[ViewVC] Diff of: cvs/deliantra/server/server/spell

Comparing deliantra/server/server/spell_util.C (file contents):
Revision 1.60 by root, Sun Sep 2 05:18:52 2007 UTC vs.
Revision 1.102 by root, Fri Nov 6 13:31:47 2009 UTC

…		…
1	/*	1	/*
2	* This file is part of Crossfire TRT, the Roguelike Realtime MORPG.	2	* This file is part of Deliantra, the Roguelike Realtime MMORPG.
3	*	3	*
4	* Copyright (©) 2005,2006,2007 Marc Alexander Lehmann / Robin Redeker / the Crossfire TRT team	4	* Copyright (©) 2005,2006,2007,2008,2009 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
5	* Copyright (©) 2001,2007 Mark Wedel & Crossfire Development Team	5	* Copyright (©) 2001,2007 Mark Wedel & Crossfire Development Team
6	* Copyright (©) 1992,2007 Frank Tore Johansen	6	* Copyright (©) 1992,2007 Frank Tore Johansen
7	*	7	*
8	* Crossfire TRT is free software: you can redistribute it and/or modify	8	* 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	9	* 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	10	* Free Software Foundation, either version 3 of the License, or (at your
11	* (at your option) any later version.	11	* option) any later version.
12	*	12	*
13	* 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,
14	* but WITHOUT ANY WARRANTY; without even the implied warranty of	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16	* GNU General Public License for more details.	16	* GNU General Public License for more details.
17	*	17	*
18	* You should have received a copy of the GNU General Public License	18	* You should have received a copy of the Affero GNU General Public License
19	* along with this program. If not, see <http://www.gnu.org/licenses/>.	19	* and the GNU General Public License along with this program. If not, see
		20	* <http://www.gnu.org/licenses/>.
20	*	21	*
21	* The authors can be reached via e-mail to <crossfire@schmorp.de>	22	* The authors can be reached via e-mail to <support@deliantra.net>
22	*/	23	*/
23		24
24	#include <global.h>	25	#include <global.h>
25	#include <spells.h>	26	#include <spells.h>
26	#include <object.h>	27	#include <object.h>
33	/* This returns a random spell from 'ob'. If skill is set, then	34	/* This returns a random spell from 'ob'. If skill is set, then
34	* the spell must be of this skill, it can be NULL in which case all	35	* the spell must be of this skill, it can be NULL in which case all
35	* matching spells are used.	36	* matching spells are used.
36	*/	37	*/
37	object *	38	object *
38	find_random_spell_in_ob (object ob, const char skill)	39	find_random_spell_in_ob (object *ob, shstr_cmp skill)
39	{	40	{
40	int k = 0, s;	41	int k = 0, s;
41	object *tmp;
42		42
43	for (tmp = ob->inv; tmp; tmp = tmp->below)	43	for (object *tmp = ob->inv; tmp; tmp = tmp->below)
44	if (tmp->type == SPELL && (!skill \|\| tmp->skill == skill))	44	if (tmp->type == SPELL && (!skill \|\| tmp->skill == skill))
45	k++;	45	k++;
46		46
47	/* No spells, no need to progess further */	47	/* No spells, no need to progess further */
48	if (!k)	48	if (!k)
49	return NULL;	49	return NULL;
50		50
51	s = RANDOM () % k;	51	s = rndm (k);
52		52
53	for (tmp = ob->inv; tmp; tmp = tmp->below)	53	for (object *tmp = ob->inv; tmp; tmp = tmp->below)
54	if (tmp->type == SPELL && (!skill \|\| tmp->skill == skill))	54	if (tmp->type == SPELL && (!skill \|\| tmp->skill == skill))
55	{
56	if (!s)	55	if (!s)
57	return tmp;	56	return tmp;
58	else	57	else
59	s--;	58	s--;
60	}	59
61	/* Should never get here, but just in case */	60	/* Should never get here, but just in case */
62	return NULL;	61	return 0;
63	}	62	}
64		63
65	/* Relatively simple function that gets used a lot.	64	/* Relatively simple function that gets used a lot.
66	* Basically, it sets up the skill pointer for the spell being	65	* Basically, it sets up the skill pointer for the spell being
67	* cast. If op is really casting the spell, then the skill	66	* cast. If op is really casting the spell, then the skill
…		…
77	dest->skill = spob->skill;	76	dest->skill = spob->skill;
78	else	77	else
79	dest->skill = caster->skill;	78	dest->skill = caster->skill;
80	}	79	}
81		80
82	/* init_spells: This should really be called check_spells, as that
83	* is what it does. It goes through the spells looking for any
84	* obvious errors. This was most useful in debugging when re-doing
85	* all the spells to catch simple errors. To use it all the time
86	* will result in it spitting out messages that aren't really errors.
87	*/
88	void
89	init_spells (void)
90	{
91	#ifdef SPELL_DEBUG
92	static int init_spells_done = 0;
93	int i;
94	archetype *at;
95
96	if (init_spells_done)
97	return;
98	LOG (llevDebug, "Checking spells...\n");
99
100	for_all_archetypes (at)
101	{
102	if (at->type == SPELL)
103	{
104	if (at->skill)
105	{
106	for (i = 1; i < NUM_SKILLS; i++)
107	if (!strcmp (skill_names[i], at->skill))
108	break;
109	if (i == NUM_SKILLS)
110	{
111	LOG (llevError, "Spell %s has improper associated skill %s\n", at->name, at->skill);
112	}
113	}
114	/* other_arch is already checked for in the loader */
115	}
116	}
117
118	i = 0;
119	while (spell_mapping[i])
120	{
121	if (!archetype::find (spell_mapping[i]))
122	{
123	LOG (llevError, "Unable to find spell mapping %s (%i)\n", spell_mapping[i], i);
124	}
125	i++;
126	}
127	LOG (llevDebug, "Checking spells completed.\n");
128	#endif
129	}
130
131	/* Dumps all the spells - now also dumps skill associated with the spell.
132	* not sure what this would be used for, as the data seems pretty
133	* minimal, but easy enough to keep around.
134	*/
135	void
136	dump_spells ()
137	{
138	for_all_archetypes (at)
139	if (at->type == SPELL)
140	fprintf (stderr, "%s:%s:%s:%s:%d\n", &at->object::name,
141	&at->archname, at->other_arch ? &at->other_arch->archname : "<nil>", &at->skill, at->level);
142	}
143
144	/* pretty basic function - basically just takes	81	/* pretty basic function - basically just takes
145	* an object, sets the x,y, and calls insert_ob_in_map	82	* an object, sets the x,y, and calls insert_ob_in_map
146	*/	83	*/
147	void	84	void
148	spell_effect (object spob, int x, int y, maptile map, object *originator)	85	spell_effect (object spob, int x, int y, maptile map, object *originator)
149	{	86	{
150	if (spob->other_arch)	87	if (spob->other_arch)
151	map->insert (arch_to_object (spob->other_arch), x, y, originator);	88	map->insert (arch_to_object (spob->other_arch), x, y, originator);
152	}	89	}
153		90
154	/*	91	static int
155	* This function takes a caster and spell and presents the	92	attuned_bonus (object caster, object spell, int level)
156	* effective level the caster needs to be to cast the spell.
157	* basically, it just adjusts the spell->level with attuned/repelled
158	* spellpaths. Was called path_level_mod.
159	*
160	* caster is person casting the spell.
161	* spell is the spell object.
162	* Returns modified level.
163	*/
164	int
165	min_casting_level (object caster, object spell)
166	{	93	{
167	int new_level;	94	// compute the attuned/repelled bonus
168		95	// attuned only increases up to 2 times the original level (i.e. bonus <= level) */
169	if (caster->path_denied & spell->path_attuned)	96	// repell has no such quarrels
170	return 1;	97	return (caster->path_attuned & spell->path_attuned ? min (level, +ATTUNE_REPELL) : 0)
171
172	new_level = spell->level
173	+ (caster->path_repelled & spell->path_attuned ? +2 : 0)	98	+ (caster->path_repelled & spell->path_attuned ? -ATTUNE_REPELL : 0);
174	+ (caster->path_attuned & spell->path_attuned ? -2 : 0);
175
176	return max (1, new_level);
177	}	99	}
178		100
179	/* This function returns the effective level the spell	101	/* This function returns the effective level the spell
180	* is being cast at.	102	* is being cast at.
181	* Note that I changed the repelled/attuned bonus to 2 from 5.
182	* This is because the new code compares casting_level against
183	* min_caster_level, so the difference is effectively 4
184	*/	103	*/
185	int	104	int
186	caster_level (object caster, object spell)	105	casting_level (object caster, object spell)
187	{	106	{
188	int level = caster->level;	107	int level = caster->level;
189
190	/* If this is a player, try to find the matching skill */
191	if (caster->type == PLAYER && spell->skill)
192	for (int i = 0; i < NUM_SKILLS; i++)
193	if (caster->contr->last_skill_ob[i] && caster->contr->last_skill_ob[i]->skill == spell->skill)
194	{
195	level = caster->contr->last_skill_ob[i]->level;
196	break;
197	}
198		108
199	/* if a rod is fired by a player, take the use_magic_item skill in consideration. */	109	/* if a rod is fired by a player, take the use_magic_item skill in consideration. */
200	if (caster->type == ROD && caster->env && caster->env->type == PLAYER)	110	if (caster->type == ROD && caster->env && caster->env->type == PLAYER)
201	{	111	{
202	object *skill = find_skill_by_number (caster->env, SK_USE_MAGIC_ITEM);	112	object *skill = find_skill_by_number (caster->env, SK_USE_MAGIC_ITEM);
203	int sk_level = skill ? skill->level : 1;	113	int sk_level = skill ? skill->level : 1;
204		114
205	level = MIN (level, sk_level + level / 10 + 1);	115	level = min (level, sk_level + level / 10 + 1);
206	}	116	}
		117	else if (caster->type == PLAYER) /* If this is a player, try to find the matching skill */
		118	if (object *skill = caster->contr->find_skill (spell->skill))
		119	level = skill->level;
207		120
208	/* Got valid caster level. Now adjust for attunement */	121	int bonus = attuned_bonus (caster, spell, level);
209	level += caster->path_repelled & spell->path_attuned ? -2 : 0;	122
210	level += caster->path_attuned & spell->path_attuned ? +2 : 0;	123	level += bonus;
		124
		125	// now scale the effective level from the startinglevel..100 range to 1..100
		126	if (level < 100)
		127	level = lerp (level, (int)spell->level, 100, 1, 100);
211		128
212	/* Always make this at least 1. If this is zero, we get divide by zero	129	/* Always make this at least 1. If this is zero, we get divide by zero
213	* errors in various places.	130	* errors in various places.
214	*/	131	*/
215	return max (level, 1);	132	return clamp (level, 1, settings.max_level);
216	}	133	}
217		134
218	/* The following function scales the spellpoint cost of	135	/* The following function scales the spellpoint cost of
219	* a spell by it's increased effectiveness. Some of the	136	* a spell by it's increased effectiveness. Some of the
220	* lower level spells become incredibly vicious at high	137	* lower level spells become incredibly vicious at high
…		…
224	* caster is what is casting the spell, can be op.	141	* caster is what is casting the spell, can be op.
225	* spell is the spell object.	142	* spell is the spell object.
226	* Note that it is now possible for a spell to cost both grace and	143	* Note that it is now possible for a spell to cost both grace and
227	* mana. In that case, we return which ever value is higher.	144	* mana. In that case, we return which ever value is higher.
228	*/	145	*/
229
230	sint16	146	sint16
231	SP_level_spellpoint_cost (object caster, object spell, int flags)	147	SP_level_spellpoint_cost (object caster, object spell, int flags)
232	{	148	{
233	int sp, grace, level = caster_level (caster, spell);	149	int sp, grace, level = casting_level (caster, spell);
234		150
235	if (settings.spellpoint_level_depend == TRUE)	151	if (settings.spellpoint_level_depend == TRUE)
236	{	152	{
237	if (spell->stats.sp && spell->stats.maxsp)	153	if (spell->stats.sp && spell->stats.maxsp)
238	{	154	{
…		…
259	else	175	else
260	{	176	{
261	sp = (int) (spell->stats.sp * PATH_SP_MULT (caster, spell));	177	sp = (int) (spell->stats.sp * PATH_SP_MULT (caster, spell));
262	if (spell->stats.sp && !sp)	178	if (spell->stats.sp && !sp)
263	sp = 1;	179	sp = 1;
		180
264	grace = (int) (spell->stats.grace * PATH_SP_MULT (caster, spell));	181	grace = (int) (spell->stats.grace * PATH_SP_MULT (caster, spell));
265	if (spell->stats.grace && !grace)	182	if (spell->stats.grace && !grace)
266	grace = 1;	183	grace = 1;
267	}	184	}
		185
268	if (flags == SPELL_HIGHEST)	186	if (flags == SPELL_HIGHEST)
269	return MAX (sp, grace);	187	return MAX (sp, grace);
270	else if (flags == SPELL_GRACE)	188	else if (flags == SPELL_GRACE)
271	return grace;	189	return grace;
272	else if (flags == SPELL_MANA)	190	else if (flags == SPELL_MANA)
…		…
276	LOG (llevError, "SP_level_spellpoint_cost: Unknown flags passed: %d\n", flags);	194	LOG (llevError, "SP_level_spellpoint_cost: Unknown flags passed: %d\n", flags);
277	return 0;	195	return 0;
278	}	196	}
279	}	197	}
280		198
		199	/*
		200	* Return the effective casting level of the spell.
		201	* To make spells independent of their starting level, this function
		202	* scales the range spellstartlevel .. 100 into the range 1..100
		203	*/
		204	static int
		205	SP_casting_level (object caster, object spell)
		206	{
		207	return casting_level (caster, spell);
		208	}
281		209
282	/* SP_level_dam_adjust: Returns adjusted damage based on the caster.	210	/* SP_level_dam_adjust: Returns adjusted damage based on the caster.
283	* spob is the spell we are adjusting.	211	* spob is the spell we are adjusting.
284	*/	212	*/
285	int	213	int
286	SP_level_dam_adjust (object caster, object spob)	214	SP_level_dam_adjust (object caster, object spob)
287	{	215	{
288	int level = caster_level (caster, spob);
289	int adj = level - min_casting_level (caster, spob);
290
291	if (adj < 0)
292	adj = 0;
293	if (spob->dam_modifier)	216	if (!spob->dam_modifier)
294	adj /= spob->dam_modifier;
295	else
296	adj = 0;
297	return adj;	217	return 0;
		218
		219	return SP_casting_level (caster, spob) / spob->dam_modifier;
298	}	220	}
299		221
300	/* Adjust the strength of the spell based on level.	222	/* Adjust the strength of the spell based on level.
301	* This is basically the same as SP_level_dam_adjust above,	223	* This is basically the same as SP_level_dam_adjust above,
302	* but instead looks at the level_modifier value.	224	* but instead looks at the level_modifier value.
303	*/	225	*/
304	int	226	int
305	SP_level_duration_adjust (object caster, object spob)	227	SP_level_duration_adjust (object caster, object spob)
306	{	228	{
307	int level = caster_level (caster, spob);
308	int adj = level - min_casting_level (caster, spob);
309
310	if (adj < 0)
311	adj = 0;
312	if (spob->duration_modifier)	229	if (!spob->duration_modifier)
313	adj /= spob->duration_modifier;
314	else
315	adj = 0;
316
317	return adj;	230	return 0;
		231
		232	return SP_casting_level (caster, spob) / spob->duration_modifier;
318	}	233	}
319		234
320	/* Adjust the strength of the spell based on level.	235	/* Adjust the strength of the spell based on level.
321	* This is basically the same as SP_level_dam_adjust above,	236	* This is basically the same as SP_level_dam_adjust above,
322	* but instead looks at the level_modifier value.	237	* but instead looks at the level_modifier value.
323	*/	238	*/
324	int	239	int
325	SP_level_range_adjust (object caster, object spob)	240	SP_level_range_adjust (object caster, object spob)
326	{	241	{
327	int level = caster_level (caster, spob);
328	int adj = level - min_casting_level (caster, spob);
329
330	if (adj < 0)
331	adj = 0;
332	if (spob->range_modifier)	242	if (!spob->range_modifier)
333	adj /= spob->range_modifier;
334	else
335	adj = 0;
336
337	return adj;	243	return 0;
		244
		245	return SP_casting_level (caster, spob) / spob->range_modifier;
338	}	246	}
339		247
340	/* Checks to see if player knows the spell. If the name is the same	248	/* Checks to see if player knows the spell. If the name is the same
341	* as an existing spell, we presume they know it.	249	* as an existing spell, we presume they know it.
342	* returns 1 if they know the spell, 0 if they don't.	250	* returns 1 if they know the spell, 0 if they don't.
343	*/	251	*/
344	object *	252	object *
345	check_spell_known (object op, const char name)	253	check_spell_known (object *op, shstr_cmp name)
346	{	254	{
347	object *spop;	255	object *spop;
348		256
349	for (spop = op->inv; spop; spop = spop->below)	257	for (spop = op->inv; spop; spop = spop->below)
350	if (spop->type == SPELL && !strcmp (spop->name, name))	258	if (spop->type == SPELL && spop->name == name)
351	return spop;	259	return spop;
352		260
353	return NULL;	261	return 0;
354	}	262	}
355
356		263
357	/*	264	/*
358	* Look at object 'op' and see if they know the spell	265	* Look at object 'op' and see if they know the spell
359	* spname. This is pretty close to check_spell_known	266	* spname. This is pretty close to check_spell_known
360	* above, but it uses a looser matching mechanism.	267	* above, but it uses a looser matching mechanism.
361	* returns the matching spell object, or NULL.	268	* returns the matching spell object, or NULL.
362	* If we match multiple spells but don't get an	269	* If we match multiple spells but don't get an
363	* exact match, we also return NULL.	270	* exact match, we also return NULL.
364	*/	271	*/
365
366	object *	272	object *
367	lookup_spell_by_name (object op, const char spname)	273	lookup_spell_by_name (object op, const char spname)
368	{	274	{
369	object spob1 = NULL, spob2 = NULL, *spob;	275	object spob1 = 0, spob2 = 0;
370	int nummatch = 0;	276	int nummatch = 0;
371		277
372	if (spname == NULL)	278	if (!spname)
373	return NULL;	279	return 0;
374		280
375	/* Try to find the spell. We store the results in spob1	281	/* Try to find the spell. We store the results in spob1
376	* and spob2 - spob1 is only taking the length of	282	* and spob2 - spob1 is only taking the length of
377	* the past spname, spob2 uses the length of the spell name.	283	* the past spname, spob2 uses the length of the spell name.
378	*/	284	*/
379	for (spob = op->inv; spob; spob = spob->below)	285	for (object *spob = op->inv; spob; spob = spob->below)
380	{	286	{
381	if (spob->type == SPELL)	287	if (spob->type == SPELL)
382	{	288	{
		289	// TODO: WTF?
383	if (!strncmp (spob->name, spname, strlen (spname)))	290	if (!strncmp (spob->name, spname, strlen (spname)))
384	{	291	{
385	nummatch++;	292	nummatch++;
386	spob1 = spob;	293	spob1 = spob;
387	}	294	}
…		…
392	* fall into this category). It shouldn't be hard to	299	* fall into this category). It shouldn't be hard to
393	* make sure spell names don't overlap in that fashion.	300	* make sure spell names don't overlap in that fashion.
394	*/	301	*/
395	if (spob2)	302	if (spob2)
396	LOG (llevError, "Found multiple spells with overlapping base names: %s, %s\n", &spob2->name, &spob->name);	303	LOG (llevError, "Found multiple spells with overlapping base names: %s, %s\n", &spob2->name, &spob->name);
		304
397	spob2 = spob;	305	spob2 = spob;
398	}	306	}
399	}	307	}
400	}	308	}
401	/* if we have best match, return it. Otherwise, if we have one match	309	/* if we have best match, return it. Otherwise, if we have one match
402	* on the loser match, return that, otehrwise null	310	* on the loser match, return that, otehrwise null
403	*/	311	*/
404	if (spob2)	312	if (spob2)
405	return spob2;	313	return spob2;
		314
406	if (spob1 && nummatch == 1)	315	if (spob1 && nummatch == 1)
407	return spob1;	316	return spob1;
		317
408	return NULL;	318	return NULL;
409	}	319	}
410		320
411	/* reflwall - decides weither the (spell-)object sp_op will	321	/* reflwall - decides weither the (spell-)object sp_op will
412	* be reflected from the given mapsquare. Returns 1 if true.	322	* be reflected from the given mapsquare. Returns 1 if true.
…		…
416	* eg, updated for tiled maps.	326	* eg, updated for tiled maps.
417	*/	327	*/
418	int	328	int
419	reflwall (maptile m, int x, int y, object sp_op)	329	reflwall (maptile m, int x, int y, object sp_op)
420	{	330	{
421	object *op;
422
423	if (OUT_OF_REAL_MAP (m, x, y))	331	if (OUT_OF_REAL_MAP (m, x, y))
424	return 0;	332	return 0;
		333
425	for (op = GET_MAP_OB (m, x, y); op != NULL; op = op->above)	334	for (object *op = GET_MAP_OB (m, x, y); op; op = op->above)
426	if (QUERY_FLAG (op, FLAG_REFL_SPELL)	335	if (QUERY_FLAG (op, FLAG_REFL_SPELL)
427	&& (!QUERY_FLAG (op, FLAG_ALIVE)	336	&& (!QUERY_FLAG (op, FLAG_ALIVE)
428	\|\| (rndm (0, 99)) < 90 - (sp_op->level / 10)))	337	\|\| (rndm (0, 99)) < 90 - (sp_op->level / 10)))
429	return 1;	338	return 1;
430		339
…		…
460	dir ? 0 : INS_BELOW_ORIGINATOR);	369	dir ? 0 : INS_BELOW_ORIGINATOR);
461		370
462	return dir;	371	return dir;
463	}	372	}
464		373
		374	static bool
		375	mergable_owner (object o1, object o2)
		376	{
		377	if (o1 == o2)
		378	return 1;
		379
		380	if (!o1 \|\| !o2)
		381	return 0;
		382
		383	if (o1->flag [FLAG_FRIENDLY] != o1->flag [FLAG_FRIENDLY])
		384	return 0;
		385
		386	if (o1->is_player () \|\| o2->is_player ())
		387	return 0;
		388
		389	return 1;
		390	}
		391
465	/* Returns true if it is ok to put spell *op on the space/may provided.	392	/* Returns true if it is ok to put spell *op on the space/may provided.
466	* immune_stop is basically the attacktype of the spell (why	393	* immune_stop is basically the attacktype of the spell (why
467	* passed as a different value, not sure of). If immune_stop	394	* passed as a different value, not sure of). If immune_stop
468	* has the AT_MAGIC bit set, and there is a counterwall	395	* has the AT_MAGIC bit set, and there is a counterwall
469	* on the space, the object doesn't get placed. if immune stop	396	* on the space, the object doesn't get placed. if immune stop
470	* does not have AT_MAGIC, then counterwalls do not effect the spell.	397	* does not have AT_MAGIC, then counterwalls do not effect the spell.
471	*
472	*/	398	*/
473	int	399	int
474	ok_to_put_more (maptile m, sint16 x, sint16 y, object op, int immune_stop)	400	ok_to_put_more (maptile m, sint16 x, sint16 y, object op, int immune_stop)
475	{	401	{
476	if (!xy_normalise (m, x, y))	402	if (!xy_normalise (m, x, y))
477	return 0;	403	return 0;
478		404
479	mapspace &ms = m->at (x, y);	405	mapspace &ms = m->at (x, y);
		406	ms.update ();
480		407
481	if (OB_TYPE_MOVE_BLOCK (op, ms.move_block))	408	if (OB_TYPE_MOVE_BLOCK (op, ms.move_block))
482	return 0;	409	return 0;
		410
		411	int max_effects = 5; // max. number of similar spells per mapspace
483		412
484	for (object *tmp = ms.bot; tmp; tmp = tmp->above)	413	for (object *tmp = ms.bot; tmp; tmp = tmp->above)
485	{	414	{
486	/* If there is a counterspell on the space, and this	415	/* If there is a counterspell on the space, and this
487	* object is using magic, don't progress. I believe we could	416	* object is using magic, don't progress. I believe we could
…		…
506	// (and those shouldn't go away from	435	// (and those shouldn't go away from
507	// sanctuary) see also: permanent lava	436	// sanctuary) see also: permanent lava
508	&& (immune_stop & AT_MAGIC))	437	&& (immune_stop & AT_MAGIC))
509	return 0;	438	return 0;
510		439
511	/* This is to prevent 'out of control' spells. Basically, this
512	* limits one spell effect per space per spell. This is definately
513	* needed for performance reasons, and just for playability I believe.
514	* there are no such things as multispaced spells right now, so
515	* we don't need to worry about the head.
516	*/
517	if ((tmp->stats.maxhp == op->stats.maxhp) && (tmp->type == op->type) && (tmp->subtype == op->subtype))
518	return 0;
519
520	/*
521	* Combine similar spell effects into one spell effect. Needed for
522	* performance reasons with meteor swarm and the like, but also for
523	* playability reasons.
524	*/
525	if (tmp->arch == op->arch
526	&& tmp->type == op->type	440	if (tmp->type == op->type)
527	&& tmp->subtype == op->subtype
528	&& tmp->owner == op->owner
529	&& ((tmp->subtype == SP_EXPLOSION) \|\| (tmp->subtype == SP_CONE && tmp->stats.sp == op->stats.sp)))
530	{	441	{
531	tmp->stats.dam = MAX (tmp->stats.dam, op->stats.dam);	442	if (tmp->subtype == op->subtype
532	tmp->range = MAX (tmp->range, op->range);	443	&& tmp->arch == op->arch /* no harm if not comparing by name here */)
533	tmp->duration = MAX (tmp->duration, op->duration);	444	{
		445	/* This is to prevent 'out of control' spells. Basically, this
		446	* limits one spell effect per space per spell. This is definately
		447	* needed for performance reasons, and just for playability I believe.
		448	* there are no such things as multispaced spells right now, so
		449	* we don't need to worry about the head.
		450	*/
		451	if (tmp->stats.maxhp == op->stats.maxhp)
		452	return 0;
		453
		454	/*
		455	* Combine similar spell effects into one spell effect. Needed for
		456	* performance reasons with meteor swarm and the like, but also for
		457	* playability reasons.
		458	*/
		459	if (((tmp->subtype == SP_EXPLOSION) \|\| (tmp->subtype == SP_CONE && tmp->stats.sp == op->stats.sp)))
		460	if (mergable_owner (tmp, op))
		461	{
		462	// if same owner, then combine, but reduce advantage of multiple spells
		463	max_it (tmp->stats.dam, op->stats.dam);
		464	max_it (tmp->range , op->range);
		465	max_it (tmp->duration , op->duration);
		466	return 0;
		467	}
		468	}
		469
		470	// if there are too many spell effects on this space,
		471	// then don't allow more of them, for performance reasons.
		472	if (tmp->type == SPELL_EFFECT
		473	&& !--max_effects)
534	return 0;	474	return 0;
535	}	475	}
536		476
537	/* Perhaps we should also put checks in for no magic and unholy	477	/* Perhaps we should also put checks in for no magic and unholy
538	* ground to prevent it from moving along?	478	* ground to prevent it from moving along?
539	*/	479	*/
…		…
554	* returns 0 on failure, 1 on success.	494	* returns 0 on failure, 1 on success.
555	*/	495	*/
556	int	496	int
557	fire_arch_from_position (object op, object caster, sint16 x, sint16 y, int dir, object *spell)	497	fire_arch_from_position (object op, object caster, sint16 x, sint16 y, int dir, object *spell)
558	{	498	{
559	object *tmp;
560	int mflags;
561	maptile *m;
562
563	if (spell->other_arch == NULL)	499	if (!spell->other_arch)
564	return 0;	500	return 0;
565		501
566	m = op->map;	502	object *tmp = spell->other_arch->instance ();
567	mflags = get_map_flags (m, &m, x, y, &x, &y);
568	if (mflags & P_OUT_OF_MAP)
569	{
570	return 0;
571	}
572		503
573	tmp = arch_to_object (spell->other_arch);	504	if (!tmp)
574
575	if (tmp == NULL)
576	return 0;	505	return 0;
577
578	if (OB_TYPE_MOVE_BLOCK (tmp, GET_MAP_MOVE_BLOCK (m, x, y)))
579	{
580	new_draw_info (NDI_UNIQUE, 0, op, "You can't cast the spell on top of a wall!\n");
581	tmp->destroy ();
582	return 0;
583	}
584		506
585	tmp->stats.dam = spell->stats.dam + SP_level_dam_adjust (caster, spell);	507	tmp->stats.dam = spell->stats.dam + SP_level_dam_adjust (caster, spell);
586	tmp->duration = spell->duration + SP_level_duration_adjust (caster, spell);	508	tmp->duration = spell->duration + SP_level_duration_adjust (caster, spell);
587	/* code in time.c uses food for some things, duration for others */	509	/* code in time.c uses food for some things, duration for others */
588	tmp->stats.food = tmp->duration;	510	tmp->stats.food = tmp->duration;
589	tmp->range = spell->range + SP_level_range_adjust (caster, spell);	511	tmp->range = spell->range + SP_level_range_adjust (caster, spell);
590	tmp->attacktype = spell->attacktype;	512	tmp->attacktype = spell->attacktype;
591	tmp->x = x;
592	tmp->y = y;
593	tmp->direction = dir;	513	tmp->direction = dir;
594	if (op->owner != NULL)
595	tmp->set_owner (op);	514	tmp->set_owner (op);
596	else
597	tmp->set_owner (op);
598	tmp->level = caster_level (caster, spell);	515	tmp->level = casting_level (caster, spell);
599	set_spell_skill (op, caster, spell, tmp);	516	set_spell_skill (op, caster, spell, tmp);
600		517
601	/* needed for AT_HOLYWORD,AT_GODPOWER stuff */	518	/* needed for AT_HOLYWORD,AT_GODPOWER stuff */
602	if (tmp->attacktype & AT_HOLYWORD \|\| tmp->attacktype & AT_GODPOWER)	519	if (tmp->attacktype & AT_HOLYWORD \|\| tmp->attacktype & AT_GODPOWER)
603	{
604	if (!tailor_god_spell (tmp, op))	520	if (!tailor_god_spell (tmp, op))
605	return 0;	521	return 0;
606	}	522
607	if (QUERY_FLAG (tmp, FLAG_IS_TURNABLE))	523	if (QUERY_FLAG (tmp, FLAG_IS_TURNABLE))
608	SET_ANIMATION (tmp, dir);	524	SET_ANIMATION (tmp, dir);
609		525
610	if ((tmp = insert_ob_in_map (tmp, m, op, 0)))	526	if ((tmp = op->map->insert (tmp, x, y, op)))
611	move_spell_effect (tmp);	527	move_spell_effect (tmp);
612		528
613	return 1;	529	return 1;
614	}	530	}
615		531
…		…
670	if (!tmp)	586	if (!tmp)
671	tmp = op->ms ().player ();	587	tmp = op->ms ().player ();
672		588
673	return tmp;	589	return tmp;
674	}	590	}
675
676
677		591
678	/* raytrace:	592	/* raytrace:
679	* spell_find_dir(map, x, y, exclude) will search first the center square	593	* spell_find_dir(map, x, y, exclude) will search first the center square
680	* then some close squares in the given map at the given coordinates for	594	* then some close squares in the given map at the given coordinates for
681	* live objects.	595	* live objects.
…		…
684	* monsters/generators only. If not, the spell will hunt players only.	598	* monsters/generators only. If not, the spell will hunt players only.
685	* It returns the direction toward the first/closest live object if it finds	599	* It returns the direction toward the first/closest live object if it finds
686	* any, otherwise -1.	600	* any, otherwise -1.
687	* note that exclude can be NULL, in which case all bets are off.	601	* note that exclude can be NULL, in which case all bets are off.
688	*/	602	*/
689
690	int	603	int
691	spell_find_dir (maptile m, int x, int y, object exclude)	604	spell_find_dir (maptile m, int x, int y, object exclude)
692	{	605	{
693	int i, max = SIZEOFFREE;	606	int i, max = SIZEOFFREE;
694	sint16 nx, ny;	607	sint16 nx, ny;
…		…
725		638
726	/* put_a_monster: puts a monster named monstername near by	639	/* put_a_monster: puts a monster named monstername near by
727	* op. This creates the treasures for the monsters, and	640	* op. This creates the treasures for the monsters, and
728	* also deals with multipart monsters properly.	641	* also deals with multipart monsters properly.
729	*/	642	*/
730	void	643	static void
731	put_a_monster (object op, const char monstername)	644	put_a_monster (object op, const char monstername)
732	{	645	{
733	object tmp, head = NULL, *prev = NULL;	646	object tmp, head = NULL, *prev = NULL;
734	archetype *at;	647	archetype *at;
735	int dir;	648	int dir;
…		…
774	create_treasure (head->randomitems, head, GT_INVISIBLE, op->map->difficulty, 0);	687	create_treasure (head->randomitems, head, GT_INVISIBLE, op->map->difficulty, 0);
775		688
776	insert_ob_in_map (head, op->map, op, 0);	689	insert_ob_in_map (head, op->map, op, 0);
777		690
778	/* thought it'd be cool to insert a burnout, too. */	691	/* thought it'd be cool to insert a burnout, too. */
779	op->map->insert (get_archetype ("burnout"), op->x + freearr_x[dir], op->y + freearr_y[dir], op);	692	op->map->insert (archetype::get (shstr_burnout), op->x + freearr_x[dir], op->y + freearr_y[dir], op);
780	}	693	}
781	}	694	}
782		695
783	/* peterm: function which summons hostile monsters and	696	/* peterm: function which summons hostile monsters and
784	* places them in nearby squares.	697	* places them in nearby squares.
…		…
791	* Note that this is not used by any spells (summon evil monsters	704	* Note that this is not used by any spells (summon evil monsters
792	* use to call this, but best I can tell, that spell/ability was	705	* use to call this, but best I can tell, that spell/ability was
793	* never used. This is however used by various failures on the	706	* never used. This is however used by various failures on the
794	* players part (alchemy, reincarnation, etc)	707	* players part (alchemy, reincarnation, etc)
795	*/	708	*/
796
797	int	709	int
798	summon_hostile_monsters (object op, int n, const char monstername)	710	summon_hostile_monsters (object op, int n, const char monstername)
799	{	711	{
800	int i;	712	int i;
801		713
…		…
866	{	778	{
867	SET_ANIMATION (op, ATTACKS[i].face);	779	SET_ANIMATION (op, ATTACKS[i].face);
868	}	780	}
869	}	781	}
870		782
871
872	/* prayer_failure: This is called when a player fails	783	/* prayer_failure: This is called when a player fails
873	* at casting a prayer.	784	* at casting a prayer.
874	* op is the player.	785	* op is the player.
875	* failure is basically how much grace they had.	786	* failure is basically how much grace they had.
876	* power is how much grace the spell would normally take to cast.	787	* power is how much grace the spell would normally take to cast.
877	*/	788	*/
878		789	static void
879	void
880	prayer_failure (object *op, int failure, int power)	790	prayer_failure (object *op, int failure, int power)
881	{	791	{
882	const char *godname;	792	const char *godname;
883	object *tmp;	793	object *tmp;
884		794
…		…
977	tmp->insert_at (op);	887	tmp->insert_at (op);
978	}	888	}
979	}	889	}
980	}	890	}
981		891
982	int	892	static int
983	cast_party_spell (object op, object caster, int dir, object spell_ob, char stringarg)	893	cast_party_spell (object op, object caster, int dir, object spell_ob, char spellparam)
984	{	894	{
985	int success;
986	object *spell;
987
988	if (!spell_ob->other_arch)	895	if (!spell_ob->other_arch)
989	{	896	{
990	LOG (llevError, "cast_party_spell: empty other arch\n");	897	LOG (llevError, "cast_party_spell: empty other arch\n");
991	return 0;	898	return 0;
992	}	899	}
993		900
994	spell = arch_to_object (spell_ob->other_arch);	901	object *spell = arch_to_object (spell_ob->other_arch);
995		902
996	/* Always cast spell on caster */	903	/* Always cast spell on caster */
997	success = cast_spell (op, caster, dir, spell, stringarg);	904	int success = cast_spell (op, caster, dir, spell, spellparam);
998		905
999	if (caster->contr->party == NULL)	906	if (!op->contr \|\| !op->contr->party)
1000	{	907	{
1001	spell->remove ();	908	spell->remove ();
1002	return success;	909	return success;
1003	}	910	}
1004		911
1005	for_all_players (pl)	912	for_all_players (pl)
1006	if ((pl->ob->contr->party == caster->contr->party) && (on_same_map (pl->ob, caster)))	913	if ((pl->ob->contr->party == op->contr->party)
		914	&& on_same_map (pl->ob, op)
		915	&& pl->ob != op)
1007	cast_spell (pl->ob, caster, pl->ob->facing, spell, stringarg);	916	cast_spell (pl->ob, caster, pl->ob->facing, spell, spellparam);
1008		917
1009	spell->remove ();	918	spell->remove ();
1010	return success;	919	return success;
1011	}	920	}
1012		921
…		…
1018	* same as op.	927	* same as op.
1019	* dir is the direction to cast in. Note in some cases, if the spell	928	* dir is the direction to cast in. Note in some cases, if the spell
1020	* is self only, dir really doesn't make a difference.	929	* is self only, dir really doesn't make a difference.
1021	* spell_ob is the spell object that is being cast. From that,	930	* spell_ob is the spell object that is being cast. From that,
1022	* we can determine what to do.	931	* we can determine what to do.
1023	* stringarg is any options that are being used. It can be NULL. Almost	932	* spellparam is any options that are being used. It can be NULL. Almost
1024	* certainly, only players will set it. It is basically used as optional	933	* certainly, only players will set it. It is basically used as optional
1025	* parameters to a spell (eg, item to create, information for marking runes,	934	* parameters to a spell (eg, item to create, information for marking runes,
1026	* etc.	935	* etc.
1027	* returns 1 on successful cast, or 0 on error. These values should really	936	* returns 1 on successful cast, or 0 on error. These values should really
1028	* be swapped, so that 0 is successful, and non zero is failure, with a code	937	* be swapped, so that 0 is successful, and non zero is failure, with a code
…		…
1036	* if it is a player casting the spell (op->type == PLAYER, op == caster),	945	* if it is a player casting the spell (op->type == PLAYER, op == caster),
1037	* this function will decrease the mana/grace appropriately. For other	946	* this function will decrease the mana/grace appropriately. For other
1038	* objects, the caller should do what it considers appropriate.	947	* objects, the caller should do what it considers appropriate.
1039	*/	948	*/
1040	int	949	int
1041	cast_spell (object op, object caster, int dir, object spell_ob, char stringarg)	950	cast_spell (object op, object caster, int dir, object spell_ob, char spellparam)
1042	{	951	{
1043	const char *godname;	952	const char *godname;
1044	int success = 0, cast_level = 0;	953	int success = 0;
1045	object *skill = NULL;	954	object *skill = NULL;
1046		955
1047	if (!spell_ob)	956	if (!spell_ob)
1048	{	957	{
1049	LOG (llevError, "cast_spell: null spell object passed\n");	958	LOG (llevError, "cast_spell: null spell object passed\n");
…		…
1078	* need to have the right skill pointer passed, so we need to	987	* need to have the right skill pointer passed, so we need to
1079	* at least process that code.	988	* at least process that code.
1080	*/	989	*/
1081	if (op->type == PLAYER && op == caster)	990	if (op->type == PLAYER && op == caster)
1082	{	991	{
1083	cast_level = caster_level (caster, spell_ob);
1084
1085	if (spell_ob->skill)	992	if (spell_ob->skill)
1086	{	993	{
1087	skill = find_skill_by_name (op, spell_ob->skill);	994	skill = find_skill_by_name (op, spell_ob->skill);
1088		995
1089	if (!skill)	996	if (!skill)
1090	{	997	{
1091	op->failmsg (format ("You need the skill %s to cast %s!", &spell_ob->skill, &spell_ob->name));	998	op->failmsg (format ("You need the skill %s to cast %s! "
		999	"H<You either need to learn the skill via a skill scroll "
		1000	"or you need to wear a talisman or holy symbol.>",
		1001	&spell_ob->skill, &spell_ob->name));
1092	return 0;	1002	return 0;
1093	}	1003	}
1094		1004
1095	if (min_casting_level (op, spell_ob) > cast_level && !QUERY_FLAG (op, FLAG_WIZ))	1005	const char *msg = "";
		1006
		1007	int caster_level = skill->level;
		1008
		1009	if (op->path_attuned & spell_ob->path_attuned)
1096	{	1010	{
		1011	caster_level += min (caster_level, ATTUNE_REPELL);
		1012	msg = " (attuned)";
		1013	}
		1014
		1015	if (op->path_repelled & spell_ob->path_attuned)
		1016	{
		1017	caster_level -= ATTUNE_REPELL; // negative is ok
		1018	msg = " (repelled)";
		1019	}
		1020
		1021	if (spell_ob->level > caster_level)
		1022	{
1097	op->failmsg ("You lack enough skill to cast that spell!");	1023	op->failmsg (format ("You lack enough skill to cast that spell! "
		1024	"H<Your effective cast level is %d%s, but level %d is required.>",
		1025	caster_level, msg, spell_ob->level));
		1026	if (!op->is_wiz ())
1098	return 0;	1027	return 0;
1099	}	1028	}
1100	}	1029	}
1101		1030
1102	/* If the caster is the wiz, they don't ever fail, and don't have	1031	/* If the caster is the wiz, they don't ever fail, and don't have
1103	* to have sufficient grace/mana.	1032	* to have sufficient grace/mana.
1104	*/	1033	*/
1105	if (!QUERY_FLAG (op, FLAG_WIZ))	1034	if (!QUERY_FLAG (op, FLAG_WIZCAST))
1106	{	1035	{
1107	if (SP_level_spellpoint_cost (caster, spell_ob, SPELL_MANA) &&	1036	if (SP_level_spellpoint_cost (caster, spell_ob, SPELL_MANA) &&
1108	SP_level_spellpoint_cost (caster, spell_ob, SPELL_MANA) > op->stats.sp)	1037	SP_level_spellpoint_cost (caster, spell_ob, SPELL_MANA) > op->stats.sp)
1109	{	1038	{
1110	op->failmsg ("You don't have enough mana!");	1039	op->failmsg ("You don't have enough mana!");
…		…
1233	}	1162	}
1234		1163
1235	op->change_skill (skill); /* needed for proper exp credit */	1164	op->change_skill (skill); /* needed for proper exp credit */
1236	}	1165	}
1237		1166
1238	if (INVOKE_OBJECT (CAST_SPELL, spell_ob, ARG_OBJECT (op), ARG_OBJECT (caster), ARG_INT (dir), ARG_STRING (stringarg)))	1167	if (INVOKE_OBJECT (CAST_SPELL, spell_ob, ARG_OBJECT (op), ARG_OBJECT (caster), ARG_INT (dir), ARG_STRING (spellparam)))
1239	return RESULT_INT (0);	1168	return RESULT_INT (0);
1240		1169
1241	switch (spell_ob->subtype)	1170	switch (spell_ob->subtype)
1242	{	1171	{
1243	/* The order of case statements is same as the order they show up	1172	/* The order of case statements is same as the order they show up
1244	* in in spells.h.	1173	* in spells.h.
1245	*/	1174	*/
1246	case SP_RAISE_DEAD:	1175	case SP_RAISE_DEAD:
1247	success = cast_raise_dead_spell (op, caster, spell_ob, dir, stringarg);	1176	success = cast_raise_dead_spell (op, caster, spell_ob, dir, spellparam);
1248	break;	1177	break;
1249		1178
1250	case SP_RUNE:	1179	case SP_RUNE:
1251	success = write_rune (op, caster, spell_ob, dir, stringarg);	1180	success = write_rune (op, caster, spell_ob, dir, spellparam);
1252	break;	1181	break;
1253		1182
1254	case SP_MAKE_MARK:	1183	case SP_MAKE_MARK:
1255	success = write_mark (op, spell_ob, stringarg);	1184	success = write_mark (op, spell_ob, spellparam);
1256	break;	1185	break;
1257		1186
1258	case SP_BOLT:	1187	case SP_BOLT:
1259	success = fire_bolt (op, caster, dir, spell_ob, skill);	1188	success = fire_bolt (op, caster, dir, spell_ob, skill);
1260	break;	1189	break;
…		…
1278	case SP_SMITE:	1207	case SP_SMITE:
1279	success = cast_smite_spell (op, caster, dir, spell_ob);	1208	success = cast_smite_spell (op, caster, dir, spell_ob);
1280	break;	1209	break;
1281		1210
1282	case SP_MAGIC_MISSILE:	1211	case SP_MAGIC_MISSILE:
1283	success = fire_arch_from_position (op, caster, op->x + freearr_x[dir], op->y + freearr_y[dir], dir, spell_ob);	1212	success = fire_arch_from_position (op, caster, op->x, op->y, dir, spell_ob);
1284	break;	1213	break;
1285		1214
1286	case SP_SUMMON_GOLEM:	1215	case SP_SUMMON_GOLEM:
1287	success = summon_golem (op, caster, dir, spell_ob);	1216	success = summon_golem (op, caster, dir, spell_ob);
1288	break;	1217	break;
1289		1218
1290	case SP_DIMENSION_DOOR:	1219	case SP_DIMENSION_DOOR:
1291	/* dimension door needs the actual caster, because that is what is	1220	/* dimension door needs the actual caster, because that is what is
1292	* moved.	1221	* moved.
1293	*/	1222	*/
1294	success = dimension_door (op, caster, spell_ob, dir);	1223	success = dimension_door (op, caster, spell_ob, dir, spellparam);
1295	break;	1224	break;
1296		1225
1297	case SP_MAGIC_MAPPING:	1226	case SP_MAGIC_MAPPING:
1298	if (op->type == PLAYER)	1227	if (op->type == PLAYER)
1299	{	1228	{
…		…
1332	case SP_HEALING:	1261	case SP_HEALING:
1333	success = cast_heal (op, caster, spell_ob, dir);	1262	success = cast_heal (op, caster, spell_ob, dir);
1334	break;	1263	break;
1335		1264
1336	case SP_CREATE_FOOD:	1265	case SP_CREATE_FOOD:
1337	success = cast_create_food (op, caster, spell_ob, dir, stringarg);	1266	success = cast_create_food (op, caster, spell_ob, dir, spellparam);
1338	break;	1267	break;
1339		1268
1340	case SP_EARTH_TO_DUST:	1269	case SP_EARTH_TO_DUST:
1341	success = cast_earth_to_dust (op, caster, spell_ob);	1270	success = cast_earth_to_dust (op, caster, spell_ob);
1342	break;	1271	break;
…		…
1352	case SP_CURSE:	1281	case SP_CURSE:
1353	success = cast_curse (op, caster, spell_ob, dir);	1282	success = cast_curse (op, caster, spell_ob, dir);
1354	break;	1283	break;
1355		1284
1356	case SP_SUMMON_MONSTER:	1285	case SP_SUMMON_MONSTER:
1357	success = summon_object (op, caster, spell_ob, dir, stringarg);	1286	success = summon_object (op, caster, spell_ob, dir, spellparam);
1358	break;	1287	break;
1359		1288
1360	case SP_CHARGING:	1289	case SP_CHARGING:
1361	success = recharge (op, caster, spell_ob);	1290	success = recharge (op, caster, spell_ob);
1362	break;	1291	break;
…		…
1399	{	1328	{
1400	op->failmsg (format ("You lack the proper attunement to cast %s!", &spell_ob->name));	1329	op->failmsg (format ("You lack the proper attunement to cast %s!", &spell_ob->name));
1401	success = 0;	1330	success = 0;
1402	}	1331	}
1403	else	1332	else
1404	success = fire_arch_from_position (op, caster, op->x + freearr_x[dir], op->y + freearr_y[dir], dir, spell_ob);	1333	success = fire_arch_from_position (op, caster, op->x, op->y, dir, spell_ob);
1405	break;	1334	break;
1406		1335
1407	case SP_SWARM:	1336	case SP_SWARM:
1408	success = fire_swarm (op, caster, spell_ob, dir);	1337	success = fire_swarm (op, caster, spell_ob, dir);
1409	break;	1338	break;
…		…
1416	/* in rune.c */	1345	/* in rune.c */
1417	success = dispel_rune (op, caster, spell_ob, skill, dir);	1346	success = dispel_rune (op, caster, spell_ob, skill, dir);
1418	break;	1347	break;
1419		1348
1420	case SP_CREATE_MISSILE:	1349	case SP_CREATE_MISSILE:
1421	success = cast_create_missile (op, caster, spell_ob, dir, stringarg);	1350	success = cast_create_missile (op, caster, spell_ob, dir, spellparam);
1422	break;	1351	break;
1423		1352
1424	case SP_CONSECRATE:	1353	case SP_CONSECRATE:
1425	success = cast_consecrate (op, caster, spell_ob);	1354	success = cast_consecrate (op, caster, spell_ob);
1426	break;	1355	break;
…		…
1448	case SP_AURA:	1377	case SP_AURA:
1449	success = create_aura (op, caster, spell_ob);	1378	success = create_aura (op, caster, spell_ob);
1450	break;	1379	break;
1451		1380
1452	case SP_PARTY_SPELL:	1381	case SP_PARTY_SPELL:
1453	success = cast_party_spell (op, caster, dir, spell_ob, stringarg);	1382	success = cast_party_spell (op, caster, dir, spell_ob, spellparam);
1454	break;	1383	break;
1455		1384
1456	default:	1385	default:
1457	LOG (llevError, "cast_spell: Unhandled spell subtype %d\n", spell_ob->subtype);	1386	LOG (llevError, "cast_spell: Unhandled spell subtype %d\n", spell_ob->subtype);
1458	}	1387	}
1459		1388
1460	op->play_sound (success ? spell_ob->sound : sound_find ("fumble_spell"));	1389	op->play_sound (
		1390	success
		1391	? spell_ob->sound
		1392	? spell_ob->sound
		1393	: sound_find ("spell_success")
		1394	: sound_find ("fumble_spell")
		1395	);
1461		1396
1462	return success;	1397	return success;
1463	}	1398	}
1464		1399
1465	/* This is called from time.c/process_object(). That function	1400	/* This is called from time.c/process_object(). That function
…		…
1511	move_aura (op);	1446	move_aura (op);
1512	break;	1447	break;
1513	}	1448	}
1514	}	1449	}
1515		1450
1516	/* this checks to see if something special should happen if
1517	* something runs into the object.
1518	*/
1519	void
1520	check_spell_effect (object *op)
1521	{
1522	switch (op->subtype)
1523	{
1524	case SP_BOLT:
1525	move_bolt (op);
1526	return;
1527
1528	case SP_BULLET:
1529	check_bullet (op);
1530	return;
1531	}
1532	}
1533
1534	/* This is called by move_apply. Basically, if someone	1451	/* This is called by move_apply. Basically, if someone
1535	* moves onto a spell effect and the walk_on or fly_on flags	1452	* moves onto a spell effect and the walk_on or fly_on flags
1536	* are set, this is called. This should only be called for	1453	* are set, this is called. This should only be called for
1537	* objects of the appropraite type.	1454	* objects of the appropriate type.
1538	*/	1455	*/
1539	void	1456	void
1540	apply_spell_effect (object spell, object victim)	1457	apply_spell_effect (object spell, object victim)
1541	{	1458	{
1542	switch (spell->subtype)	1459	switch (spell->subtype)
…		…
1548		1465
1549	case SP_MAGIC_MISSILE:	1466	case SP_MAGIC_MISSILE:
1550	if (QUERY_FLAG (victim, FLAG_ALIVE))	1467	if (QUERY_FLAG (victim, FLAG_ALIVE))
1551	{	1468	{
1552	hit_player (victim, spell->stats.dam, spell, spell->attacktype, 1);	1469	hit_player (victim, spell->stats.dam, spell, spell->attacktype, 1);
1553
1554	if (!spell->destroyed ())
1555	spell->destroy ();	1470	spell->destroy ();
1556	}	1471	}
1557	break;	1472	break;
1558		1473
1559	case SP_MOVING_BALL:	1474	case SP_MOVING_BALL:
1560	if (QUERY_FLAG (victim, FLAG_ALIVE))	1475	if (QUERY_FLAG (victim, FLAG_ALIVE))
1561	hit_player (victim, spell->stats.dam, spell, spell->attacktype, 1);	1476	hit_player (victim, spell->stats.dam, spell, spell->attacktype, 1);
1562	else if (victim->materialname)	1477	else if (victim->materialname)
1563	save_throw_object (victim, spell->attacktype, spell);	1478	save_throw_object (victim, spell->attacktype, spell);
1564	break;
1565	}
1566	}
1567		1479
		1480	break;
		1481	}
		1482	}
		1483
		1484	/**
		1485	* This function will let a fireball explode at the position of
		1486	* the victim with a specific maximum level.
		1487	*/
		1488	void
		1489	create_exploding_ball_at (object *victim, int level)
		1490	{
		1491	object *ball = get_archetype (EXPLODING_FIREBALL);
		1492	ball->dam_modifier = random_roll (1, level, victim, PREFER_LOW) / 5 + 1;
		1493	ball->stats.maxhp = random_roll (1, level, victim, PREFER_LOW) / 10 + 2;
		1494	ball->insert_at (victim);
		1495	}

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Comparing deliantra/server/server/spell_util.C (file contents): Revision 1.60 by root, Sun Sep 2 05:18:52 2007 UTC vs. Revision 1.102 by root, Fri Nov 6 13:31:47 2009 UTC

Diff Legend

Comparing deliantra/server/server/spell_util.C (file contents):
Revision 1.60 by root, Sun Sep 2 05:18:52 2007 UTC vs.
Revision 1.102 by root, Fri Nov 6 13:31:47 2009 UTC