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

Comparing deliantra/server/common/los.C (file contents):
Revision 1.43 by root, Sat Dec 20 04:02:15 2008 UTC vs.
Revision 1.69 by root, Fri Mar 26 01:04:44 2010 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 (©) 2005,2006,2007,2008 Marc Alexander Lehmann / Robin Redeker / the Deliantra team	4	* Copyright (©) 2005,2006,2007,2008,2009,2010 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
5	* Copyright (©) 2002,2007 Mark Wedel & Crossfire Development Team
6	* Copyright (©) 1992,2007 Frank Tore Johansen
7	*	5	*
8	* Deliantra is free software: you can redistribute it and/or modify	6	* 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	7	* 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	8	* Free Software Foundation, either version 3 of the License, or (at your
11	* (at your option) any later version.	9	* option) any later version.
12	*	10	*
13	* This program is distributed in the hope that it will be useful,	11	* This program is distributed in the hope that it will be useful,
14	* but WITHOUT ANY WARRANTY; without even the implied warranty of	12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16	* GNU General Public License for more details.	14	* GNU General Public License for more details.
17	*	15	*
18	* You should have received a copy of the GNU General Public License	16	* 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/>.	17	* and the GNU General Public License along with this program. If not, see
		18	* <http://www.gnu.org/licenses/>.
20	*	19	*
21	* The authors can be reached via e-mail to <support@deliantra.net>	20	* The authors can be reached via e-mail to <support@deliantra.net>
22	*/	21	*/
23		22
24	/* Nov 95 - inserted USE_LIGHTING code stuff in here - b.t. */
25
26	#include <global.h>	23	#include <global.h>
27	#include <cmath>	24	#include <cmath>
28		25
29	static void expand_lighted_sight (object *op);	26	#define SEE_IN_DARK_RADIUS 2
		27	#define MAX_VISION 10 // maximum visible radius
30		28
		29	// los flags
31	enum {	30	enum {
32	LOS_XI = 0x01,	31	FLG_XI = 0x01, // we have an x-parent
33	LOS_YI = 0x02,	32	FLG_YI = 0x02, // we have an y-parent
		33	FLG_BLOCKED = 0x04, // this space blocks the view
		34	FLG_QUEUED = 0x80 // already queued in queue, or border
34	};	35	};
35		36
		37	// it is important for performance reasons that this structure
		38	// has a size easily computable by the cpu (*8 is perfect).
		39	// it is possible to move culled and visible into flags, at
		40	// some speed loss.
36	struct los_info	41	struct los_info
37	{	42	{
		43	uint8 flags; // FLG_xxx
		44	uint8 culled; // culled from "tree"
		45	uint8 visible;
		46	uint8 pad0;
		47
38	sint8 xo, yo; // obscure angle	48	sint8 xo, yo; // obscure angle
39	sint8 xe, ye; // angle deviation	49	sint8 xe, ye; // angle deviation
40	uint8 culled; // culled from "tree"
41	uint8 queued; // already queued
42	uint8 visible;
43	uint8 flags; // LOS_XI/YI
44	};	50	};
45		51
46	// temporary storage for the los algorithm,	52	// temporary storage for the los algorithm,
47	// one los_info for each lightable map space	53	// one los_info for each lightable map space
48	static los_info los[MAP_CLIENT_X][MAP_CLIENT_Y];	54	static los_info los[MAP_CLIENT_X][MAP_CLIENT_Y];
75	enqueue (sint8 dx, sint8 dy, uint8 flags = 0)	81	enqueue (sint8 dx, sint8 dy, uint8 flags = 0)
76	{	82	{
77	sint8 x = LOS_X0 + dx;	83	sint8 x = LOS_X0 + dx;
78	sint8 y = LOS_Y0 + dy;	84	sint8 y = LOS_Y0 + dy;
79		85
80	if (x < 0 \|\| x >= MAP_CLIENT_X) return;
81	if (y < 0 \|\| y >= MAP_CLIENT_Y) return;
82
83	los_info &l = los[x][y];	86	los_info &l = los[x][y];
84		87
85	l.flags \|= flags;	88	l.flags \|= flags;
86		89
87	if (l.queued)	90	if (expect_false (l.flags & FLG_QUEUED))
88	return;	91	return;
89		92
90	l.queued = 1;	93	l.flags \|= FLG_QUEUED;
91		94
92	queue[q1].x = dx;	95	queue[q1].x = dx;
93	queue[q1].y = dy;	96	queue[q1].y = dy;
94		97
95	q1 = (q1 + 1) & (QUEUE_LENGTH - 1);	98	q1 = (q1 + 1) & (QUEUE_LENGTH - 1);
…		…
99	// this is a variant of a spiral los algorithm taken from	102	// this is a variant of a spiral los algorithm taken from
100	// http://www.geocities.com/temerra/los_rays.html	103	// http://www.geocities.com/temerra/los_rays.html
101	// which has been simplified and changed considerably, but	104	// which has been simplified and changed considerably, but
102	// still is basically the same algorithm.	105	// still is basically the same algorithm.
103	static void	106	static void
104	do_los (object *op)	107	calculate_los (player *pl)
105	{	108	{
106	player *pl = op->contr;	109	{
107
108	int max_radius = max (pl->ns->mapx, pl->ns->mapy) / 2;
109
110	memset (los, 0, sizeof (los));	110	memset (los, 0, sizeof (los));
		111
		112	// we keep one line for ourselves, for the border flag
		113	// so the client area is actually MAP_CLIENT_(X\|Y) - 2
		114	int half_x = min (LOS_X0 - 1, pl->ns->mapx / 2);
		115	int half_y = min (LOS_Y0 - 1, pl->ns->mapy / 2);
		116
		117	// create borders, the corners are not touched
		118	for (int dx = -half_x; dx <= half_x; ++dx)
		119	los [dx + LOS_X0][LOS_Y0 - (half_y + 1)].flags =
		120	los [dx + LOS_X0][LOS_Y0 + (half_y + 1)].flags = FLG_QUEUED;
		121
		122	for (int dy = -half_y; dy <= half_y; ++dy)
		123	los [LOS_X0 - (half_x + 1)][dy + LOS_Y0].flags =
		124	los [LOS_X0 + (half_x + 1)][dy + LOS_Y0].flags = FLG_QUEUED;
		125
		126	// now reset the los area and also add blocked flags
		127	// which supposedly is faster than doing it inside the
		128	// spiral path algorithm below, except when very little
		129	// area is visible, in which case it is slower. which evens
		130	// out los calculation times between large and small los maps.
		131	// apply_lights also iterates over this area, maybe these
		132	// two passes could be combined somehow.
		133	unordered_mapwalk (mapwalk_buf, pl->viewpoint, -half_x, -half_y, half_x, half_y)
		134	{
		135	los_info &l = los [LOS_X0 + dx][LOS_Y0 + dy];
		136	l.flags = m->at (nx, ny).flags () & P_BLOCKSVIEW ? FLG_BLOCKED : 0;
		137	}
		138	}
111		139
112	q1 = 0; q2 = 0; // initialise queue, not strictly required	140	q1 = 0; q2 = 0; // initialise queue, not strictly required
113	enqueue (0, 0); // enqueue center	141	enqueue (0, 0); // enqueue center
114		142
115	// treat the origin specially	143	// treat the origin specially
…		…
128	q2 = (q2 + 1) & (QUEUE_LENGTH - 1);	156	q2 = (q2 + 1) & (QUEUE_LENGTH - 1);
129		157
130	sint8 x = LOS_X0 + dx;	158	sint8 x = LOS_X0 + dx;
131	sint8 y = LOS_Y0 + dy;	159	sint8 y = LOS_Y0 + dy;
132		160
133	//int distance = idistance (dx, dy); if (distance > max_radius) continue;//D
134	int distance = 0;//D
135
136	los_info &l = los[x][y];	161	los_info &l = los[x][y];
137		162
138	if (expect_true (l.flags & (LOS_XI \| LOS_YI)))	163	if (expect_true (l.flags & (FLG_XI \| FLG_YI)))
139	{	164	{
140	l.culled = 1;	165	l.culled = 1;
		166	l.xo = l.yo = l.xe = l.ye = 0;
141		167
142	// check contributing spaces, first horizontal	168	// check contributing spaces, first horizontal
143	if (expect_true (l.flags & LOS_XI))	169	if (expect_true (l.flags & FLG_XI))
144	{	170	{
145	los_info *xi = &los[x - sign (dx)][y];	171	los_info *xi = &los[x - sign (dx)][y];
146		172
147	// don't cull unless obscured	173	// don't cull unless obscured
148	l.culled &= !xi->visible;	174	l.culled &= !xi->visible;
…		…
173	}	199	}
174	}	200	}
175	}	201	}
176		202
177	// check contributing spaces, last vertical, identical structure	203	// check contributing spaces, last vertical, identical structure
178	if (expect_true (l.flags & LOS_YI))	204	if (expect_true (l.flags & FLG_YI))
179	{	205	{
180	los_info *yi = &los[x][y - sign (dy)];	206	los_info *yi = &los[x][y - sign (dy)];
181		207
182	// don't cull unless obscured	208	// don't cull unless obscured
183	l.culled &= !yi->visible;	209	l.culled &= !yi->visible;
…		…
207	l.xo = yi->xo;	233	l.xo = yi->xo;
208	}	234	}
209	}	235	}
210	}	236	}
211		237
212	// check whether this space blocks the view	238	if (l.flags & FLG_BLOCKED)
213	maptile *m = op->map;
214	sint16 nx = op->x + dx;
215	sint16 ny = op->y + dy;
216
217	if (expect_true (!xy_normalise (m, nx, ny))
218	\|\| expect_false (m->at (nx, ny).flags () & P_BLOCKSVIEW))
219	{	239	{
220	l.xo = l.xe = abs (dx);	240	l.xo = l.xe = abs (dx);
221	l.yo = l.ye = abs (dy);	241	l.yo = l.ye = abs (dy);
222		242
223	// we obscure dependents, but might be visible	243	// we obscure dependents, but might be visible
224	// copy the los from the square towards the player,	244	// copy the los from the square towards the player,
225	// so outward diagonal corners are lit.	245	// so outward diagonal corners are lit.
226	pl->los[x][y] = los[x - sign0 (dx)][y - sign0 (dy)].visible ? 0 : LOS_BLOCKED;	246	pl->los[x][y] = los[x - sign0 (dx)][y - sign0 (dy)].visible ? 0 : LOS_BLOCKED;
		247
227	l.visible = false;	248	l.visible = false;
228	}	249	}
229	else	250	else
230	{	251	{
231	// we are not blocked, so calculate visibility, by checking	252	// we are not blocked, so calculate visibility, by checking
232	// whether we are inside or outside the shadow	253	// whether we are inside or outside the shadow
233	l.visible = (l.xe <= 0 \|\| l.xe > l.xo)	254	l.visible = (l.xe <= 0 \|\| l.xe > l.xo)
234	&& (l.ye <= 0 \|\| l.ye > l.yo);	255	&& (l.ye <= 0 \|\| l.ye > l.yo);
235		256
236	pl->los[x][y] = l.culled ? LOS_BLOCKED	257	pl->los[x][y] = l.culled ? LOS_BLOCKED
237	: l.visible ? max (0, 2 - max_radius + distance)	258	: l.visible ? 0
238	: 3;	259	: 3;
239	}	260	}
240		261
241	}	262	}
242		263
243	// Expands by the unit length in each component's current direction.	264	// Expands by the unit length in each component's current direction.
244	// If a component has no direction, then it is expanded in both of its	265	// If a component has no direction, then it is expanded in both of its
245	// positive and negative directions.	266	// positive and negative directions.
246	if (!l.culled)	267	if (!l.culled)
247	{	268	{
248	if (dx >= 0) enqueue (dx + 1, dy, LOS_XI);	269	if (dx >= 0) enqueue (dx + 1, dy, FLG_XI);
249	if (dx <= 0) enqueue (dx - 1, dy, LOS_XI);	270	if (dx <= 0) enqueue (dx - 1, dy, FLG_XI);
250	if (dy >= 0) enqueue (dx, dy + 1, LOS_YI);	271	if (dy >= 0) enqueue (dx, dy + 1, FLG_YI);
251	if (dy <= 0) enqueue (dx, dy - 1, LOS_YI);	272	if (dy <= 0) enqueue (dx, dy - 1, FLG_YI);
252	}	273	}
253	}	274	}
254	}	275	}
255		276
256	/* returns true if op carries one or more lights
257	* This is a trivial function now days, but it used to
258	* be a bit longer. Probably better for callers to just
259	* check the op->glow_radius instead of calling this.
260	*/
261	int
262	has_carried_lights (const object *op)
263	{
264	/* op may glow! */
265	if (op->glow_radius > 0)
266	return 1;
267
268	return 0;
269	}
270
271	/* radius, distance => lightness adjust */	277	/* radius, distance => lightness adjust */
272	static sint8 darkness[MAX_LIGHT_RADIUS * 2 + 1][MAX_LIGHT_RADIUS * 3 / 2 + 1];	278	static sint8 light_atten[MAX_LIGHT_RADIUS * 2 + 1][MAX_LIGHT_RADIUS * 3 / 2 + 1];
		279	static sint8 vision_atten[MAX_VISION + 1][MAX_VISION * 3 / 2 + 1];
273		280
274	static struct darkness_init	281	static struct los_init
275	{	282	{
276	darkness_init ()	283	los_init ()
277	{	284	{
		285	assert (("QUEUE_LENGTH, MAP_CLIENT_X and MAP_CLIENT_Y must be powers of two",
		286	!(QUEUE_LENGTH & (QUEUE_LENGTH - 1))));
		287
		288	/* for lights */
278	for (int radius = -MAX_LIGHT_RADIUS; radius <= MAX_LIGHT_RADIUS; ++radius)	289	for (int radius = -MAX_LIGHT_RADIUS; radius <= MAX_LIGHT_RADIUS; ++radius)
279	for (int distance = 0; distance <= MAX_LIGHT_RADIUS * 3 / 2; ++distance)	290	for (int distance = 0; distance <= MAX_LIGHT_RADIUS * 3 / 2; ++distance)
280	{	291	{
281	// max intensity	292	// max intensity
282	int intensity = min (LOS_MAX, abs (radius) + 1);	293	int intensity = min (LOS_MAX, abs (radius) + 1);
283		294
284	// actual intensity	295	// actual intensity
285	intensity = max (0, lerp_rd (distance, 0, abs (radius) + 1, intensity, 0));	296	intensity = max (0, lerp_ru (distance, 0, abs (radius) + 1, intensity, 0));
286		297
287	darkness [radius + MAX_LIGHT_RADIUS][distance] = radius < 0	298	light_atten [radius + MAX_LIGHT_RADIUS][distance] = radius < 0
288	? min (3, intensity)	299	? min (3, intensity)
289	: LOS_MAX - intensity;	300	: LOS_MAX - intensity;
290	}	301	}
		302
		303	/* for general vision */
		304	for (int radius = 0; radius <= MAX_VISION; ++radius)
		305	for (int distance = 0; distance <= MAX_VISION * 3 / 2; ++distance)
		306	vision_atten [radius][distance] = distance <= radius ? clamp (lerp (radius, 0, MAX_DARKNESS, 3, 0), 0, 3) : 4;
291	}	307	}
292	} darkness_init;	308	} los_init;
293		309
		310	// the following functions cannot be static, due to c++ stupidity :/
		311	namespace {
		312	// brighten area, ignore los
294	sint8	313	sint8
		314	los_brighten_nolos (sint8 b, sint8 l)
		315	{
		316	return min (b, l);
		317	}
		318
		319	// brighten area, but respect los
		320	sint8
295	los_brighten (sint8 b, sint8 l)	321	los_brighten (sint8 b, sint8 l)
296	{	322	{
297	return b == LOS_BLOCKED ? b : min (b, l);	323	return b == LOS_BLOCKED ? b : min (b, l);
298	}	324	}
299		325
		326	// darken area, respect los
300	sint8	327	sint8
301	los_darken (sint8 b, sint8 l)	328	los_darken (sint8 b, sint8 l)
302	{	329	{
303	return max (b, l);	330	return max (b, l);
304	}	331	}
		332	};
305		333
306	template<sint8 change_it (sint8, sint8)>	334	template<sint8 change_it (sint8, sint8)>
307	static void	335	static void
308	apply_light (object op, int dx, int dy, int light, const sint8 darkness_table)	336	apply_light (player pl, int dx, int dy, int light, const sint8 atten_table)
309	{	337	{
310	// min or max the circular area around basex, basey	338	// min or max the circular area around basex, basey
311	player *pl = op->contr;
312
313	dx += LOS_X0;	339	dx += LOS_X0;
314	dy += LOS_Y0;	340	dy += LOS_Y0;
315		341
316	int hx = op->contr->ns->mapx / 2;	342	int hx = pl->ns->mapx / 2;
317	int hy = op->contr->ns->mapy / 2;	343	int hy = pl->ns->mapy / 2;
318		344
319	int ax0 = max (LOS_X0 - hx, dx - light);	345	int ax0 = max (LOS_X0 - hx, dx - light);
320	int ay0 = max (LOS_Y0 - hy, dy - light);	346	int ay0 = max (LOS_Y0 - hy, dy - light);
321	int ax1 = min (dx + light, LOS_X0 + hx);	347	int ax1 = min (dx + light, LOS_X0 + hx);
322	int ay1 = min (dy + light, LOS_Y0 + hy);	348	int ay1 = min (dy + light, LOS_Y0 + hy);
323		349
324	for (int ax = ax0; ax <= ax1; ax++)	350	for (int ax = ax0; ax <= ax1; ax++)
325	for (int ay = ay0; ay <= ay1; ay++)	351	for (int ay = ay0; ay <= ay1; ay++)
326	pl->los[ax][ay] =	352	pl->los[ax][ay] =
327	change_it (pl->los[ax][ay], darkness_table [idistance (ax - dx, ay - dy)]);	353	change_it (pl->los[ax][ay], atten_table [idistance (ax - dx, ay - dy)]);
328	}	354	}
329		355
330	/* add light, by finding all (non-null) nearby light sources, then	356	/* add light, by finding all (non-null) nearby light sources, then
331	* mark those squares specially.	357	* mark those squares specially.
332	*/	358	*/
333	static void	359	static void
334	apply_lights (object *op)	360	apply_lights (player *pl)
335	{	361	{
336	int darklevel, mflags, light, x1, y1;	362	object *op = pl->viewpoint;
337	maptile *m = op->map;	363	int darklevel = op->map->darklevel ();
338	sint16 nx, ny;
339		364
340	darklevel = m->darkness;
341
342	/* If the player can see in the dark, lower the darklevel for him */
343	if (QUERY_FLAG (op, FLAG_SEE_IN_DARK))
344	darklevel -= LOS_MAX / 2;
345
346	/* Do a sanity check. If not valid, some code below may do odd
347	* things.
348	*/
349	if (darklevel > MAX_DARKNESS)
350	{
351	LOG (llevError, "Map darkness for %s on %s is too high (%d)\n", &op->name, &op->map->path, darklevel);
352	darklevel = MAX_DARKNESS;
353	}
354
355	int half_x = op->contr->ns->mapx / 2;	365	int half_x = pl->ns->mapx / 2;
356	int half_y = op->contr->ns->mapy / 2;	366	int half_y = pl->ns->mapy / 2;
357
358	int min_x = op->x - half_x - MAX_LIGHT_RADIUS;
359	int min_y = op->y - half_y - MAX_LIGHT_RADIUS;
360	int max_x = op->x + half_x + MAX_LIGHT_RADIUS;
361	int max_y = op->y + half_y + MAX_LIGHT_RADIUS;
362		367
363	int pass2 = 0; // negative lights have an extra pass	368	int pass2 = 0; // negative lights have an extra pass
364		369
		370	maprect *rects = pl->viewpoint->map->split_to_tiles (
		371	mapwalk_buf,
		372	pl->viewpoint->x - half_x - MAX_LIGHT_RADIUS,
		373	pl->viewpoint->y - half_y - MAX_LIGHT_RADIUS,
		374	pl->viewpoint->x + half_x + MAX_LIGHT_RADIUS + 1,
		375	pl->viewpoint->y + half_y + MAX_LIGHT_RADIUS + 1
		376	);
		377
		378	/* If the player can see in the dark, increase light/vision radius */
		379	int bonus = op->flag [FLAG_SEE_IN_DARK] ? SEE_IN_DARK_RADIUS : 0;
		380
365	if (darklevel < 1)	381	if (!darklevel)
366	pass2 = 1;	382	pass2 = 1;
367	else	383	else
368	{	384	{
369	/* first, make everything totally dark */	385	/* first, make everything totally dark */
370	for (int dx = -half_x; dx <= half_x; dx++)	386	for (int dx = -half_x; dx <= half_x; dx++)
371	for (int dy = -half_x; dy <= half_y; dy++)	387	for (int dy = -half_x; dy <= half_y; dy++)
372	if (op->contr->los[dx + LOS_X0][dy + LOS_Y0] != LOS_BLOCKED)
373	op->contr->los[dx + LOS_X0][dy + LOS_Y0] = LOS_MAX;	388	max_it (pl->los[dx + LOS_X0][dy + LOS_Y0], LOS_MAX);
374		389
375	/*	390	/*
376	* Only process the area of interest.	391	* Only process the area of interest.
377	* the basex, basey values represent the position in the op->contr->los	392	* the basex, basey values represent the position in the op->contr->los
378	* array. Its easier to just increment them here (and start with the right	393	* array. Its easier to just increment them here (and start with the right
379	* value) than to recalculate them down below.	394	* value) than to recalculate them down below.
380	*/	395	*/
381	for (int x = min_x; x <= max_x; x++)	396	for (maprect *r = rects; r->m; ++r)
382	for (int y = min_y; y <= max_y; y++)	397	rect_mapwalk (r, 0, 0)
383	{	398	{
384	maptile *m = op->map;
385	sint16 nx = x;
386	sint16 ny = y;
387
388	if (!xy_normalise (m, nx, ny))
389	continue;
390
391	mapspace &ms = m->at (nx, ny);	399	mapspace &ms = m->at (nx, ny);
392	ms.update ();	400	ms.update ();
393	sint8 light = ms.light;	401	sint8 light = ms.light;
394		402
395	if (expect_false (light))	403	if (expect_false (light))
396	if (light < 0)	404	if (light < 0)
397	pass2 = 1;	405	pass2 = 1;
398	else	406	else
		407	{
		408	light = clamp (light + bonus, 0, MAX_LIGHT_RADIUS);
399	apply_light<los_brighten> (op, x - op->x, y - op->y, light, darkness [light + MAX_LIGHT_RADIUS]);	409	apply_light<los_brighten> (pl, dx - pl->viewpoint->x, dy - pl->viewpoint->y, light, light_atten [light + MAX_LIGHT_RADIUS]);
		410	}
400	}	411	}
401		412
402	/* grant some vision to the player, based on the darklevel */	413	/* grant some vision to the player, based on outside, outdoor, and darklevel */
403	/* for outdoor maps, ensure some mininum visibility radius */
404	{	414	{
405	int light = clamp (MAX_DARKNESS - darklevel, op->map->outdoor ? 2 : 0, MAX_LIGHT_RADIUS);	415	int light;
406		416
		417	if (!op->map->outdoor) // not outdoor, darkness becomes light radius
		418	light = MAX_DARKNESS - op->map->darkness;
		419	else if (op->map->darkness > 0) // outdoor and darkness > 0 => use darkness as max radius
		420	light = lerp_rd (maptile::outdoor_darkness + 0, 0, MAX_DARKNESS, MAX_DARKNESS - op->map->darkness, 0);
		421	else // outdoor and darkness <= 0 => start wide and decrease quickly
		422	light = lerp (maptile::outdoor_darkness + op->map->darkness, 0, MAX_DARKNESS, MAX_VISION, 2);
		423
		424	light = clamp (light + bonus, 0, MAX_VISION);
		425
407	apply_light<los_brighten> (op, 0, 0, light, darkness [light + MAX_LIGHT_RADIUS]);	426	apply_light<los_brighten> (pl, 0, 0, light, vision_atten [light]);
408	}	427	}
409	}	428	}
		429
		430	// when we fly high, we have some minimum viewable area around us, like x-ray
		431	if (op->move_type & MOVE_FLY_HIGH)
		432	apply_light<los_brighten_nolos> (pl, 0, 0, 9, vision_atten [9]);
410		433
411	// possibly do 2nd pass for rare negative glow radii	434	// possibly do 2nd pass for rare negative glow radii
412	// for effect, those are always considered to be stronger than anything else	435	// for effect, those are always considered to be stronger than anything else
413	// but they can't darken a place completely	436	// but they can't darken a place completely
414	if (pass2)	437	if (pass2)
415	for (int x = min_x; x <= max_x; x++)	438	for (maprect *r = rects; r->m; ++r)
416	for (int y = min_y; y <= max_y; y++)	439	rect_mapwalk (r, 0, 0)
417	{	440	{
418	maptile *m = op->map;
419	sint16 nx = x;
420	sint16 ny = y;
421
422	if (!xy_normalise (m, nx, ny))
423	continue;
424
425	mapspace &ms = m->at (nx, ny);	441	mapspace &ms = m->at (nx, ny);
426	ms.update ();	442	ms.update ();
427	sint8 light = ms.light;	443	sint8 light = ms.light;
428		444
429	if (expect_false (light < 0))	445	if (expect_false (light < 0))
		446	{
		447	light = clamp (light - bonus, 0, MAX_DARKNESS);
430	apply_light<los_darken> (op, x - op->x, y - op->y, -light, darkness [light + MAX_LIGHT_RADIUS]);	448	apply_light<los_darken> (pl, dx - pl->viewpoint->x, dy - pl->viewpoint->y, -light, light_atten [light + MAX_LIGHT_RADIUS]);
		449	}
431	}	450	}
432	}	451	}
433		452
434	/* blinded_sight() - sets all viewable squares to blocked except	453	/* blinded_sight() - sets all viewable squares to blocked except
435	* for the one the central one that the player occupies. A little	454	* for the one the central one that the player occupies. A little
436	* odd that you can see yourself (and what your standing on), but	455	* odd that you can see yourself (and what your standing on), but
437	* really need for any reasonable game play.	456	* really need for any reasonable game play.
438	*/	457	*/
439	static void	458	static void
440	blinded_sight (object *op)	459	blinded_sight (player *pl)
441	{	460	{
442	op->contr->los[LOS_X0][LOS_Y0] = 3;	461	pl->los[LOS_X0][LOS_Y0] = 1;
443	}	462	}
444		463
445	/*	464	/*
446	* update_los() recalculates the array which specifies what is	465	* update_los() recalculates the array which specifies what is
447	* visible for the given player-object.	466	* visible for the given player-object.
448	*/	467	*/
449	void	468	void
450	update_los (object *op)	469	player::update_los ()
451	{	470	{
452	if (QUERY_FLAG (op, FLAG_REMOVED))	471	if (ob->flag [FLAG_REMOVED])//D really needed?
453	return;	472	return;
454		473
455	op->contr->clear_los ();	474	if (ob->flag [FLAG_WIZLOOK])
456		475	clear_los (0);
457	if (QUERY_FLAG (op, FLAG_WIZ) /* \|\|XRAYS(op) */ )
458	memset (op->contr->los, 0, sizeof (op->contr->los));
459	else if (QUERY_FLAG (op, FLAG_BLIND)) /* player is blind */	476	else if (viewpoint->flag [FLAG_BLIND]) /* player is blind */
		477	{
		478	clear_los ();
460	blinded_sight (op);	479	blinded_sight (this);
		480	}
461	else	481	else
462	{	482	{
463	do_los (op);	483	clear_los ();
		484	calculate_los (this);
464	apply_lights (op);	485	apply_lights (this);
465	}	486	}
466		487
467	if (QUERY_FLAG (op, FLAG_XRAYS))	488	if (viewpoint->flag [FLAG_XRAYS])
468	for (int dx = -2; dx <= 2; dx++)	489	for (int dx = -2; dx <= 2; dx++)
469	for (int dy = -2; dy <= 2; dy++)	490	for (int dy = -2; dy <= 2; dy++)
470	op->contr->los[dx + LOS_X0][dy + LOS_X0] = 0;	491	min_it (los[dx + LOS_X0][dy + LOS_Y0], 1);
471	}	492	}
472		493
473	/* update all_map_los is like update_all_los below,	494	/* update all_map_los is like update_all_los below,
474	* but updates everyone on the map, no matter where they	495	* but updates everyone on the map, no matter where they
475	* are. This generally should not be used, as a per	496	* are. This generally should not be used, as a per
…		…
482	* change_map_light function	503	* change_map_light function
483	*/	504	*/
484	void	505	void
485	update_all_map_los (maptile *map)	506	update_all_map_los (maptile *map)
486	{	507	{
487	for_all_players (pl)	508	for_all_players_on_map (pl, map)
488	if (pl->ob && pl->ob->map == map)
489	pl->do_los = 1;	509	pl->do_los = 1;
490	}	510	}
491		511
492	/*	512	/*
493	* This function makes sure that update_los() will be called for all	513	* This function makes sure that update_los() will be called for all
494	* players on the given map within the next frame.	514	* players on the given map within the next frame.
…		…
502	* map is the map that changed, x and y are the coordinates.	522	* map is the map that changed, x and y are the coordinates.
503	*/	523	*/
504	void	524	void
505	update_all_los (const maptile *map, int x, int y)	525	update_all_los (const maptile *map, int x, int y)
506	{	526	{
		527	map->at (x, y).invalidate ();
		528
507	for_all_players (pl)	529	for_all_players (pl)
508	{	530	{
509	/* Player should not have a null map, but do this	531	/* Player should not have a null map, but do this
510	* check as a safety	532	* check as a safety
511	*/	533	*/
512	if (!pl->ob \|\| !pl->ob->map \|\| !pl->ns)	534	if (!pl->ob \|\| !pl->ob->map \|\| !pl->ns)
513	continue;	535	continue;
514		536
515	/* Same map is simple case - see if pl is close enough.	537	rv_vector rv;
516	* Note in all cases, we did the check for same map first,	538
517	* and then see if the player is close enough and update	539	get_rangevector_from_mapcoord (map, x, y, pl->ob, &rv);
518	* los if that is the case. If the player is on the
519	* corresponding map, but not close enough, then the
520	* player can't be on another map that may be closer,
521	* so by setting it up this way, we trim processing
522	* some.
523	*/	540
524	if (pl->ob->map == map)	541	if ((abs (rv.distance_x) <= pl->ns->mapx / 2) && (abs (rv.distance_y) <= pl->ns->mapy / 2))
525	{
526	if ((abs (pl->ob->x - x) <= pl->ns->mapx / 2) && (abs (pl->ob->y - y) <= pl->ns->mapy / 2))
527	pl->do_los = 1;	542	pl->do_los = 1;
528	}
529
530	/* Now we check to see if player is on adjacent
531	* maps to the one that changed and also within
532	* view. The tile_maps[] could be null, but in that
533	* case it should never match the pl->ob->map, so
534	* we want ever try to dereference any of the data in it.
535	*
536	* The logic for 0 and 3 is to see how far the player is
537	* from the edge of the map (height/width) - pl->ob->(x,y)
538	* and to add current position on this map - that gives a
539	* distance.
540	* For 1 and 2, we check to see how far the given
541	* coordinate (x,y) is from the corresponding edge,
542	* and then add the players location, which gives
543	* a distance.
544	*/
545	else if (pl->ob->map == map->tile_map[0])
546	{
547	if ((abs (pl->ob->x - x) <= pl->ns->mapx / 2) && (abs (y + map->tile_map[0]->height - pl->ob->y) <= pl->ns->mapy / 2))
548	pl->do_los = 1;
549	}
550	else if (pl->ob->map == map->tile_map[2])
551	{
552	if ((abs (pl->ob->x - x) <= pl->ns->mapx / 2) && (abs (pl->ob->y + map->height - y) <= pl->ns->mapy / 2))
553	pl->do_los = 1;
554	}
555	else if (pl->ob->map == map->tile_map[1])
556	{
557	if ((abs (pl->ob->x + map->width - x) <= pl->ns->mapx / 2) && (abs (pl->ob->y - y) <= pl->ns->mapy / 2))
558	pl->do_los = 1;
559	}
560	else if (pl->ob->map == map->tile_map[3])
561	{
562	if ((abs (x + map->tile_map[3]->width - pl->ob->x) <= pl->ns->mapx / 2) && (abs (pl->ob->y - y) <= pl->ns->mapy / 2))
563	pl->do_los = 1;
564	}
565	}	543	}
		544	}
		545
		546	static const int season_darkness[5][HOURS_PER_DAY] = {
		547	/0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 2 3 4 5 6 7 8 9 10 11 12 13 /
		548	{ 5, 5, 4, 4, 4, 4, 4, 3, 3, 3, 3, 2, 2, 1, 1, 0, 0, 0, 0, 1, 2, 2, 2, 3, 3, 4, 4, 5 },
		549	{ 5, 5, 4, 4, 4, 4, 3, 3, 3, 2, 2, 1, 1, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4 },
		550	{ 5, 4, 4, 4, 4, 3, 3, 2, 2, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 4, 4 },
		551	{ 4, 4, 4, 4, 3, 3, 2, 2, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 4 },
		552	{ 5, 5, 4, 4, 4, 3, 3, 3, 2, 2, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4 }
		553	};
		554
		555	/*
		556	* Tell players the time and compute the darkness level for all maps in the game.
		557	* MUST be called exactly once per hour.
		558	*/
		559	void
		560	maptile::adjust_daylight ()
		561	{
		562	timeofday_t tod;
		563
		564	get_tod (&tod);
		565
		566	// log the time to log-1 every hour, and to chat every day
		567	{
		568	char todbuf[512];
		569
		570	format_tod (todbuf, sizeof (todbuf), &tod);
		571
		572	for_all_players (pl)
		573	pl->ns->send_msg (NDI_GREY, tod.hour == 15 ? CHAT_CHANNEL : LOG_CHANNEL, todbuf);
		574	}
		575
		576	/* If the light level isn't changing, no reason to do all
		577	* the work below.
		578	*/
		579	sint8 new_darkness = season_darkness[tod.season][tod.hour];
		580
		581	if (new_darkness == maptile::outdoor_darkness)
		582	return;
		583
		584	new_draw_info (NDI_GREY \| NDI_UNIQUE \| NDI_ALL, 1, 0,
		585	new_darkness > maptile::outdoor_darkness
		586	? "It becomes darker."
		587	: "It becomes brighter.");
		588
		589	maptile::outdoor_darkness = new_darkness;
		590
		591	// we simply update the los for all players, which is unnecessarily
		592	// costly, but should do for the moment.
		593	for_all_players (pl)
		594	pl->do_los = 1;
566	}	595	}
567		596
568	/*	597	/*
569	* make_sure_seen: The object is supposed to be visible through walls, thus	598	* make_sure_seen: The object is supposed to be visible through walls, thus
570	* check if any players are nearby, and edit their LOS array.	599	* check if any players are nearby, and edit their LOS array.
…		…
574	{	603	{
575	for_all_players (pl)	604	for_all_players (pl)
576	if (pl->ob->map == op->map &&	605	if (pl->ob->map == op->map &&
577	pl->ob->y - pl->ns->mapy / 2 <= op->y &&	606	pl->ob->y - pl->ns->mapy / 2 <= op->y &&
578	pl->ob->y + pl->ns->mapy / 2 >= op->y && pl->ob->x - pl->ns->mapx / 2 <= op->x && pl->ob->x + pl->ns->mapx / 2 >= op->x)	607	pl->ob->y + pl->ns->mapy / 2 >= op->y && pl->ob->x - pl->ns->mapx / 2 <= op->x && pl->ob->x + pl->ns->mapx / 2 >= op->x)
579	pl->los[op->x - pl->ob->x + LOS_X0][op->y - pl->ob->y + LOS_X0] = 0;	608	pl->los[op->x - pl->ob->x + LOS_X0][op->y - pl->ob->y + LOS_Y0] = 0;
580	}	609	}
581		610
582	/*	611	/*
583	* make_sure_not_seen: The object which is supposed to be visible through	612	* make_sure_not_seen: The object which is supposed to be visible through
584	* walls has just been removed from the map, so update the los of any	613	* walls has just been removed from the map, so update the los of any
…		…
591	if (pl->ob->map == op->map &&	620	if (pl->ob->map == op->map &&
592	pl->ob->y - pl->ns->mapy / 2 <= op->y &&	621	pl->ob->y - pl->ns->mapy / 2 <= op->y &&
593	pl->ob->y + pl->ns->mapy / 2 >= op->y && pl->ob->x - pl->ns->mapx / 2 <= op->x && pl->ob->x + pl->ns->mapx / 2 >= op->x)	622	pl->ob->y + pl->ns->mapy / 2 >= op->y && pl->ob->x - pl->ns->mapx / 2 <= op->x && pl->ob->x + pl->ns->mapx / 2 >= op->x)
594	pl->do_los = 1;	623	pl->do_los = 1;
595	}	624	}
		625

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Comparing deliantra/server/common/los.C (file contents): Revision 1.43 by root, Sat Dec 20 04:02:15 2008 UTC vs. Revision 1.69 by root, Fri Mar 26 01:04:44 2010 UTC

Diff Legend

Comparing deliantra/server/common/los.C (file contents):
Revision 1.43 by root, Sat Dec 20 04:02:15 2008 UTC vs.
Revision 1.69 by root, Fri Mar 26 01:04:44 2010 UTC