[ViewVC] Diff of: cvs/deliantra/server/socket/request.C

Comparing deliantra/server/socket/request.C (file contents):
Revision 1.57 by root, Thu Jan 4 00:08:08 2007 UTC vs.
Revision 1.77 by root, Wed Mar 14 15:44:47 2007 UTC

…		…
1	/*	1	/*
2	CrossFire, A Multiplayer game for X-windows	2	* CrossFire, A Multiplayer game for X-windows
3		3	*
		4	* Copyright (C) 2005, 2006, 2007 Marc Lehmann & Crossfire+ Development Team
4	Copyright (C) 2001 Mark Wedel	5	* Copyright (C) 2001 Mark Wedel
5	Copyright (C) 1992 Frank Tore Johansen	6	* Copyright (C) 1992 Frank Tore Johansen
6		7	*
7	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
8	it under the terms of the GNU General Public License as published by	9	* it under the terms of the GNU General Public License as published by
9	the Free Software Foundation; either version 2 of the License, or	10	* the Free Software Foundation; either version 2 of the License, or
10	(at your option) any later version.	11	* (at your option) any later version.
11		12	*
12	This program is distributed in the hope that it will be useful,	13	* This program is distributed in the hope that it will be useful,
13	but WITHOUT ANY WARRANTY; without even the implied warranty of	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
14	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15	GNU General Public License for more details.	16	* GNU General Public License for more details.
16		17	*
17	You should have received a copy of the GNU General Public License	18	* You should have received a copy of the GNU General Public License
18	along with this program; if not, write to the Free Software	19	* along with this program; if not, write to the Free Software
19	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.	20	* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
20		21	*
21	The author can be reached via e-mail to <crossfire@schmorp.de>	22	* The author can be reached via e-mail to <crossfire@schmorp.de>
22	*/	23	*/
23		24
24	/**	25	/**
25	* \file	26	* \file
26	* Client handling.	27	* Client handling.
27	*	28	*
35	* have the prototype of (char *data, int datalen, int client_num). This	36	* have the prototype of (char *data, int datalen, int client_num). This
36	* way, we can use one dispatch table.	37	* way, we can use one dispatch table.
37	*	38	*
38	* esrv_map_new starts updating the map	39	* esrv_map_new starts updating the map
39	*	40	*
40	* esrv_map_setbelow allows filling in all of the faces for the map.
41	* if a face has not already been sent to the client, it is sent now.
42	*
43	*/	41	*/
44		42
45	#include <global.h>	43	#include <global.h>
46	#include <sproto.h>	44	#include <sproto.h>
47		45
…		…
100	* that much difference in bandwidth.	98	* that much difference in bandwidth.
101	*/	99	*/
102	mx = ns->mapx;	100	mx = ns->mapx;
103	my = ns->mapy;	101	my = ns->mapy;
104		102
105	if (ns->mapmode == Map1aCmd)
106	{
107	mx += MAX_HEAD_OFFSET;
108	my += MAX_HEAD_OFFSET;
109	}
110
111	/* the x and y here are coordinates for the new map, i.e. if we moved	103	/* the x and y here are coordinates for the new map, i.e. if we moved
112	* (dx,dy), newmap[x][y] = oldmap[x-dx][y-dy]. For this reason,	104	* (dx,dy), newmap[x][y] = oldmap[x-dx][y-dy]. For this reason,
113	* if the destination x or y coordinate is outside the viewable	105	* if the destination x or y coordinate is outside the viewable
114	* area, we clear the values - otherwise, the old values	106	* area, we clear the values - otherwise, the old values
115	* are preserved, and the check_head thinks it needs to clear them.	107	* are preserved, and the check_head thinks it needs to clear them.
…		…
146	pl->ns->send_packet ("newmap");	138	pl->ns->send_packet ("newmap");
147		139
148	pl->ns->floorbox_reset ();	140	pl->ns->floorbox_reset ();
149	}	141	}
150		142
151	/** check for map change and send new map data */	143	/** check for map/region change and send new map data */
152	static void	144	static void
153	check_map_change (player *pl)	145	check_map_change (player *pl)
154	{	146	{
155	client &socket = *pl->ns;	147	client &socket = *pl->ns;
156	object *ob = pl->ob;	148	object *ob = pl->ob;
…		…
200	}	192	}
201	}	193	}
202		194
203	socket.current_x = ob->x;	195	socket.current_x = ob->x;
204	socket.current_y = ob->y;	196	socket.current_y = ob->y;
		197
		198	region *reg = ob->region ();
		199	if (socket.current_region != reg)
		200	{
		201	socket.current_region = reg;
		202	socket.send_packet_printf ("drawinfo 0 You are now %s.\n(use whereami for more details)", &reg->longname);
		203	}
205	}	204	}
206		205
207	/**	206	/**
208	* RequestInfo is sort of a meta command. There is some specific	207	* RequestInfo is sort of a meta command. There is some specific
209	* request of information, but we call other functions to provide	208	* request of information, but we call other functions to provide
…		…
290	{	289	{
291	int dir = *buf++;	290	int dir = *buf++;
292		291
293	switch (dir)	292	switch (dir)
294	{	293	{
295	case '1':	294	case '1':
296	dx = 0;	295	dx = 0;
297	dy = -1;	296	dy = -1;
298	map = get_map_from_coord (map, &dx, &dy);	297	map = map->xy_find (dx, dy);
299	map && (mapy -= map->height);	298	map && (mapy -= map->height);
300	break;	299	break;
301	case '2':	300	case '2':
302	mapx += map->width;	301	mapx += map->width;
303	dx = map->width;	302	dx = map->width;
304	dy = 0;	303	dy = 0;
305	map = get_map_from_coord (map, &dx, &dy);	304	map = map->xy_find (dx, dy);
306	break;	305	break;
307	case '3':	306	case '3':
308	mapy += map->height;	307	mapy += map->height;
309	dx = 0;	308	dx = 0;
310	dy = map->height;	309	dy = map->height;
311	map = get_map_from_coord (map, &dx, &dy);	310	map = map->xy_find (dx, dy);
312	break;	311	break;
313	case '4':	312	case '4':
314	dx = -1;	313	dx = -1;
315	dy = 0;	314	dy = 0;
316	map = get_map_from_coord (map, &dx, &dy);	315	map = map->xy_find (dx, dy);
317	map && (mapx -= map->width);	316	map && (mapx -= map->width);
318	break;	317	break;
319	}	318	}
320		319
321	--max_distance;	320	--max_distance;
322	}	321	}
323		322
…		…
432	}	431	}
433	else if (!strcmp (cmd, "newmapcmd"))	432	else if (!strcmp (cmd, "newmapcmd"))
434	{	433	{
435	ns->newmapcmd = atoi (param);	434	ns->newmapcmd = atoi (param);
436	safe_strcat (cmdback, param, &slen, HUGE_BUF);	435	safe_strcat (cmdback, param, &slen, HUGE_BUF);
437	// } else if (!strcmp(cmd,"plugincmd")) {
438	// ns->plugincmd = atoi(param);
439	// safe_strcat(cmdback, param, &slen, HUGE_BUF);
440	}	436	}
441	else if (!strcmp (cmd, "mapinfocmd"))	437	else if (!strcmp (cmd, "mapinfocmd"))
442	{	438	{
443	ns->mapinfocmd = atoi (param);	439	ns->mapinfocmd = atoi (param);
444	safe_strcat (cmdback, "1", &slen, HUGE_BUF);	440	safe_strcat (cmdback, "1", &slen, HUGE_BUF);
…		…
463	char tmpbuf[20];	459	char tmpbuf[20];
464	int q = atoi (param);	460	int q = atoi (param);
465		461
466	if (is_valid_faceset (q))	462	if (is_valid_faceset (q))
467	ns->faceset = q;	463	ns->faceset = q;
		464
468	sprintf (tmpbuf, "%d", ns->faceset);	465	sprintf (tmpbuf, "%d", ns->faceset);
469	safe_strcat (cmdback, tmpbuf, &slen, HUGE_BUF);	466	safe_strcat (cmdback, tmpbuf, &slen, HUGE_BUF);
470	/* if the client is using faceset, it knows about image2 command */	467	/* if the client is using faceset, it knows about image2 command */
471	ns->image2 = 1;	468	ns->image2 = 1;
472	}	469	}
…		…
500	if (cp == 'x' \|\| cp == 'X')	497	if (cp == 'x' \|\| cp == 'X')
501	{	498	{
502	y = atoi (cp + 1);	499	y = atoi (cp + 1);
503	break;	500	break;
504	}	501	}
		502
505	if (x < 9 \|\| y < 9 \|\| x > MAP_CLIENT_X \|\| y > MAP_CLIENT_Y)	503	if (x < 9 \|\| y < 9 \|\| x > MAP_CLIENT_X \|\| y > MAP_CLIENT_Y)
506	{	504	{
507	sprintf (tmpbuf, " %dx%d", MAP_CLIENT_X, MAP_CLIENT_Y);	505	sprintf (tmpbuf, " %dx%d", MAP_CLIENT_X, MAP_CLIENT_Y);
508	safe_strcat (cmdback, tmpbuf, &slen, HUGE_BUF);	506	safe_strcat (cmdback, tmpbuf, &slen, HUGE_BUF);
509	}	507	}
…		…
564	* This is what takes care of it. We tell the client how things worked out.	562	* This is what takes care of it. We tell the client how things worked out.
565	* I am not sure if this file is the best place for this function. however,	563	* I am not sure if this file is the best place for this function. however,
566	* it either has to be here or init_sockets needs to be exported.	564	* it either has to be here or init_sockets needs to be exported.
567	*/	565	*/
568	void	566	void
569	AddMeCmd (char buf, int len, client ns)	567	AddMeCmd (char buf, int len, client ns)
570	{	568	{
		569	// face caching is mandatory
		570	if (!ns->facecache)
		571	{
		572	ns->send_drawinfo (
		573	"\n"
		574	"\n"
		575	"***\n"
		576	"*** WARNING:\n"
		577	"*** Your client does not support face/image caching,\n"
		578	"*** or it has been disabled. Face caching is mandatory\n"
		579	"*** so please enable it or use a newer client.\n"
		580	"***\n"
		581	"*** I will proceed as if face caching were enabled.\n"
		582	"\n"
		583	"***\n",
		584	NDI_RED
		585	);
		586	//ns->facecache = true;
		587	}
		588
571	INVOKE_CLIENT (ADDME, ns, ARG_DATA (buf, len));	589	INVOKE_CLIENT (ADDME, ns, ARG_DATA (buf, len));
572	}	590	}
573		591
574	/** Reply to ExtendedInfos command */	592	/** Reply to ExtendedInfos command */
575	void	593	void
…		…
686		704
687	ns->send_packet (cmdback);	705	ns->send_packet (cmdback);
688	}	706	}
689		707
690	/**	708	/**
691	* A lot like the old AskSmooth (in fact, now called by AskSmooth).	709	* client requested an image. send it rate-limited
692	* Basically, it makes no sense to wait for the client to request a	710	* before flushing.
693	* a piece of data from us that we know the client wants. So
694	* if we know the client wants it, might as well push it to the
695	* client.
696	*/
697	static void
698	SendSmooth (client *ns, uint16 face)
699	{
700	uint16 smoothface;
701
702	/* If we can't find a face, return and set it so we won't try to send this
703	* again.
704	*/	711	*/
705	if ((!FindSmooth (face, &smoothface)) && (!FindSmooth (smooth_face->number, &smoothface)))	712	void
706	{	713	AskFaceCmd (char buf, int len, client ns)
707		714	{
708	LOG (llevError, "could not findsmooth for %d. Neither default (%s)\n", face, &smooth_face->name);	715	ns->askface.push_back (atoi (buf));
709	ns->faces_sent[face] \|= NS_FACESENT_SMOOTH;
710	return;
711	}
712
713	if (!(ns->faces_sent[smoothface] & NS_FACESENT_FACE))
714	esrv_send_face (ns, smoothface, 0);
715
716	ns->faces_sent[face] \|= NS_FACESENT_SMOOTH;
717
718	packet sl ("smooth");
719
720	sl << uint16 (face)
721	<< uint16 (smoothface);
722
723	ns->send_packet (sl);
724	}	716	}
725		717
726	/**	718	/**
727	* Tells client the picture it has to use	719	* Tells client the picture it has to use
728	* to smooth a picture number given as argument.	720	* to smooth a picture number given as argument.
729	*/	721	*/
730	void	722	void
731	AskSmooth (char buf, int len, client ns)	723	AskSmooth (char buf, int len, client ns)
732	{	724	{
733	SendSmooth (ns, atoi (buf));	725	ns->send_face (atoi (buf));
734	}	726	}
735		727
736	/**	728	/**
737	* This handles the general commands from the client (ie, north, fire, cast,	729	* This handles the general commands from the client (ie, north, fire, cast,
738	* etc.)	730	* etc.)
…		…
797	* commands.	789	* commands.
798	*/	790	*/
799	pl->count = 0;	791	pl->count = 0;
800		792
801	//TODO: schmorp thinks whatever this calculates, it makes no sense at all	793	//TODO: schmorp thinks whatever this calculates, it makes no sense at all
802	int time = FABS (pl->ob->speed) < 0.001	794	int time = fabs (pl->ob->speed) < 0.001
803	? time = MAX_TIME * 100	795	? time = MAX_TIME * 100
804	: time = (int) (MAX_TIME / FABS (pl->ob->speed));	796	: time = (int) (MAX_TIME / fabs (pl->ob->speed));
805		797
806	/* Send confirmation of command execution now */	798	/* Send confirmation of command execution now */
807	packet sl ("comc");	799	packet sl ("comc");
808	sl << uint16 (cmdid) << uint32 (time);	800	sl << uint16 (cmdid) << uint32 (time);
809	pl->ns->send_packet (sl);	801	pl->ns->send_packet (sl);
…		…
845		837
846	case ST_CHANGE_CLASS:	838	case ST_CHANGE_CLASS:
847	key_change_class (pl->ob, buf[0]);	839	key_change_class (pl->ob, buf[0]);
848	break;	840	break;
849		841
850	case ST_CONFIRM_QUIT:
851	key_confirm_quit (pl->ob, buf[0]);
852	break;
853
854	case ST_GET_PARTY_PASSWORD: /* Get password for party */	842	case ST_GET_PARTY_PASSWORD: /* Get password for party */
855	receive_party_password (pl->ob, 13);	843	receive_party_password (pl->ob, 13);
856	break;	844	break;
857		845
858	default:	846	default:
…		…
878		866
879	ns->cs_version = atoi (buf);	867	ns->cs_version = atoi (buf);
880	ns->sc_version = ns->cs_version;	868	ns->sc_version = ns->cs_version;
881		869
882	LOG (llevDebug, "connection from client <%s>\n", buf);	870	LOG (llevDebug, "connection from client <%s>\n", buf);
883
884		871
885	//TODO: should log here just for statistics	872	//TODO: should log here just for statistics
886		873
887	//if (VERSION_CS != ns->cs_version)	874	//if (VERSION_CS != ns->cs_version)
888	// unchecked;	875	// unchecked;
…		…
1010	esrv_update_stats (player *pl)	997	esrv_update_stats (player *pl)
1011	{	998	{
1012	char buf[MAX_BUF];	999	char buf[MAX_BUF];
1013	uint16 flags;	1000	uint16 flags;
1014		1001
		1002	client *ns = pl->ns;
1015	if (!pl->ns)	1003	if (!ns)
1016	return;	1004	return;
1017		1005
		1006	object *ob = pl->ob;
		1007	if (!ob)
		1008	return;
		1009
1018	packet sl ("stats");	1010	packet sl ("stats");
1019		1011
1020	if (pl->ob)
1021	{
1022	AddIfShort (pl->last_stats.hp, pl->ob->stats.hp, CS_STAT_HP);	1012	AddIfShort (ns->last_stats.hp, ob->stats.hp, CS_STAT_HP);
1023	AddIfShort (pl->last_stats.maxhp, pl->ob->stats.maxhp, CS_STAT_MAXHP);	1013	AddIfShort (ns->last_stats.maxhp, ob->stats.maxhp, CS_STAT_MAXHP);
1024	AddIfShort (pl->last_stats.sp, pl->ob->stats.sp, CS_STAT_SP);	1014	AddIfShort (ns->last_stats.sp, ob->stats.sp, CS_STAT_SP);
1025	AddIfShort (pl->last_stats.maxsp, pl->ob->stats.maxsp, CS_STAT_MAXSP);	1015	AddIfShort (ns->last_stats.maxsp, ob->stats.maxsp, CS_STAT_MAXSP);
1026	AddIfShort (pl->last_stats.grace, pl->ob->stats.grace, CS_STAT_GRACE);	1016	AddIfShort (ns->last_stats.grace, ob->stats.grace, CS_STAT_GRACE);
1027	AddIfShort (pl->last_stats.maxgrace, pl->ob->stats.maxgrace, CS_STAT_MAXGRACE);	1017	AddIfShort (ns->last_stats.maxgrace, ob->stats.maxgrace, CS_STAT_MAXGRACE);
1028	AddIfShort (pl->last_stats.Str, pl->ob->stats.Str, CS_STAT_STR);	1018	AddIfShort (ns->last_stats.Str, ob->stats.Str, CS_STAT_STR);
1029	AddIfShort (pl->last_stats.Dex, pl->ob->stats.Dex, CS_STAT_DEX);	1019	AddIfShort (ns->last_stats.Dex, ob->stats.Dex, CS_STAT_DEX);
1030	AddIfShort (pl->last_stats.Con, pl->ob->stats.Con, CS_STAT_CON);	1020	AddIfShort (ns->last_stats.Con, ob->stats.Con, CS_STAT_CON);
1031	AddIfShort (pl->last_stats.Int, pl->ob->stats.Int, CS_STAT_INT);	1021	AddIfShort (ns->last_stats.Int, ob->stats.Int, CS_STAT_INT);
1032	AddIfShort (pl->last_stats.Wis, pl->ob->stats.Wis, CS_STAT_WIS);	1022	AddIfShort (ns->last_stats.Wis, ob->stats.Wis, CS_STAT_WIS);
1033	AddIfShort (pl->last_stats.Pow, pl->ob->stats.Pow, CS_STAT_POW);	1023	AddIfShort (ns->last_stats.Pow, ob->stats.Pow, CS_STAT_POW);
1034	AddIfShort (pl->last_stats.Cha, pl->ob->stats.Cha, CS_STAT_CHA);	1024	AddIfShort (ns->last_stats.Cha, ob->stats.Cha, CS_STAT_CHA);
1035	}
1036		1025
1037	for (int s = 0; s < NUM_SKILLS; s++)	1026	for (int s = 0; s < NUM_SKILLS; s++)
1038	if (pl->last_skill_ob[s] && pl->last_skill_exp[s] != pl->last_skill_ob[s]->stats.exp)	1027	if (object *skill = pl->last_skill_ob[s])
		1028	if (skill->stats.exp != ns->last_skill_exp [s])
1039	{	1029	{
		1030	ns->last_skill_exp [s] = skill->stats.exp;
		1031
1040	/* Always send along the level if exp changes. This is only	1032	/* Always send along the level if exp changes. This is only
1041	* 1 extra byte, but keeps processing simpler.	1033	* 1 extra byte, but keeps processing simpler.
1042	*/	1034	*/
1043	sl << uint8 (s + CS_STAT_SKILLINFO)	1035	sl << uint8 (s + CS_STAT_SKILLINFO)
1044	<< uint8 (pl->last_skill_ob[s]->level)	1036	<< uint8 (skill->level)
1045	<< uint64 (pl->last_skill_ob[s]->stats.exp);	1037	<< uint64 (skill->stats.exp);
1046
1047	pl->last_skill_exp[s] = pl->last_skill_ob[s]->stats.exp;
1048	}	1038	}
1049		1039
1050	AddIfInt64 (pl->last_stats.exp, pl->ob->stats.exp, CS_STAT_EXP64);	1040	AddIfInt64 (ns->last_stats.exp, ob->stats.exp, CS_STAT_EXP64);
1051	AddIfShort (pl->last_level, (char) pl->ob->level, CS_STAT_LEVEL);	1041	AddIfShort (ns->last_level, ob->level, CS_STAT_LEVEL);
1052	AddIfShort (pl->last_stats.wc, pl->ob->stats.wc, CS_STAT_WC);	1042	AddIfShort (ns->last_stats.wc, ob->stats.wc, CS_STAT_WC);
1053	AddIfShort (pl->last_stats.ac, pl->ob->stats.ac, CS_STAT_AC);	1043	AddIfShort (ns->last_stats.ac, ob->stats.ac, CS_STAT_AC);
1054	AddIfShort (pl->last_stats.dam, pl->ob->stats.dam, CS_STAT_DAM);	1044	AddIfShort (ns->last_stats.dam, ob->stats.dam, CS_STAT_DAM);
1055	AddIfFloat (pl->last_speed, pl->ob->speed, CS_STAT_SPEED);	1045	AddIfFloat (ns->last_speed, ob->speed, CS_STAT_SPEED);
1056	AddIfShort (pl->last_stats.food, pl->ob->stats.food, CS_STAT_FOOD);	1046	AddIfShort (ns->last_stats.food, ob->stats.food, CS_STAT_FOOD);
1057	AddIfFloat (pl->last_weapon_sp, pl->weapon_sp, CS_STAT_WEAP_SP);	1047	AddIfFloat (ns->last_weapon_sp, pl->weapon_sp, CS_STAT_WEAP_SP);
1058	AddIfInt (pl->last_weight_limit, (sint32) weight_limit[pl->ob->stats.Str], CS_STAT_WEIGHT_LIM);	1048	AddIfInt (ns->last_weight_limit, weight_limit[ob->stats.Str], CS_STAT_WEIGHT_LIM);
		1049
1059	flags = 0;	1050	flags = 0;
1060		1051
1061	if (pl->fire_on)	1052	if (pl->fire_on)
1062	flags \|= SF_FIREON;	1053	flags \|= SF_FIREON;
1063		1054
1064	if (pl->run_on)	1055	if (pl->run_on)
1065	flags \|= SF_RUNON;	1056	flags \|= SF_RUNON;
1066		1057
1067	AddIfShort (pl->last_flags, flags, CS_STAT_FLAGS);	1058	AddIfShort (ns->last_flags, flags, CS_STAT_FLAGS);
1068		1059
1069	if (pl->ns->sc_version < 1025)	1060	if (ns->sc_version < 1025)
1070	{ AddIfShort (pl->last_resist[ATNR_PHYSICAL], pl->ob->resist[ATNR_PHYSICAL], CS_STAT_ARMOUR) }	1061	{ AddIfShort (ns->last_resist[ATNR_PHYSICAL], ob->resist[ATNR_PHYSICAL], CS_STAT_ARMOUR) }
1071	else	1062	else
1072	for (int i = 0; i < NROFATTACKS; i++)	1063	for (int i = 0; i < NROFATTACKS; i++)
1073	{	1064	{
1074	/* Skip ones we won't send */	1065	/* Skip ones we won't send */
1075	if (atnr_cs_stat[i] == -1)	1066	if (atnr_cs_stat[i] == -1)
1076	continue;	1067	continue;
1077		1068
1078	AddIfShort (pl->last_resist[i], pl->ob->resist[i], (char) atnr_cs_stat[i]);	1069	AddIfShort (ns->last_resist[i], ob->resist[i], atnr_cs_stat[i]);
1079	}	1070	}
1080		1071
1081	if (pl->ns->monitor_spells)	1072	if (pl->ns->monitor_spells)
1082	{	1073	{
1083	AddIfInt (pl->last_path_attuned, pl->ob->path_attuned, CS_STAT_SPELL_ATTUNE);	1074	AddIfInt (ns->last_path_attuned, ob->path_attuned, CS_STAT_SPELL_ATTUNE);
1084	AddIfInt (pl->last_path_repelled, pl->ob->path_repelled, CS_STAT_SPELL_REPEL);	1075	AddIfInt (ns->last_path_repelled, ob->path_repelled, CS_STAT_SPELL_REPEL);
1085	AddIfInt (pl->last_path_denied, pl->ob->path_denied, CS_STAT_SPELL_DENY);	1076	AddIfInt (ns->last_path_denied, ob->path_denied, CS_STAT_SPELL_DENY);
1086	}	1077	}
1087		1078
1088	rangetostring (pl->ob, buf); /* we want use the new fire & run system in new client */	1079	rangetostring (ob, buf); /* we want use the new fire & run system in new client */
1089	AddIfString (pl->ns->stats.range, buf, CS_STAT_RANGE);	1080	AddIfString (ns->stats.range, buf, CS_STAT_RANGE);
1090	set_title (pl->ob, buf);	1081	set_title (ob, buf);
1091	AddIfString (pl->ns->stats.title, buf, CS_STAT_TITLE);	1082	AddIfString (ns->stats.title, buf, CS_STAT_TITLE);
1092		1083
1093	/* Only send it away if we have some actual data */	1084	/* Only send it away if we have some actual data */
1094	if (sl.length () > 6)	1085	if (sl.length () > 6)
1095	pl->ns->send_packet (sl);	1086	ns->send_packet (sl);
1096	}	1087	}
1097		1088
1098	/**	1089	/**
1099	* Tells the client that here is a player it should start using.	1090	* Tells the client that here is a player it should start using.
1100	*/	1091	*/
1101	void	1092	void
1102	esrv_new_player (player *pl, uint32 weight)	1093	esrv_new_player (player *pl, uint32 weight)
1103	{	1094	{
1104	pl->last_weight = weight;
1105
1106	packet sl ("player");	1095	packet sl ("player");
1107		1096
1108	sl << uint32 (pl->ob->count)	1097	sl << uint32 (pl->ob->count)
1109	<< uint32 (weight)	1098	<< uint32 (weight)
1110	<< uint32 (pl->ob->face->number)	1099	<< uint32 (pl->ob->face)
1111	<< data8 (pl->ob->name);	1100	<< data8 (pl->ob->name);
1112		1101
		1102	pl->ns->last_weight = weight;
1113	pl->ns->send_packet (sl);	1103	pl->ns->send_packet (sl);
1114	SET_FLAG (pl->ob, FLAG_CLIENT_SENT);	1104	SET_FLAG (pl->ob, FLAG_CLIENT_SENT);
1115	}	1105	}
1116
1117	/**
1118	* Need to send an animation sequence to the client.
1119	* We will send appropriate face commands to the client if we haven't
1120	* sent them the face yet (this can become quite costly in terms of
1121	* how much we are sending - on the other hand, this should only happen
1122	* when the player logs in and picks stuff up.
1123	*/
1124	void
1125	esrv_send_animation (client * ns, short anim_num)
1126	{
1127	/* Do some checking on the anim_num we got. Note that the animations
1128	* are added in contigous order, so if the number is in the valid
1129	* range, it must be a valid animation.
1130	*/
1131	if (anim_num < 0 \|\| anim_num > num_animations)
1132	{
1133	LOG (llevError, "esrv_send_anim (%d) out of bounds??\n", anim_num);
1134	return;
1135	}
1136
1137	packet sl ("anim");
1138
1139	sl << uint16 (anim_num)
1140	<< uint16 (0); /* flags - not used right now */
1141
1142	/* Build up the list of faces. Also, send any information (ie, the
1143	* the face itself) down to the client.
1144	*/
1145	for (int i = 0; i < animations[anim_num].num_animations; i++)
1146	{
1147	if (!(ns->faces_sent[animations[anim_num].faces[i]] & NS_FACESENT_FACE))
1148	esrv_send_face (ns, animations[anim_num].faces[i], 0);
1149
1150	sl << uint16 (animations[anim_num].faces[i]); /* flags - not used right now */
1151	}
1152
1153	ns->send_packet (sl);
1154
1155	ns->anims_sent[anim_num] = 1;
1156	}
1157
1158		1106
1159	/******************************************************************************	1107	/******************************************************************************
1160	*	1108	*
1161	* Start of map related commands.	1109	* Start of map related commands.
1162	*	1110	*
1163	******************************************************************************/	1111	******************************************************************************/
1164		1112
1165	/**
1166	* This adds face_num to a map cell at x,y. If the client doesn't have
1167	* the face yet, we will also send it.
1168	*/
1169	static void
1170	esrv_map_setbelow (client * ns, int x, int y, short face_num, struct Map *newmap)
1171	{
1172	if (newmap->cells[x][y].count >= MAP_LAYERS)
1173	{
1174	//TODO: one or the other, can't both have abort and return, verify and act
1175	LOG (llevError, "Too many faces in map cell %d %d\n", x, y);
1176	return;
1177	abort ();
1178	}
1179
1180	newmap->cells[x][y].faces[newmap->cells[x][y].count] = face_num;
1181	newmap->cells[x][y].count++;
1182
1183	if (!(ns->faces_sent[face_num] & NS_FACESENT_FACE))
1184	esrv_send_face (ns, face_num, 0);
1185	}
1186
1187	/** Clears a map cell */	1113	/** Clears a map cell */
1188	static void	1114	static void
1189	map_clearcell (struct MapCell *cell, int face0, int face1, int face2, int count)	1115	map_clearcell (struct MapCell *cell, int count)
1190	{	1116	{
1191	cell->faces[0] = face0;	1117	cell->faces[0] = 0;
1192	cell->faces[1] = face1;	1118	cell->faces[1] = 0;
1193	cell->faces[2] = face2;	1119	cell->faces[2] = 0;
		1120	cell->smooth[0] = 0;
		1121	cell->smooth[1] = 0;
		1122	cell->smooth[2] = 0;
1194	cell->count = count;	1123	cell->count = count;
1195	cell->stat_hp = 0;	1124	cell->stat_hp = 0;
1196	cell->flags = 0;	1125	cell->flags = 0;
1197	cell->player = 0;	1126	cell->player = 0;
1198	}	1127	}
1199		1128
1200	#define MAX_HEAD_POS MAX(MAX_CLIENT_X, MAX_CLIENT_Y)
1201	#define MAX_LAYERS 3	1129	#define MAX_LAYERS 3
1202
1203	/* Using a global really isn't a good approach, but saves the over head of
1204	* allocating and deallocating such a block of data each time run through,
1205	* and saves the space of allocating this in the socket object when we only
1206	* need it for this cycle. If the server is ever threaded, this needs to be
1207	* re-examined.
1208	*/
1209	static object heads[MAX_HEAD_POS MAX_HEAD_POS * MAX_LAYERS];
1210
1211	/**
1212	* Returns true if any of the heads for this
1213	* space is set. Returns false if all are blank - this is used
1214	* for empty space checking.
1215	*/
1216	static inline int
1217	have_head (int ax, int ay)
1218	{
1219	if (heads[(ay * MAX_HEAD_POS + ax) * MAX_LAYERS] \|\|
1220	heads[(ay * MAX_HEAD_POS + ax) * MAX_LAYERS + 1] \|\| heads[(ay * MAX_HEAD_POS + ax) * MAX_LAYERS + 2])
1221	return 1;
1222
1223	return 0;
1224	}
1225
1226	/**
1227	* check_head is a bit simplistic version of update_space below.
1228	* basically, it only checks the that the head on space ax,ay at layer
1229	* needs to get sent - if so, it adds the data, sending the head
1230	* if needed, and returning 1. If this no data needs to get
1231	* sent, it returns zero.
1232	*/
1233	static int
1234	check_head (packet &sl, client &ns, int ax, int ay, int layer)
1235	{
1236	short face_num;
1237
1238	if (heads[(ay * MAX_HEAD_POS + ax) * MAX_LAYERS + layer])
1239	face_num = heads[(ay * MAX_HEAD_POS + ax) * MAX_LAYERS + layer]->face->number;
1240	else
1241	face_num = 0;
1242
1243	if (face_num != ns.lastmap.cells[ax][ay].faces[layer])
1244	{
1245	sl << uint16 (face_num);
1246	if (face_num && !(ns.faces_sent[face_num] & NS_FACESENT_FACE))
1247	esrv_send_face (&ns, face_num, 0);
1248
1249	heads[(ay * MAX_HEAD_POS + ax) * MAX_LAYERS + layer] = NULL;
1250	ns.lastmap.cells[ax][ay].faces[layer] = face_num;
1251	return 1;
1252	}
1253
1254	return 0; /* No change */
1255	}
1256		1130
1257	/**	1131	/**
1258	* Removes the need to replicate the same code for each layer.	1132	* Removes the need to replicate the same code for each layer.
1259	* this returns true if this space is now in fact different than	1133	* this returns true if this space is now in fact different than
1260	* it was.	1134	* it was.
1261	* sl is the socklist this data is going into.	1135	* sl is the socklist this data is going into.
1262	* ns is the socket we are working on - all the info we care	1136	* ns is the socket we are working on - all the info we care
1263	* about is in this socket structure, so now need not pass the	1137	* about is in this socket structure, so now need not pass the
1264	* entire player object.	1138	* entire player object.
1265	* mx and my are map coordinate offsets for map mp
1266	* sx and sy are the offsets into the socket structure that
1267	* holds the old values.
1268	* layer is the layer to update, with 2 being the floor and 0 the	1139	* layer is the layer to update, with 2 being the floor and 0 the
1269	* top layer (this matches what the GET_MAP_FACE and GET_MAP_FACE_OBJ)	1140	* top layer (this matches what the GET_MAP_FACE and GET_MAP_FACE_OBJ)
1270	* take. Interesting to note that before this function, the map1 function	1141	* take. Interesting to note that before this function, the map1 function
1271	* numbers the spaces differently - I think this was a leftover from	1142	* numbers the spaces differently - I think this was a leftover from
1272	* the map command, where the faces stack up. Sinces that is no longer	1143	* the map command, where the faces stack up. Sinces that is no longer
1273	* the case, it seems to make more sense to have these layer values	1144	* the case, it seems to make more sense to have these layer values
1274	* actually match.	1145	* actually match.
1275	*/	1146	*/
1276	static int	1147	static int
1277	update_space (packet &sl, client &ns, maptile *mp, int mx, int my, int sx, int sy, int layer)	1148	update_space (packet &sl, client &ns, mapspace &ms, MapCell &lastcell, int layer)
1278	{	1149	{
1279	object ob, head;	1150	object *ob = ms.faces_obj [layer];
1280	uint16 face_num;
1281	int bx, by, i;
1282
1283	/* If there is a multipart object stored away, treat that as more important.
1284	* If not, then do the normal processing.
1285	*/
1286	head = heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + layer];
1287
1288	/* Check to see if this head is part of the set of objects
1289	* we would normally send for this space. If so, then
1290	* don't use the head value. We need to do the check
1291	* here and not when setting up the heads[] value for two reasons -
1292	* 1) the heads[] values will get used even if the space is not visible.
1293	* 2) its possible the head is not on the same map as a part, and I'd
1294	* rather not need to do the map translation overhead.
1295	* 3) We need to do some extra checking to make sure that we will
1296	* otherwise send the image as this layer, eg, either it matches
1297	* the head value, or is not multipart.
1298	*/
1299	if (head && !head->more)
1300	{
1301	for (i = 0; i < MAP_LAYERS; i++)
1302	{
1303	ob = GET_MAP_FACE_OBJ (mp, mx, my, i);
1304	if (!ob)
1305	continue;
1306
1307	if (ob->head)
1308	ob = ob->head;
1309
1310	if (ob == head)
1311	{
1312	heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + layer] = NULL;
1313	head = NULL;
1314	break;
1315	}
1316	}
1317	}
1318
1319	ob = head;
1320	if (!ob)
1321	ob = GET_MAP_FACE_OBJ (mp, mx, my, layer);
1322		1151
1323	/* If there is no object for this space, or if the face for the object	1152	/* If there is no object for this space, or if the face for the object
1324	* is the blank face, set the face number to zero.	1153	* is the blank face, set the face number to zero.
1325	* else if we have the stored head object for this space, that takes	1154	* else if we have the stored head object for this space, that takes
1326	* precedence over the other object for this space.	1155	* precedence over the other object for this space.
1327	* otherwise, we do special head processing	1156	* otherwise, we do special head processing
1328	*/	1157	*/
1329	if (!ob \|\| ob->face == blank_face)	1158	uint16 face_num = ob && ob->face != blank_face ? ob->face : 0;
1330	face_num = 0;
1331	else if (head)
1332	{
1333	/* if this is a head that had previously been stored */
1334	face_num = ob->face->number;
1335	}
1336	else
1337	{
1338	/* if the faces for the different parts of a multipart object
1339	* are the same, we only want to send the bottom right most
1340	* portion of the object. That info is in the tail_.. values
1341	* of the head. Note that for the head itself, ob->head will
1342	* be null, so we only do this block if we are working on
1343	* a tail piece.
1344	*/
1345
1346	/* tail_x and tail_y will only be set in the head object. If
1347	* this is the head object and these are set, we proceed
1348	* with logic to only send bottom right. Similarly, if
1349	* this is one of the more parts but the head has those values
1350	* set, we want to do the processing. There can be cases where
1351	* the head is not visible but one of its parts is, so we just
1352	* can always expect that ob->arch->tail_x will be true for all
1353	* object we may want to display.
1354	*/
1355	if ((ob->arch->tail_x \|\| ob->arch->tail_y) \|\| (ob->head && (ob->head->arch->tail_x \|\| ob->head->arch->tail_y)))
1356	{
1357
1358	if (ob->head)
1359	head = ob->head;
1360	else
1361	head = ob;
1362
1363	/* Basically figure out where the offset is from where we are right
1364	* now. the ob->arch->clone.{x,y} values hold the offset that this current
1365	* piece is from the head, and the tail is where the tail is from the
1366	* head. Note that bx and by will equal sx and sy if we are already working
1367	* on the bottom right corner. If ob is the head, the clone values
1368	* will be zero, so the right thing will still happen.
1369	*/
1370	bx = sx + head->arch->tail_x - ob->arch->clone.x;
1371	by = sy + head->arch->tail_y - ob->arch->clone.y;
1372
1373	/* I don't think this can ever happen, but better to check for it just
1374	* in case.
1375	*/
1376	if (bx < sx \|\| by < sy)
1377	{
1378	LOG (llevError, "update_space: bx (%d) or by (%d) is less than sx (%d) or sy (%d)\n", bx, by, sx, sy);
1379	face_num = 0;
1380	}
1381	/* single part object, multipart object with non merged faces,
1382	* of multipart object already at lower right.
1383	*/
1384	else if (bx == sx && by == sy)
1385	{
1386	face_num = ob->face->number;
1387
1388	/* if this face matches one stored away, clear that one away.
1389	* this code relies on the fact that the map1 commands
1390	* goes from 2 down to 0.
1391	*/
1392	for (i = 0; i < MAP_LAYERS; i++)
1393	if (heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + i] &&
1394	heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + i]->face->number == face_num)
1395	heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + i] = NULL;
1396	}
1397	else
1398	{
1399	/* If this head is stored away, clear it - otherwise,
1400	* there can be cases where a object is on multiple layers -
1401	* we only want to send it once.
1402	*/
1403	face_num = head->face->number;
1404	for (i = 0; i < MAP_LAYERS; i++)
1405	if (heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + i] &&
1406	heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + i]->face->number == face_num)
1407	heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + i] = NULL;
1408
1409	/* First, try to put the new head on the same layer. If that is used up,
1410	* then find another layer.
1411	*/
1412	if (heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + layer] == NULL)
1413	{
1414	heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + layer] = head;
1415	}
1416	else
1417	for (i = 0; i < MAX_LAYERS; i++)
1418	{
1419	if (heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + i] == NULL \|\|
1420	heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + i] == head)
1421	{
1422	heads[(by * MAX_HEAD_POS + bx) * MAX_LAYERS + i] = head;
1423	}
1424	}
1425	face_num = 0; /* Don't send this object - we'll send the head later */
1426	}
1427	}
1428	else
1429	{
1430	/* In this case, we are already at the lower right or single part object,
1431	* so nothing special
1432	*/
1433	face_num = ob->face->number;
1434
1435	/* clear out any head entries that have the same face as this one */
1436	for (bx = 0; bx < layer; bx++)
1437	if (heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + bx] &&
1438	heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + bx]->face->number == face_num)
1439	heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + bx] = NULL;
1440	}
1441	} /* else not already head object or blank face */
1442
1443	/* This is a real hack. Basically, if we have nothing to send for this layer,
1444	* but there is a head on the next layer, send that instead.
1445	* Without this, what happens is you can get the case where the player stands
1446	* on the same space as the head. However, if you have overlapping big objects
1447	* of the same type, what happens then is it doesn't think it needs to send
1448	* This tends to make stacking also work/look better.
1449	*/
1450	if (!face_num && layer > 0 && heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + layer - 1])
1451	{
1452	face_num = heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + layer - 1]->face->number;
1453	heads[(sy * MAX_HEAD_POS + sx) * MAX_LAYERS + layer - 1] = NULL;
1454	}
1455
1456	/* Another hack - because of heads and whatnot, this face may match one
1457	* we already sent for a lower layer. In that case, don't send
1458	* this one.
1459	*/
1460	if (face_num && layer + 1 < MAP_LAYERS && ns.lastmap.cells[sx][sy].faces[layer + 1] == face_num)
1461	face_num = 0;
1462		1159
1463	/* We've gotten what face we want to use for the object. Now see if	1160	/* We've gotten what face we want to use for the object. Now see if
1464	* if it has changed since we last sent it to the client.	1161	* if it has changed since we last sent it to the client.
1465	*/	1162	*/
1466	if (ns.lastmap.cells[sx][sy].faces[layer] != face_num)	1163	if (lastcell.faces[layer] != face_num)
1467	{	1164	{
1468	ns.lastmap.cells[sx][sy].faces[layer] = face_num;	1165	lastcell.faces[layer] = face_num;
		1166
1469	if (!(ns.faces_sent[face_num] & NS_FACESENT_FACE))	1167	if (!ns.faces_sent[face_num])
		1168	if (ob)
		1169	ns.send_faces (ob);
		1170	else
1470	esrv_send_face (&ns, face_num, 0);	1171	ns.send_face (face_num);
1471		1172
1472	sl << uint16 (face_num);	1173	sl << uint16 (face_num);
1473	return 1;
1474	}
1475
1476	/* Nothing changed */
1477	return 0;
1478	}
1479
1480	/**
1481	* This function is mainly a copy of update_space,
1482	* except it handles update of the smoothing updates,
1483	* not the face updates.
1484	* Removes the need to replicate the same code for each layer.
1485	* this returns true if this smooth is now in fact different
1486	* than it was.
1487	* sl is the socklist this data is going into.
1488	* ns is the socket we are working on - all the info we care
1489	* about is in this socket structure, so know need to pass the
1490	* entire player object.
1491	* mx and my are map coordinate offsets for map mp
1492	* sx and sy are the offsets into the socket structure that
1493	* holds the old values.
1494	* layer is the layer to update, with 2 being the floor and 0 the
1495	* top layer (this matches what the GET_MAP_FACE and GET_MAP_FACE_OBJ
1496	* take.
1497	*/
1498
1499	static inline int
1500	update_smooth (packet &sl, client &ns, maptile *mp, int mx, int my, int sx, int sy, int layer)
1501	{
1502	object *ob;
1503	int smoothlevel; /* old face_num; */
1504
1505	ob = GET_MAP_FACE_OBJ (mp, mx, my, layer);
1506
1507	/* If there is no object for this space, or if the face for the object
1508	* is the blank face, set the smoothlevel to zero.
1509	*/
1510	if (!ob \|\| ob->face == blank_face)
1511	smoothlevel = 0;
1512	else
1513	{
1514	smoothlevel = ob->smoothlevel;
1515	if (smoothlevel && !(ns.faces_sent[ob->face->number] & NS_FACESENT_SMOOTH))
1516	SendSmooth (&ns, ob->face->number);
1517	} /* else not already head object or blank face */
1518
1519	/* We've gotten what face we want to use for the object. Now see if
1520	* if it has changed since we last sent it to the client.
1521	*/
1522	if (smoothlevel > 255)
1523	smoothlevel = 255;
1524	else if (smoothlevel < 0)
1525	smoothlevel = 0;
1526
1527	if (ns.lastmap.cells[sx][sy].smooth[layer] != smoothlevel)
1528	{
1529	ns.lastmap.cells[sx][sy].smooth[layer] = smoothlevel;
1530	sl << uint8 (smoothlevel);
1531	return 1;	1174	return 1;
1532	}	1175	}
1533		1176
1534	/* Nothing changed */	1177	/* Nothing changed */
1535	return 0;	1178	return 0;
…		…
1550	if (ns->EMI_smooth)	1193	if (ns->EMI_smooth)
1551	result += 1; /One byte for smoothlevel /	1194	result += 1; /One byte for smoothlevel /
1552	}	1195	}
1553		1196
1554	return result;	1197	return result;
		1198	}
		1199
		1200	// prefetch (and touch) all maps within a specific distancd
		1201	static void
		1202	prefetch_surrounding_maps (maptile *map, int distance)
		1203	{
		1204	map->last_access = runtime;
		1205
		1206	if (--distance)
		1207	for (int dir = 4; --dir; )
		1208	if (const shstr &path = map->tile_path [dir])
		1209	if (maptile *&neigh = map->tile_map [dir])
		1210	prefetch_surrounding_maps (neigh, distance);
		1211	else
		1212	neigh = maptile::find_async (path, map);
		1213	}
		1214
		1215	// prefetch a generous area around the player
		1216	static void
		1217	prefetch_surrounding_maps (object *op)
		1218	{
		1219	prefetch_surrounding_maps (op->map, 3);
1555	}	1220	}
1556		1221
1557	/**	1222	/**
1558	* This function uses the new map1 protocol command to send the map	1223	* This function uses the new map1 protocol command to send the map
1559	* to the client. It is necessary because the old map command supports	1224	* to the client. It is necessary because the old map command supports
…		…
1577	* look like.	1242	* look like.
1578	*/	1243	*/
1579	void	1244	void
1580	draw_client_map1 (object *pl)	1245	draw_client_map1 (object *pl)
1581	{	1246	{
1582	int x, y, ax, ay, d, startlen, max_x, max_y, oldlen;	1247	int x, y, ax, ay, startlen, max_x, max_y, oldlen;
1583	sint16 nx, ny;	1248	sint16 nx, ny;
1584	int estartlen, eoldlen;	1249	int estartlen, eoldlen;
1585	uint16 mask, emask;
1586	uint8 eentrysize;	1250	uint8 eentrysize;
1587	uint16 ewhatstart, ewhatflag;	1251	uint16 ewhatstart, ewhatflag;
1588	uint8 extendedinfos;	1252	uint8 extendedinfos;
1589	maptile *m;	1253	maptile *m;
1590		1254
1591	client &socket = *pl->contr->ns;	1255	client &socket = *pl->contr->ns;
1592		1256
		1257	if (!pl->active)
		1258	return;
		1259
1593	check_map_change (pl->contr);	1260	check_map_change (pl->contr);
		1261	prefetch_surrounding_maps (pl);
1594		1262
1595	packet sl (socket.mapmode == Map1Cmd ? "map1" : "map1a");	1263	packet sl (socket.mapmode == Map1Cmd ? "map1" : "map1a");
1596	packet esl;	1264	packet esl;
1597		1265
1598	startlen = sl.length ();	1266	startlen = sl.length ();
…		…
1613	<< uint8 (extendedinfos)	1281	<< uint8 (extendedinfos)
1614	<< uint8 (eentrysize);	1282	<< uint8 (eentrysize);
1615		1283
1616	estartlen = esl.length ();	1284	estartlen = esl.length ();
1617	}	1285	}
1618	else
1619	{
1620	/* suppress compiler warnings */
1621	ewhatstart = 0;
1622	ewhatflag = 0;
1623	estartlen = 0;
1624	}
1625
1626	/* Init data to zero */
1627	memset (heads, 0, sizeof (object ) MAX_HEAD_POS * MAX_HEAD_POS * MAX_LAYERS);
1628		1286
1629	/* x,y are the real map locations. ax, ay are viewport relative	1287	/* x,y are the real map locations. ax, ay are viewport relative
1630	* locations.	1288	* locations.
1631	*/	1289	*/
1632	ay = 0;	1290	ay = 0;
…		…
1635	* but that started to get a bit messy to look at.	1293	* but that started to get a bit messy to look at.
1636	*/	1294	*/
1637	max_x = pl->x + (socket.mapx + 1) / 2;	1295	max_x = pl->x + (socket.mapx + 1) / 2;
1638	max_y = pl->y + (socket.mapy + 1) / 2;	1296	max_y = pl->y + (socket.mapy + 1) / 2;
1639		1297
1640	if (socket.mapmode == Map1aCmd)	1298	maptile *plmap = pl->map;
1641	{
1642	max_x += MAX_HEAD_OFFSET;
1643	max_y += MAX_HEAD_OFFSET;
1644	}
1645		1299
1646	for (y = pl->y - socket.mapy / 2; y < max_y; y++, ay++)	1300	for (y = pl->y - socket.mapy / 2; y < max_y; y++, ay++)
1647	{	1301	{
1648	ax = 0;	1302	ax = 0;
1649	for (x = pl->x - socket.mapx / 2; x < max_x; x++, ax++)	1303	for (x = pl->x - socket.mapx / 2; x < max_x; x++, ax++)
1650	{	1304	{
		1305	int emask, mask;
1651	emask = mask = (ax & 0x3f) << 10 \| (ay & 0x3f) << 4;	1306	emask = mask = (ax & 0x3f) << 10 \| (ay & 0x3f) << 4;
1652		1307
1653	/* If this space is out of the normal viewable area, we only check
1654	* the heads value ax or ay will only be greater than what
1655	* the client wants if using the map1a command - this is because
1656	* if the map1a command is not used, max_x and max_y will be
1657	* set to lower values.
1658	*/
1659	if (ax >= socket.mapx \|\| ay >= socket.mapy)
1660	{
1661	int i, got_one;
1662
1663	oldlen = sl.length ();
1664
1665	sl << uint16 (mask);
1666
1667	if (check_head (sl, socket, ax, ay, 2)) mask \|= 0x4;
1668	if (check_head (sl, socket, ax, ay, 1)) mask \|= 0x2;
1669	if (check_head (sl, socket, ax, ay, 0)) mask \|= 0x1;
1670
1671	/* If all we are doing is sending 0 (blank) faces, we don't
1672	* actually need to send that - just the coordinates
1673	* with no faces tells the client to blank out the
1674	* space.
1675	*/
1676	got_one = 0;
1677	for (i = oldlen + 2; i < sl.length (); i++)
1678	if (sl[i])
1679	got_one = 1;
1680
1681	if (got_one && (mask & 0xf))
1682	sl[oldlen + 1] = mask & 0xff;
1683	else
1684	{ /either all faces blank, either no face at all /
1685	if (mask & 0xf) /at least 1 face, we know it's blank, only send coordinates /
1686	sl.reset (oldlen + 2);
1687	else
1688	sl.reset (oldlen);
1689	}
1690
1691	/*What concerns extendinfos, nothing to be done for now
1692	* (perhaps effects layer later)
1693	*/
1694	continue; /* don't do processing below */
1695	}
1696
1697	MapCell &lastcell = socket.lastmap.cells[ax][ay];	1308	MapCell &lastcell = socket.lastmap.cells[ax][ay];
1698
1699	d = pl->contr->blocked_los[ax][ay];
1700		1309
1701	/* If the coordinates are not valid, or it is too dark to see,	1310	/* If the coordinates are not valid, or it is too dark to see,
1702	* we tell the client as such	1311	* we tell the client as such
1703	*/	1312	*/
1704	nx = x;	1313	nx = x;
1705	ny = y;	1314	ny = y;
1706	m = get_map_from_coord (pl->map, &nx, &ny);	1315	m = get_map_from_coord (plmap, &nx, &ny);
1707		1316
1708	if (!m)	1317	if (!m)
1709	{	1318	{
1710	/* space is out of map. Update space and clear values	1319	/* space is out of map. Update space and clear values
1711	* if this hasn't already been done. If the space is out	1320	* if this hasn't already been done. If the space is out
1712	* of the map, it shouldn't have a head	1321	* of the map, it shouldn't have a head
1713	*/	1322	*/
1714	if (lastcell.count != -1)	1323	if (lastcell.count != -1)
1715	{	1324	{
1716	sl << uint16 (mask);	1325	sl << uint16 (mask);
1717	map_clearcell (&lastcell, 0, 0, 0, -1);	1326	map_clearcell (&lastcell, -1);
1718	}	1327	}
		1328
		1329	continue;
1719	}	1330	}
		1331
		1332	m->touch ();
		1333
		1334	int d = pl->contr->blocked_los[ax][ay];
		1335
1720	else if (d > 3)	1336	if (d > 3)
1721	{	1337	{
1722	m->touch ();
1723		1338
1724	int need_send = 0, count;	1339	int need_send = 0, count;
1725		1340
1726	/* This block deals with spaces that are not visible for whatever	1341	/* This block deals with spaces that are not visible for whatever
1727	* reason. Still may need to send the head for this space.	1342	* reason. Still may need to send the head for this space.
1728	*/	1343	*/
1729		1344
1730	oldlen = sl.length ();	1345	oldlen = sl.length ();
1731		1346
1732	sl << uint16 (mask);	1347	sl << uint16 (mask);
…		…
1734	if (lastcell.count != -1)	1349	if (lastcell.count != -1)
1735	need_send = 1;	1350	need_send = 1;
1736		1351
1737	count = -1;	1352	count = -1;
1738		1353
1739	if (socket.mapmode == Map1aCmd && have_head (ax, ay))
1740	{
1741	/* Now check to see if any heads need to be sent */
1742
1743	if (check_head (sl, socket, ax, ay, 2)) mask \|= 0x4;
1744	if (check_head (sl, socket, ax, ay, 1)) mask \|= 0x2;
1745	if (check_head (sl, socket, ax, ay, 0)) mask \|= 0x1;
1746
1747	lastcell.count = count;
1748	}
1749	else
1750	{
1751	/* properly clear a previously sent big face */	1354	/* properly clear a previously sent big face */
1752	if (lastcell.faces[0] != 0 \|\| lastcell.faces[1] != 0 \|\| lastcell.faces[2] != 0	1355	if (lastcell.faces[0] \|\| lastcell.faces[1] \|\| lastcell.faces[2]
1753	\|\| lastcell.stat_hp \|\| lastcell.flags \|\| lastcell.player)	1356	\|\| lastcell.stat_hp \|\| lastcell.flags \|\| lastcell.player)
1754	need_send = 1;	1357	need_send = 1;
1755		1358
1756	map_clearcell (&lastcell, 0, 0, 0, count);	1359	map_clearcell (&lastcell, count);
1757	}
1758		1360
1759	if ((mask & 0xf) \|\| need_send)	1361	if ((mask & 0xf) \|\| need_send)
1760	sl[oldlen + 1] = mask & 0xff;	1362	sl[oldlen + 1] = mask & 0xff;
1761	else	1363	else
1762	sl.reset (oldlen);	1364	sl.reset (oldlen);
1763	}	1365	}
1764	else	1366	else
1765	{	1367	{
1766	m->touch ();
1767
1768	/* In this block, the space is visible or there are head objects	1368	/* In this block, the space is visible.
1769	* we need to send.
1770	*/	1369	*/
1771		1370
1772	/* Rather than try to figure out what everything that we might	1371	/* Rather than try to figure out what everything that we might
1773	* need to send is, then form the packet after that,	1372	* need to send is, then form the packet after that,
1774	* we presume that we will in fact form a packet, and update	1373	* we presume that we will in fact form a packet, and update
…		…
1777	* is done.	1376	* is done.
1778	* I think this is simpler than doing a bunch of checks to see	1377	* I think this is simpler than doing a bunch of checks to see
1779	* what if anything we need to send, setting the bits, then	1378	* what if anything we need to send, setting the bits, then
1780	* doing those checks again to add the real data.	1379	* doing those checks again to add the real data.
1781	*/	1380	*/
1782	oldlen = sl.length ();	1381	oldlen = sl.length ();
1783	mask = (ax & 0x3f) << 10 \| (ay & 0x3f) << 4;
1784	eoldlen = esl.length ();	1382	eoldlen = esl.length ();
1785	emask = (ax & 0x3f) << 10 \| (ay & 0x3f) << 4;	1383
1786	sl << uint16 (mask);	1384	sl << uint16 (mask);
1787
1788	if (socket.ext_mapinfos)
1789	esl << uint16 (emask);
1790		1385
1791	unsigned char dummy;	1386	unsigned char dummy;
1792	unsigned char *last_ext = &dummy;	1387	unsigned char *last_ext = &dummy;
1793		1388
1794	/* Darkness changed */	1389	/* Darkness changed */
…		…
1806	sl << uint8 (255 - 64 * d);	1401	sl << uint8 (255 - 64 * d);
1807	}	1402	}
1808		1403
1809	lastcell.count = d;	1404	lastcell.count = d;
1810		1405
		1406	mapspace &ms = m->at (nx, ny);
		1407
1811	if (socket.extmap)	1408	if (socket.extmap)
1812	{	1409	{
1813	uint8 stat_hp = 0;	1410	uint8 stat_hp = 0;
1814	uint8 stat_width = 0;	1411	uint8 stat_width = 0;
1815	uint8 flags = 0;	1412	uint8 flags = 0;
1816	UUID player = 0;	1413	UUID player = 0;
1817		1414
1818	// send hp information, if applicable	1415	// send hp information, if applicable
1819	if (object *op = GET_MAP_FACE_OBJ (m, nx, ny, 0))	1416	if (object *op = ms.faces_obj [0])
1820	{	1417	{
1821	if (op->head \|\| op->invisible)	1418	if (op->head \|\| op->invisible)
1822	; // do not show	1419	; // do not show
1823	else if (op->type == PLAYER	1420	else if (op->type == PLAYER
1824	\|\| QUERY_FLAG (op, FLAG_MONSTER) \|\| QUERY_FLAG (op, FLAG_ALIVE) \|\| QUERY_FLAG (op, FLAG_GENERATOR))	1421	\|\| QUERY_FLAG (op, FLAG_MONSTER) \|\| QUERY_FLAG (op, FLAG_ALIVE) \|\| QUERY_FLAG (op, FLAG_GENERATOR))
…		…
1878	sl << uint8 (8) << uint8 (flags);	1475	sl << uint8 (8) << uint8 (flags);
1879	}	1476	}
1880	}	1477	}
1881		1478
1882	/* Floor face */	1479	/* Floor face */
1883	if (update_space (sl, socket, m, nx, ny, ax, ay, 2))	1480	if (update_space (sl, socket, ms, lastcell, 2))
1884	mask \|= 0x4;	1481	mask \|= 0x4;
1885		1482
1886	if (socket.EMI_smooth)
1887	if (update_smooth (esl, socket, m, nx, ny, ax, ay, 2))
1888	emask \|= 0x4;
1889
1890	/* Middle face */	1483	/* Middle face */
1891	if (update_space (sl, socket, m, nx, ny, ax, ay, 1))	1484	if (update_space (sl, socket, ms, lastcell, 1))
1892	mask \|= 0x2;	1485	mask \|= 0x2;
1893		1486
1894	if (socket.EMI_smooth)	1487	if (ms.player () == pl
1895	if (update_smooth (esl, socket, m, nx, ny, ax, ay, 1))	1488	&& (pl->invisible & (pl->invisible < 50 ? 1 : 7)))
1896	emask \|= 0x2;
1897
1898	if (nx == pl->x && ny == pl->y && pl->invisible & (pl->invisible < 50 ? 4 : 1))
1899	{	1489	{
		1490	// force player to be visible to himself if invisible
1900	if (lastcell.faces[0] != pl->face->number)	1491	if (lastcell.faces[0] != pl->face)
1901	{	1492	{
1902	lastcell.faces[0] = pl->face->number;	1493	lastcell.faces[0] = pl->face;
		1494
1903	mask \|= 0x1;	1495	mask \|= 0x1;
1904
1905	if (!(socket.faces_sent[pl->face->number] & NS_FACESENT_FACE))
1906	esrv_send_face (&socket, pl->face->number, 0);
1907
1908	sl << uint16 (pl->face->number);	1496	sl << uint16 (pl->face);
		1497
		1498	socket.send_faces (pl);
1909	}	1499	}
1910	}	1500	}
1911	else
1912	{
1913	/* Top face */	1501	/* Top face */
1914	if (update_space (sl, socket, m, nx, ny, ax, ay, 0))	1502	else if (update_space (sl, socket, ms, lastcell, 0))
1915	mask \|= 0x1;	1503	mask \|= 0x1;
1916
1917	if (socket.EMI_smooth)
1918	if (update_smooth (esl, socket, m, nx, ny, ax, ay, 0))
1919	emask \|= 0x1;
1920	}	1504
1921		1505
1922	/* Check to see if we are in fact sending anything for this	1506	/* Check to see if we are in fact sending anything for this
1923	* space by checking the mask. If so, update the mask.	1507	* space by checking the mask. If so, update the mask.
1924	* if not, reset the len to that from before adding the mask	1508	* if not, reset the len to that from before adding the mask
1925	* value, so we don't send those bits.	1509	* value, so we don't send those bits.
…		…
1927	if (mask & 0xf)	1511	if (mask & 0xf)
1928	sl[oldlen + 1] = mask & 0xff;	1512	sl[oldlen + 1] = mask & 0xff;
1929	else	1513	else
1930	sl.reset (oldlen);	1514	sl.reset (oldlen);
1931		1515
		1516	if (socket.ext_mapinfos)
		1517	esl << uint16 (emask);
		1518
		1519	if (socket.EMI_smooth)
		1520	{
		1521	for (int layer = 2+1; layer--; )
		1522	{
		1523	object *ob = ms.faces_obj [layer];
		1524
		1525	// If there is no object for this space, or if the face for the object
		1526	// is the blank face, set the smoothlevel to zero.
		1527	int smoothlevel = ob && ob->face != blank_face ? ob->smoothlevel : 0;
		1528
		1529	// We've gotten what face we want to use for the object. Now see if
		1530	// if it has changed since we last sent it to the client.
		1531	if (lastcell.smooth[layer] != smoothlevel)
		1532	{
		1533	lastcell.smooth[layer] = smoothlevel;
		1534	esl << uint8 (smoothlevel);
		1535	emask \|= 1 << layer;
		1536	}
		1537	}
		1538
1932	if (emask & 0xf)	1539	if (emask & 0xf)
1933	esl[eoldlen + 1] = emask & 0xff;	1540	esl[eoldlen + 1] = emask & 0xff;
1934	else	1541	else
1935	esl.reset (eoldlen);	1542	esl.reset (eoldlen);
		1543	}
1936	} /* else this is a viewable space */	1544	} /* else this is a viewable space */
1937	} /* for x loop */	1545	} /* for x loop */
1938	} /* for y loop */	1546	} /* for y loop */
1939		1547
1940	/* Verify that we in fact do need to send this */	1548	/* Verify that we in fact do need to send this */
…		…
1943	if (!(sl.length () > startlen \|\| socket.sent_scroll))	1551	if (!(sl.length () > startlen \|\| socket.sent_scroll))
1944	{	1552	{
1945	/* No map data will follow, so don't say the client	1553	/* No map data will follow, so don't say the client
1946	* it doesn't need draw!	1554	* it doesn't need draw!
1947	*/	1555	*/
1948	ewhatflag &= (~EMI_NOREDRAW);	1556	ewhatflag &= ~EMI_NOREDRAW;
1949	esl[ewhatstart + 1] = ewhatflag & 0xff;	1557	esl[ewhatstart + 1] = ewhatflag & 0xff;
1950	}	1558	}
1951		1559
1952	if (esl.length () > estartlen)	1560	if (esl.length () > estartlen)
1953	socket.send_packet (esl);	1561	socket.send_packet (esl);
…		…
1965	*/	1573	*/
1966	void	1574	void
1967	draw_client_map (object *pl)	1575	draw_client_map (object *pl)
1968	{	1576	{
1969	int i, j;	1577	int i, j;
1970	sint16 ax, ay, nx, ny; /* ax and ay goes from 0 to max-size of arrays */	1578	sint16 ax, ay; /* ax and ay goes from 0 to max-size of arrays */
1971	New_Face face, floor;
1972	New_Face *floor2;
1973	int d, mflags;	1579	int mflags;
1974	struct Map newmap;	1580	struct Map newmap;
1975	maptile m, pm;	1581	maptile m, pm;
1976		1582
1977	if (pl->type != PLAYER)	1583	if (pl->type != PLAYER)
1978	{	1584	{
…		…
2159		1765
2160	/* appends the spell spell to the Socklist we will send the data to. /	1766	/* appends the spell spell to the Socklist we will send the data to. /
2161	static void	1767	static void
2162	append_spell (player pl, packet &sl, object spell)	1768	append_spell (player pl, packet &sl, object spell)
2163	{	1769	{
2164	int len, i, skill = 0;	1770	int i, skill = 0;
2165		1771
2166	if (!(spell->name))	1772	if (!(spell->name))
2167	{	1773	{
2168	LOG (llevError, "item number %d is a spell with no name.\n", spell->count);	1774	LOG (llevError, "item number %d is a spell with no name.\n", spell->count);
2169	return;	1775	return;
…		…
2181	if (!strcmp (spell->skill, skill_names[i]))	1787	if (!strcmp (spell->skill, skill_names[i]))
2182	{	1788	{
2183	skill = i + CS_STAT_SKILLINFO;	1789	skill = i + CS_STAT_SKILLINFO;
2184	break;	1790	break;
2185	}	1791	}
		1792	}
		1793
		1794	// spells better have a face
		1795	if (!spell->face)
		1796	{
		1797	LOG (llevError, "%s: spell has no face, but face is mandatory.\n", &spell->name);
		1798	spell->face = face_find ("burnout.x11", blank_face);
2186	}	1799	}
2187		1800
2188	/* send the current values */	1801	/* send the current values */
2189	sl << uint32 (spell->count)	1802	sl << uint32 (spell->count)
2190	<< uint16 (spell->level)	1803	<< uint16 (spell->level)
…		…
2192	<< uint16 (spell->last_sp)	1805	<< uint16 (spell->last_sp)
2193	<< uint16 (spell->last_grace)	1806	<< uint16 (spell->last_grace)
2194	<< uint16 (spell->last_eat)	1807	<< uint16 (spell->last_eat)
2195	<< uint8 (skill)	1808	<< uint8 (skill)
2196	<< uint32 (spell->path_attuned)	1809	<< uint32 (spell->path_attuned)
2197	<< uint32 (spell->face ? spell->face->number : 0)	1810	<< uint32 (spell->face)
2198	<< data8 (spell->name)	1811	<< data8 (spell->name)
2199	<< data16 (spell->msg);	1812	<< data16 (spell->msg);
2200	}	1813	}
2201		1814
2202	/**	1815	/**
…		…
2217		1830
2218	packet sl ("addspell");	1831	packet sl ("addspell");
2219		1832
2220	if (!spell)	1833	if (!spell)
2221	{	1834	{
2222	for (spell = pl->ob->inv; spell != NULL; spell = spell->below)	1835	for (spell = pl->ob->inv; spell; spell = spell->below)
2223	{	1836	{
2224	/* were we to simply keep appending data here, we could exceed	1837	/* were we to simply keep appending data here, we could exceed
2225	* MAXSOCKBUF if the player has enough spells to add, we know that	1838	* MAXSOCKBUF if the player has enough spells to add, we know that
2226	* append_spells will always append 19 data bytes, plus 4 length	1839	* append_spells will always append 19 data bytes, plus 4 length
2227	* bytes and 3 strings (because that is the spec) so we need to	1840	* bytes and 3 strings (because that is the spec) so we need to

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Comparing deliantra/server/socket/request.C (file contents): Revision 1.57 by root, Thu Jan 4 00:08:08 2007 UTC vs. Revision 1.77 by root, Wed Mar 14 15:44:47 2007 UTC

Diff Legend

Comparing deliantra/server/socket/request.C (file contents):
Revision 1.57 by root, Thu Jan 4 00:08:08 2007 UTC vs.
Revision 1.77 by root, Wed Mar 14 15:44:47 2007 UTC