt;
		381	}
338		382
339	if (lmt != NULL) {	383	if (lmt != NULL)
		384	{
340	#ifndef NEW_MATERIAL_CODE	385	#ifndef NEW_MATERIAL_CODE
341	op->materialname = add_string(lmt->name);	386	op->materialname = lmt->name;
342	return;	387	return;
343	#else	388	#else
344		389
345	if (op->stats.dam && IS_WEAPON(op)) {	390	if (op->stats.dam && op->is_weapon ())
		391	{
346	op->stats.dam += lmt->damage;	392	op->stats.dam += lmt->damage;
347	if (op->stats.dam < 1)	393	if (op->stats.dam < 1)
348	op->stats.dam = 1;	394	op->stats.dam = 1;
349	}	395	}
350	if (op->stats.sp && op->type == BOW)	396	if (op->stats.sp && op->type == BOW)
351	op->stats.sp += lmt->sp;	397	op->stats.sp += lmt->sp;
352	if (op->stats.wc && IS_WEAPON(op))	398	if (op->stats.wc && op->is_weapon ())
353	op->stats.wc += lmt->wc;	399	op->stats.wc += lmt->wc;
354	if (IS_ARMOR(op)) {	400	if (op->is_armor ())
		401	{
355	if (op->stats.ac)	402	if (op->stats.ac)
356	op->stats.ac += lmt->ac;	403	op->stats.ac += lmt->ac;
357	for (j=0; j < NROFATTACKS; j++)	404	for (j = 0; j < NROFATTACKS; j++)
358	if (op->resist[j] != 0) {	405	if (op->resist[j] != 0)
		406	{
359	op->resist[j] += lmt->mod[j];	407	op->resist[j] += lmt->mod[j];
360	if (op->resist[j] > 100)	408	if (op->resist[j] > 100)
361	op->resist[j] = 100;	409	op->resist[j] = 100;
362	if (op->resist[j] < -100)	410	if (op->resist[j] < -100)
363	op->resist[j] = -100;	411	op->resist[j] = -100;
364	}	412	}
365	}	413	}
366	op->materialname = add_string(lmt->name);	414	op->materialname = add_string (lmt->name);
367	/* dont make it unstackable if it doesn't need to be */	415	/* dont make it unstackable if it doesn't need to be */
368	if (IS_WEAPON(op) \|\| IS_ARMOR(op)) {	416	if (op->is_weapon () \|\| op->is_armor ())
		417	{
369	op->weight = (op->weight * lmt->weight)/100;	418	op->weight = (op->weight * lmt->weight) / 100;
370	op->value = (op->value * lmt->value)/100;	419	op->value = (op->value * lmt->value) / 100;
371	}	420	}
372	#endif	421	#endif
373	}	422	}
374	}	423	}
375		424
376	/*	425	/*
377	* Strip out the media tags from a String.	426	* Strip out the media tags from a String.
378	* Warning the input string will contain the result string	427	* Warning the input string will contain the result string
379	*/	428	*/
		429	void
380	void strip_media_tag(char *message){	430	strip_media_tag (char *message)
		431	{
381	int in_tag=0;	432	int in_tag = 0;
382	char* dest;	433	char *dest;
383	char* src;	434	char *src;
		435
384	src=dest=message;	436	src = dest = message;
385	while (*src!='\0'){	437	while (*src != '\0')
		438	{
386	if (*src=='['){	439	if (*src == '[')
		440	{
387	in_tag=1;	441	in_tag = 1;
		442	}
388	} else if (in_tag && (*src==']'))	443	else if (in_tag && (*src == ']'))
389	in_tag=0;	444	in_tag = 0;
390	else if (!in_tag){	445	else if (!in_tag)
		446	{
391	dest=src;	447	dest = src;
392	dest++;	448	dest++;
393	}	449	}
394	src++;	450	src++;
395	}	451	}
396	*dest='\0';	452	*dest = '\0';
397	}	453	}
398		454
		455	const char *
399	const char* strrstr(const char* haystack, const char* needle){	456	strrstr (const char haystack, const char needle)
		457	{
400	const char* lastneedle;	458	const char *lastneedle;
		459
401	lastneedle=NULL;	460	lastneedle = NULL;
402	while((haystack=strstr(haystack,needle))!=NULL){	461	while ((haystack = strstr (haystack, needle)) != NULL)
		462	{
403	lastneedle=haystack;	463	lastneedle = haystack;
404	haystack++;	464	haystack++;
405	}	465	}
406	return lastneedle;	466	return lastneedle;
407		467
408	}	468	}
		469
409	#define EOL_SIZE (sizeof("\n")-1)	470	#define EOL_SIZE (sizeof("\n")-1)
		471	void
410	void strip_endline(char* buf){	472	strip_endline (char *buf)
		473	{
411	if (strlen(buf)<sizeof("\n")){	474	if (strlen (buf) < sizeof ("\n"))
		475	{
412	return;	476	return;
413	}	477	}
414	if (!strcmp(buf+strlen(buf)-EOL_SIZE,"\n"))	478	if (!strcmp (buf + strlen (buf) - EOL_SIZE, "\n"))
415	buf[strlen(buf)-EOL_SIZE]='\0';	479	buf[strlen (buf) - EOL_SIZE] = '\0';
416	}	480	}
417		481
418	/**	482	/**
419	* Replace in string src all occurrences of key by replacement. The resulting	483	* Replace in string src all occurrences of key by replacement. The resulting
420	* string is put into result; at most resultsize characters (including the	484	* string is put into result; at most resultsize characters (including the
421	* terminating null character) will be written to result.	485	* terminating null character) will be written to result.
422	*/	486	*/
		487	void
423	void replace(const char src, const char key, const char replacement, char result, size_t resultsize)	488	replace (const char src, const char key, const char replacement, char result, size_t resultsize)
424	{	489	{
425	size_t resultlen;	490	size_t resultlen;
426	size_t keylen;	491	size_t keylen;
427		492
428	/* special case to prevent infinite loop if key==replacement=="" */	493	/* special case to prevent infinite loop if key==replacement=="" */
429	if(strcmp(key, replacement) == 0)	494	if (strcmp (key, replacement) == 0)
430	{	495	{
431	snprintf(result, resultsize, "%s", src);	496	snprintf (result, resultsize, "%s", src);
432	return;	497	return;
433	}	498	}
434		499
435	keylen = strlen(key);	500	keylen = strlen (key);
436		501
437	resultlen = 0;	502	resultlen = 0;
438	while(*src != '\0' && resultlen+1 < resultsize)	503	while (*src != '\0' && resultlen + 1 < resultsize)
439	{	504	{
440	if(strncmp(src, key, keylen) == 0)	505	if (strncmp (src, key, keylen) == 0)
441	{	506	{
442	snprintf(result+resultlen, resultsize-resultlen, "%s", replacement);	507	snprintf (result + resultlen, resultsize - resultlen, "%s", replacement);
443	resultlen += strlen(result+resultlen);	508	resultlen += strlen (result + resultlen);
444	src += keylen;	509	src += keylen;
445	}	510	}
446	else	511	else
447	{	512	{
448	result[resultlen++] = *src++;	513	result[resultlen++] = *src++;
449	}	514	}
450	}	515	}
451	result[resultlen] = '\0';	516	result[resultlen] = '\0';
452	}	517	}
453		518
454	/**	519	/**
455	* Taking a string as an argument, mutate it into a string that looks like a list.	520	* Taking a string as an argument, mutate it into a string that looks like a list.
456	* a 'list' for the purposes here, is a string of items, seperated by commas, except	521	* a 'list' for the purposes here, is a string of items, seperated by commas, except
457	* for the last entry, which has an 'and' before it, and a full stop (period) after it.	522	* for the last entry, which has an 'and' before it, and a full stop (period) after it.
458	* This function will also strip all trailing non alphanumeric characters.	523	* This function will also strip all trailing non alphanumeric characters.
459	* It does not insert an oxford comma.	524	* It does not insert an oxford comma.
460	*/	525	*/
461		526
		527	void
462	void make_list_like(char *input) {	528	make_list_like (char *input)
		529	{
463	char *p, tmp[MAX_BUF];	530	char *p, tmp[MAX_BUF];
464	int i;	531	int i;
		532
465	if (!input \|\| strlen(input) > MAX_BUF-5) return;	533	if (!input \|\| strlen (input) > MAX_BUF - 5)
466	/* bad stuff would happen if we continued here, the -5 is to make space for ' and ' */
467
468	strncpy(tmp, input, MAX_BUF-5);
469	/trim all trailing commas, spaces etc./
470	for (i=strlen(tmp); !isalnum(tmp[i]) && i >= 0; i--)
471	tmp[i]='\0';
472	strcat(tmp, ".");
473
474	p=strrchr(tmp, ',');
475	if (p) {
476	*p='\0';
477	strcpy(input, tmp);
478	p++;
479	strcat(input, " and");
480	strcat(input, p);
481	}
482	else strcpy(input, tmp);
483	return;	534	return;
		535	/* bad stuff would happen if we continued here, the -5 is to make space for ' and ' */
		536
		537	strncpy (tmp, input, MAX_BUF - 5);
		538	/trim all trailing commas, spaces etc. /
		539	for (i = strlen (tmp); !isalnum (tmp[i]) && i >= 0; i--)
		540	tmp[i] = '\0';
		541
		542	strcat (tmp, ".");
		543
		544	p = strrchr (tmp, ',');
		545	if (p)
		546	{
		547	*p = '\0';
		548	strcpy (input, tmp);
		549	p++;
		550	strcat (input, " and");
		551	strcat (input, p);
		552	}
		553	else
		554	strcpy (input, tmp);
		555
		556	return;
484	}	557	}
		558
		559	/////////////////////////////////////////////////////////////////////////////
		560
		561	void
		562	fork_abort (const char *msg)
		563	{
		564	if (!fork ())
		565	{
		566	signal (SIGABRT, SIG_DFL);
		567	abort ();
		568	}
		569
		570	LOG (llevError, "fork abort: %s\n", msg);
		571	}
		572
		573	void *salloc_ (int n) throw (std::bad_alloc)
		574	{
		575	#ifdef PREFER_MALLOC
		576	void *ptr = malloc (n);
		577	#else
		578	void *ptr = g_slice_alloc (n);
		579	#endif
		580
		581	if (!ptr)
		582	throw std::bad_alloc ();
		583
		584	return ptr;
		585	}
		586
		587	void salloc_ (int n, void src) throw (std::bad_alloc)
		588	{
		589	void *ptr = salloc_ (n);
		590
		591	if (src)
		592	memcpy (ptr, src, n);
		593	else
		594	memset (ptr, 0, n);
		595
		596	return ptr;
		597	}
		598
		599	void assign (char dst, const char src, int maxlen)
		600	{
		601	if (!src)
		602	src = "";
		603
		604	int len = strlen (src);
		605
		606	if (len >= maxlen - 1)
		607	{
		608	if (maxlen <= 4)
		609	{
		610	memset (dst, '.', maxlen - 1);
		611	dst [maxlen - 1] = 0;
		612	}
		613	else
		614	{
		615	memcpy (dst, src, maxlen - 4);
		616	memcpy (dst + maxlen - 4, "...", 4);
		617	}
		618	}
		619	else
		620	memcpy (dst, src, len + 1);
		621	}
		622
		623	tstamp now ()
		624	{
		625	struct timeval tv;
		626
		627	gettimeofday (&tv, 0);
		628	return tstamp (tv.tv_sec) + tstamp (tv.tv_usec) * tstamp (1e-6);
		629	}
		630
		631	int
		632	similar_direction (int a, int b)
		633	{
		634	if (!a \|\| !b)
		635	return 0;
		636
		637	int diff = (b - a) & 7;
		638	return diff <= 1 \|\| diff >= 7;
		639	}
		640

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Comparing deliantra/server/common/utils.C (file contents): Revision 1.1 by elmex, Sun Aug 13 17:16:01 2006 UTC vs. Revision 1.44 by root, Thu Jan 25 03:54:44 2007 UTC

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Comparing deliantra/server/common/utils.C (file contents):
Revision 1.1 by elmex, Sun Aug 13 17:16:01 2006 UTC vs.
Revision 1.44 by root, Thu Jan 25 03:54:44 2007 UTC