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Comparing deliantra/server/socket/info.C (file contents):
Revision 1.4 by root, Sun Sep 3 00:18:43 2006 UTC vs.
Revision 1.42 by root, Sun May 6 02:06:03 2007 UTC

1/* 1/*
2 * static char *rcsid_sock_info_c =
3 * "$Id: info.C,v 1.4 2006/09/03 00:18:43 root Exp $";
4 */
5
6/*
7 CrossFire, A Multiplayer game for X-windows 2 * CrossFire, A Multiplayer game
8 3 *
4 * Copyright (C) 2005, 2006, 2007 Marc Lehmann & Crossfire+ Development Team
9 Copyright (C) 2002 Mark Wedel & Crossfire Development Team 5 * Copyright (C) 2002 Mark Wedel & Crossfire Development Team
10 Copyright (C) 1992 Frank Tore Johansen 6 * Copyright (C) 1992 Frank Tore Johansen
11 7 *
12 This program is free software; you can redistribute it and/or modify 8 * This program is free software; you can redistribute it and/or modify
13 it under the terms of the GNU General Public License as published by 9 * it under the terms of the GNU General Public License as published by
14 the Free Software Foundation; either version 2 of the License, or 10 * the Free Software Foundation; either version 2 of the License, or
15 (at your option) any later version. 11 * (at your option) any later version.
16 12 *
17 This program is distributed in the hope that it will be useful, 13 * This program is distributed in the hope that it will be useful,
18 but WITHOUT ANY WARRANTY; without even the implied warranty of 14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 GNU General Public License for more details. 16 * GNU General Public License for more details.
21 17 *
22 You should have received a copy of the GNU General Public License 18 * You should have received a copy of the GNU General Public License
23 along with this program; if not, write to the Free Software 19 * along with this program; if not, write to the Free Software
24 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 20 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25 21 *
26 The authors can be reached via e-mail at crossfire-devel@real-time.com 22 * The authors can be reached via e-mail at <crossfire@schmorp.de>
27*/ 23 */
28 24
29/** 25/**
30 * \file 26 * \file
31 * Basic client output functions. 27 * Basic client output functions.
32 * 28 *
46 * Draws a normal message on the client. It is pretty 42 * Draws a normal message on the client. It is pretty
47 * much the same thing as the draw_info above, but takes a color 43 * much the same thing as the draw_info above, but takes a color
48 * parameter. the esrv_drawinfo functions should probably be 44 * parameter. the esrv_drawinfo functions should probably be
49 * replaced with this, just using black as the color. 45 * replaced with this, just using black as the color.
50 */ 46 */
47static void
51static void esrv_print_msg(NewSocket *ns,int color, const char *str) 48esrv_print_msg (client *ns, int color, const char *str)
52{ 49{
53 char buf[HUGE_BUF]; 50 ns->send_packet_printf ("drawinfo %d %s", color, str);
54
55 if (ns->status == Ns_Old) {
56 snprintf(buf,HUGE_BUF,"%s\n", str);
57 } else {
58 snprintf(buf,HUGE_BUF, "drawinfo %d %s", color, str);
59 }
60/* LOG(llevDebug,"sending %s to socket, len=%d\n", buf, strlen(buf));*/
61 Write_String_To_Socket(ns, buf, strlen(buf));
62} 51}
63 52
64/** 53/**
65 * Draws an extended message on the client. 54 * Draws an extended message on the client.
66 * ns the socket to send message to 55 * ns the socket to send message to
68 * type, 57 * type,
69 * subtype type and subtype of text message 58 * subtype type and subtype of text message
70 * intro Intro message to send with main message if client does not support the message type 59 * intro Intro message to send with main message if client does not support the message type
71 * message The main message 60 * message The main message
72 */ 61 */
62static void
73static void esrv_print_ext_msg(NewSocket *ns,int color,uint8 type, uint8 subtype, const char *message) 63esrv_print_ext_msg (client *ns, int color, uint8 type, uint8 subtype, const char *message)
74{ 64{
75 char buf[HUGE_BUF];
76 snprintf(buf,HUGE_BUF, "drawextinfo %d %hhu %hhu %s", color, type, subtype, message); 65 ns->send_packet_printf ("drawextinfo %d %hhu %hhu %s", color, type, subtype, message);
77 Write_String_To_Socket(ns, buf, strlen(buf));
78/* LOG(llevDebug,"sending %s to socket, len=%d", buf, strlen(buf));*/
79
80} 66}
81 67
82/** 68/**
83 * Frontend for esrv_print_msg 69 * Frontend for esrv_print_msg
84 * \param colr message color 70 * \param colr message color
87 * 73 *
88 * If pl is NULL or without contr set, writes message to log. 74 * If pl is NULL or without contr set, writes message to log.
89 * 75 *
90 * Else sends message to player via esrv_print_msg 76 * Else sends message to player via esrv_print_msg
91 */ 77 */
92 78static void
93static void print_message(int colr, const object *pl, const char *tmp) { 79print_message (int colr, const object *pl, const char *tmp)
94 80{
95 if(tmp == (char *) NULL) { 81 if (!tmp)
96 tmp="[NULL]"; 82 tmp = "[NULL]";
97 }
98 83
99 if (!pl || (pl->type == PLAYER && pl->contr == NULL)) 84 if (!pl || (pl->type == PLAYER && pl->contr == NULL))
100 return; 85 return;
101 86
102 if (pl->type == PLAYER) { 87 if (pl->type == PLAYER)
103 esrv_print_msg(&pl->contr->socket,colr,(char*) tmp); 88 esrv_print_msg (pl->contr->ns, colr, (char *) tmp);
89}
90
91bool
92client::msg_suppressed (const char *msg)
93{
94 if (!pl)
104 return; 95 return false;
105 }
106}
107 96
97 if (pl->outputs_count <= 1 || !pl->outputs_sync)
98 return false;
108 99
109/** 100 int len = strlen (msg);
110 * Prints out the contents of specified buffer structures,
111 * and clears the string.
112 */
113 101
114void flush_output_element(const object *pl, Output_Buf *outputs) 102 if (len > MSG_BUF_SIZE)
115{ 103 return false;
116 char tbuf[MAX_BUF];
117 104
118 if (outputs->buf==NULL) return; 105 msg_buf *lru = msgbuf;
119 if (outputs->count > 1) { 106 for (msg_buf *buf = msgbuf; buf < msgbuf + MSG_BUF_COUNT; ++buf)
120 snprintf(tbuf,MAX_BUF, "%d times %s", outputs->count, &outputs->buf); 107 {
121 print_message(NDI_BLACK, pl, tbuf); 108 if (len == buf->len && !memcmp (msg, buf->msg, len))
122 } else 109 {
123 print_message(NDI_BLACK, pl, &outputs->buf); 110 // found matching buf, see if expired
111 if (buf->expire <= pticks || !buf->count)
112 {
113 // yes, take over matching buffer, print
114 buf->expire = pticks + pl->outputs_sync;
115 buf->count = pl->outputs_count;
124 116
125 outputs->buf=NULL; 117 return false;
126 outputs->first_update=0; /* This way, it will be reused */ 118 }
127}
128 119
129/** 120 // no, suppress
130 * Sends message to player through output buffers. 121 --buf->count;
131 * \param pl player to send message
132 * \param buf message to send
133 *
134 * If player's output_count is 1, sends message directly.
135 *
136 * Else checks output buffers for specified message.
137 *
138 * If found, checks if message should be sent now.
139 *
140 * If message not already in buffers, flushes olders buffer,
141 * and adds message to queue.
142 */
143
144static void check_output_buffers(const object *pl, const char *buf)
145{
146 int i, oldest=0;
147
148 if (pl->contr->outputs_count<2) {
149 print_message(NDI_BLACK, pl, buf);
150 return; 122 return true;
151 }
152 else {
153 for (i=0; i<NUM_OUTPUT_BUFS; i++) {
154 if (pl->contr->outputs[i].buf &&
155 !strcmp(buf, pl->contr->outputs[i].buf)) break;
156 else if (pl->contr->outputs[i].first_update <
157 pl->contr->outputs[oldest].first_update)
158 oldest=i;
159 } 123 }
160 /* We found a match */
161 if (i<NUM_OUTPUT_BUFS) {
162 pl->contr->outputs[i].count++;
163 if (pl->contr->outputs[i].count>=pl->contr->outputs_count) {
164 flush_output_element(pl, &pl->contr->outputs[i]);
165 }
166 }
167 /* No match - flush the oldest, and put the new one in */
168 else {
169 flush_output_element(pl, &pl->contr->outputs[oldest]);
170 124
171 pl->contr->outputs[oldest].first_update = pticks; 125 if (lru->expire > buf->expire)
172 pl->contr->outputs[oldest].count = 1; 126 lru = buf;
173 pl->contr->outputs[oldest].buf = buf;
174 }
175 } 127 }
176}
177
178 128
129 // new message, evoke oldest buffer
130 lru->expire = pticks + pl->outputs_sync;
131 lru->count = pl->outputs_count;
132 lru->len = len;
133 memcpy (lru->msg, msg, len);
134
135 return false;
136}
179 137
180/** 138/**
181 * Sends message to player(s). 139 * Sends message to player(s).
182 * 140 *
183 * flags is various flags - mostly color, plus a few specials. 141 * flags is various flags - mostly color, plus a few specials.
191 * in the flags. 149 * in the flags.
192 * 150 *
193 * If message is black, and not NDI_UNIQUE, gets sent through output buffers. 151 * If message is black, and not NDI_UNIQUE, gets sent through output buffers.
194 * 152 *
195 */ 153 */
196 154void
197void new_draw_info(int flags, int pri, const object *pl, const char *buf) 155new_draw_info (int flags, int pri, const object *op, const char *buf)
198{ 156{
199
200 if (flags & NDI_ALL) { 157 if (flags & NDI_ALL)
201 player *tmppl; 158 {
202 int i; 159 for_all_players (pl)
203
204 for (tmppl=first_player; tmppl!=NULL; tmppl=tmppl->next)
205 new_draw_info((flags & ~NDI_ALL), pri, tmppl->ob, buf); 160 new_draw_info (flags & ~NDI_ALL, pri, pl->ob, buf);
206 161 }
207 for (i=1; i<socket_info.allocated_sockets; i++) { 162 else
208 if (init_sockets[i].status == Ns_Old && init_sockets[i].old_mode != Old_Listen && pri< 10) { 163 {
209 cs_write_string(&init_sockets[i], buf, strlen(buf)); 164 if (!op || !op->contr || !op->contr->ns)
210 /* Most messages don't have a newline, so add one */
211 cs_write_string(&init_sockets[i], "\n", 1);
212 }
213 }
214
215 return; 165 return;
216 } 166
217 if(!pl || (pl->type==PLAYER && pl->contr==NULL)) { 167 if (pri >= op->contr->listening)
218 /* Write to the socket? */
219 print_message(0, NULL, buf);
220 return; 168 return;
221 }
222 if (pl->type!=PLAYER) return;
223 if (pri>=pl->contr->listening) return;
224 169
225 if ((flags&NDI_COLOR_MASK)==NDI_BLACK && !(flags &NDI_UNIQUE)) { 170 if ((flags & (NDI_COLOR_MASK | NDI_UNIQUE)) != NDI_BLACK
226 /* following prints stuff out, as appropriate */ 171 || !op->contr->ns->msg_suppressed (buf))
227 check_output_buffers(pl, buf);
228 }
229 else {
230 print_message(flags&NDI_COLOR_MASK, pl, buf); 172 print_message (flags & NDI_COLOR_MASK, op, buf);
231 } 173 }
232} 174}
233 175
234/** 176/**
235 * Wrapper for new_draw_info printf-like. 177 * Wrapper for new_draw_info printf-like.
237 * This is a pretty trivial function, but it allows us to use printf style 179 * This is a pretty trivial function, but it allows us to use printf style
238 * formatting, so instead of the calling function having to do it, we do 180 * formatting, so instead of the calling function having to do it, we do
239 * it here. It may also have advantages in the future for reduction of 181 * it here. It may also have advantages in the future for reduction of
240 * client/server bandwidth (client could keep track of various strings 182 * client/server bandwidth (client could keep track of various strings
241 */ 183 */
242 184void
243void new_draw_info_format(int flags, int pri, const object *pl, const char *format, ...) 185new_draw_info_format (int flags, int pri, const object *pl, const char *format, ...)
244{ 186{
245 char buf[HUGE_BUF]; 187 char buf[HUGE_BUF];
246 188
247 va_list ap; 189 va_list ap;
248 va_start(ap, format); 190 va_start (ap, format);
249
250 vsnprintf(buf, HUGE_BUF, format, ap); 191 vsnprintf (buf, HUGE_BUF, format, ap);
251
252 va_end(ap); 192 va_end (ap);
253 193
254 new_draw_info(flags, pri, pl, buf); 194 new_draw_info (flags, pri, pl, buf);
255} 195}
256 196
197void
198draw_ext_info (int flags, int pri, const object *pl, uint8 type, uint8 subtype, const char *message, const char *oldmessage)
199{
257 200
258void draw_ext_info(
259 int flags, int pri, const object *pl, uint8 type,
260 uint8 subtype, const char* message, const char* oldmessage){
261
262 if(!pl || (pl->type!=PLAYER) || (pl->contr==NULL)) 201 if (!pl || (pl->type != PLAYER) || (pl->contr == NULL))
263 return; 202 return;
264 203
265 if (pri>=pl->contr->listening) return; 204 if (pri >= pl->contr->listening)
205 return;
206
266 if (!CLIENT_SUPPORT_READABLES(&pl->contr->socket,type)){ 207 if (!CLIENT_SUPPORT_READABLES (pl->contr->ns, type))
208 {
267 char *buf = (char*)malloc(strlen(oldmessage==NULL?message:oldmessage)+1); 209 char *buf = (char *) malloc (strlen (oldmessage == NULL ? message : oldmessage) + 1);
210
268 if (buf==NULL) 211 if (buf == NULL)
269 LOG(llevError,"info::draw_ext_info -> Out of memory!"); 212 LOG (llevError, "info::draw_ext_info -> Out of memory!");
270 else{ 213 else
214 {
271 strcpy(buf,oldmessage==NULL?message:oldmessage); 215 strcpy (buf, oldmessage == NULL ? message : oldmessage);
272 strip_media_tag(buf); 216 strip_media_tag (buf);
273 new_draw_info(flags, pri, pl, buf); 217 new_draw_info (flags, pri, pl, buf);
274 free(buf); 218 free (buf);
275 } 219 }
220 }
276 }else{ 221 else
277 esrv_print_ext_msg(&pl->contr->socket,flags&NDI_COLOR_MASK,type,subtype,message); 222 esrv_print_ext_msg (pl->contr->ns, flags & NDI_COLOR_MASK, type, subtype, message);
278 }
279} 223}
280 224
281void draw_ext_info_format( 225void
282 int flags, int pri, const object *pl, uint8 type, 226draw_ext_info_format (int flags, int pri, const object *pl, uint8 type, uint8 subtype, const char *old_format, char *new_format, ...)
283 uint8 subtype, const char* old_format, 227{
284 char* new_format, ...){
285
286 char buf[HUGE_BUF]; 228 char buf[HUGE_BUF];
229
287 if(!pl || (pl->type!=PLAYER) || (pl->contr==NULL)) 230 if (!pl || (pl->type != PLAYER) || (pl->contr == NULL))
288 return; 231 return;
289 232
290 if (pri>=pl->contr->listening) return; 233 if (pri >= pl->contr->listening)
234 return;
235
291 if (!CLIENT_SUPPORT_READABLES(&pl->contr->socket,type)){ 236 if (!CLIENT_SUPPORT_READABLES (pl->contr->ns, type))
237 {
292 va_list ap; 238 va_list ap;
239
293 LOG(llevDebug,"Non supported extension text type for client.\n"); 240 LOG (llevDebug, "Non supported extension text type for client.\n");
294 va_start(ap, new_format); 241 va_start (ap, new_format);
295 vsnprintf(buf, HUGE_BUF, old_format, ap); 242 vsnprintf (buf, HUGE_BUF, old_format, ap);
296 va_end(ap); 243 va_end (ap);
297 new_draw_info(flags, pri, pl, buf); 244 new_draw_info (flags, pri, pl, buf);
298 return; 245 return;
299 }else{ 246 }
247 else
248 {
300 va_list ap; 249 va_list ap;
250
301 va_start(ap, new_format); 251 va_start (ap, new_format);
302 vsnprintf(buf, HUGE_BUF, new_format, ap); 252 vsnprintf (buf, HUGE_BUF, new_format, ap);
303 va_end(ap); 253 va_end (ap);
304 strip_media_tag(buf); 254 strip_media_tag (buf);
305 esrv_print_ext_msg(&pl->contr->socket,flags&NDI_COLOR_MASK,type,subtype,buf); 255 esrv_print_ext_msg (pl->contr->ns, flags & NDI_COLOR_MASK, type, subtype, buf);
306 } 256 }
307} 257}
258
308/** 259/**
309 * Writes to everyone on the map *except* op. This is useful for emotions. 260 * Writes to everyone on the map *except* op. This is useful for emotions.
310 */ 261 */
311 262
263void
312void new_info_map_except(int color, mapstruct *map, object *op, const char *str) { 264new_info_map_except (int color, maptile * map, object *op, const char *str)
313 player *pl; 265{
314 266 for_all_players (pl)
315 for(pl = first_player; pl != NULL; pl = pl->next)
316 if(pl->ob != NULL && pl->ob->map == map && pl->ob != op) { 267 if (pl->ob != NULL && pl->ob->map == map && pl->ob != op)
317 new_draw_info(color, 0, pl->ob, str); 268 new_draw_info (color, 0, pl->ob, str);
318 }
319} 269}
320 270
321/** 271/**
322 * Writes to everyone on the map except op1 and op2 272 * Writes to everyone on the map except op1 and op2
323 */ 273 */
324 274
275void
325void new_info_map_except2(int color, mapstruct *map, object *op1, object *op2, 276new_info_map_except2 (int color, maptile * map, object *op1, object *op2, const char *str)
326 const char *str) { 277{
327 player *pl; 278 for_all_players (pl)
328 279 if (pl->ob != NULL && pl->ob->map == map && pl->ob != op1 && pl->ob != op2)
329 for(pl = first_player; pl != NULL; pl = pl->next)
330 if(pl->ob != NULL && pl->ob->map == map
331 && pl->ob != op1 && pl->ob != op2) {
332 new_draw_info(color, 0, pl->ob, str); 280 new_draw_info (color, 0, pl->ob, str);
333 }
334} 281}
335 282
336/** 283/**
337 * Writes to everyone on the specified map 284 * Writes to everyone on the specified map
338 */ 285 */
339 286
287void
340void new_info_map(int color, mapstruct *map, const char *str) { 288new_info_map (int color, maptile * map, const char *str)
341 player *pl; 289{
342 290 for_all_players (pl)
343 for(pl = first_player; pl != NULL; pl = pl->next)
344 if(pl->ob != NULL && pl->ob->map == map) { 291 if (pl->ob != NULL && pl->ob->map == map)
345 new_draw_info(color, 0, pl->ob, str); 292 new_draw_info (color, 0, pl->ob, str);
346 }
347} 293}
348
349 294
350/** 295/**
351 * This does nothing now. However, in theory, we should probably send 296 * This does nothing now. However, in theory, we should probably send
352 * something to the client and let the client figure out how it might want 297 * something to the client and let the client figure out how it might want
353 * to handle this 298 * to handle this
354 */ 299 */
300void
355void clear_win_info(object *op) 301clear_win_info (object *op)
356{ 302{
357}
358
359/**
360 * Get player's current range attack in obuf.
361 */
362void rangetostring(object *pl,char *obuf)
363{
364 switch(pl->contr->shoottype) {
365 case range_none:
366 strcpy(obuf,"Range: nothing");
367 break;
368
369 case range_bow:
370 {
371 object *op;
372
373 for (op = pl->inv; op; op=op->below)
374 if (op->type == BOW && QUERY_FLAG (op, FLAG_APPLIED))
375 break;
376 if(op==NULL) break;
377
378 sprintf (obuf, "Range: %s (%s)", query_base_name(op, 0),
379 op->race ? (const char *)op->race : "nothing");
380 }
381 break;
382
383 case range_magic:
384 if (settings.casting_time == TRUE) {
385 if (pl->casting_time > -1) {
386 if (pl->casting_time == 0)
387 sprintf(obuf,"Range: Holding spell (%s)",
388 (const char *)pl->spell->name);
389 else
390 sprintf(obuf,"Range: Casting spell (%s)",
391 (const char *)pl->spell->name);
392 } else
393 sprintf(obuf,"Range: spell (%s)", &pl->contr->ranges[range_magic]->name);
394 } else
395 sprintf(obuf,"Range: spell (%s)", &pl->contr->ranges[range_magic]->name);
396 break;
397
398 case range_misc:
399 sprintf(obuf,"Range: %s", pl->contr->ranges[range_misc] ?
400 query_base_name(pl->contr->ranges[range_misc],0) : "none");
401 break;
402
403 /* range_scroll is only used for controlling golems. If the
404 * the player does not have a golem, reset some things.
405 */
406 case range_golem:
407 if (pl->contr->ranges[range_golem]!=NULL)
408 sprintf(obuf,"Range: golem (%s)", &pl->contr->ranges[range_golem]->name);
409 else {
410 pl->contr->shoottype = range_none;
411 strcpy(obuf,"Range: nothing");
412 }
413 break;
414
415 case range_skill:
416 sprintf(obuf,"Skill: %s", pl->chosen_skill!=NULL ?
417 (const char *)pl->chosen_skill->name : "none");
418 break;
419
420 case range_builder:
421 sprintf( obuf, "Builder: %s", query_base_name( pl->contr->ranges[ range_builder ], 0 ) );
422 break;
423
424 default:
425 strcpy(obuf,"Range: illegal");
426 }
427} 303}
428 304
429/** 305/**
430 * Sets player title. 306 * Sets player title.
431 */ 307 */
308void
432void set_title(object *pl, char *buf) 309set_title (object *pl, char *buf)
433{ 310{
434 /* Eneq(@csd.uu.se): Let players define their own titles. */ 311 /* Eneq(@csd.uu.se): Let players define their own titles. */
435 if (pl->contr->own_title[0]=='\0') 312 if (pl->contr->own_title[0] == '\0')
436 sprintf(buf,"Player: %s the %s",(const char *)pl->name,(const char *)pl->contr->title); 313 sprintf (buf, "Player: %s the %s", (const char *) pl->name, (const char *) pl->contr->title);
437 else 314 else
438 sprintf(buf,"Player: %s %s",(const char *)pl->name,(const char *)pl->contr->own_title); 315 sprintf (buf, "Player: %s %s", (const char *) pl->name, (const char *) pl->contr->own_title);
439} 316}
440 317
318// formerly a macro, used only by magic map, so optimised it out
319static inline faceidx
320GET_MAP_FACE (maptile *m, int x, int y, int layer)
321{
322 if (object *op = GET_MAP_FACE_OBJ (m, x, y, layer))
323 return op->face;
324 else
325 return 0;
326}
441 327
442/** 328/**
443 * Helper for magic map creation. 329 * Helper for magic map creation.
444 * 330 *
445 * Takes a player, the map_mark array and an x and y starting position. 331 * Takes a player, the map_mark array and an x and y starting position.
448 * 334 *
449 * This function examines all the adjacant spaces next to px, py. 335 * This function examines all the adjacant spaces next to px, py.
450 * It updates the map_mark arrow with the color and high bits set 336 * It updates the map_mark arrow with the color and high bits set
451 * for various code values. 337 * for various code values.
452 */ 338 */
339static void
453static void magic_mapping_mark_recursive(object *pl, char *map_mark, int px, int py) 340magic_mapping_mark_recursive (object *pl, char *map_mark, int px, int py)
454{ 341{
455 int x, y, dx, dy,mflags; 342 int x, y, dx, dy, mflags;
456 sint16 nx, ny; 343 sint16 nx, ny;
457 mapstruct *mp; 344 maptile *mp;
458 New_Face *f;
459 345
460 for (dx = -1; dx <= 1; dx++) { 346 for (dx = -1; dx <= 1; dx++)
347 {
461 for (dy = -1; dy <= 1; dy++) { 348 for (dy = -1; dy <= 1; dy++)
349 {
462 x = px + dx; 350 x = px + dx;
463 y = py + dy; 351 y = py + dy;
464 352
465 if (FABS(x) >= MAGIC_MAP_HALF || FABS(y) >= MAGIC_MAP_HALF) continue; 353 if (FABS (x) >= MAGIC_MAP_HALF || FABS (y) >= MAGIC_MAP_HALF)
354 continue;
466 355
467 mp = pl->map; 356 mp = pl->map;
468 nx = pl->x + x; 357 nx = pl->x + x;
469 ny = pl->y + y; 358 ny = pl->y + y;
470 359
471 mflags = get_map_flags(pl->map, &mp, nx, ny, &nx, &ny); 360 mflags = get_map_flags (pl->map, &mp, nx, ny, &nx, &ny);
472 if (mflags & P_OUT_OF_MAP) continue; 361 if (mflags & P_OUT_OF_MAP)
362 continue;
473 363
474 if (map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE* (MAGIC_MAP_HALF + y)] == 0) { 364 if (map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE * (MAGIC_MAP_HALF + y)] == 0)
365 {
475 f= GET_MAP_FACE(mp, nx, ny, 0); 366 int f = GET_MAP_FACE (mp, nx, ny, 0);
367 if (f == blank_face)
368 {
369 f = GET_MAP_FACE (mp, nx, ny, 1);
476 if (f == blank_face) 370 if (f == blank_face)
477 f= GET_MAP_FACE(mp, nx, ny, 1);
478 if (f == blank_face)
479 f= GET_MAP_FACE(mp, nx, ny, 2); 371 f = GET_MAP_FACE (mp, nx, ny, 2);
372 }
480 373
374 int magicmap = faces [f].magicmap;
375
481 /* Should probably have P_NO_MAGIC here also, but then shops don't 376 /* Should probably have P_NO_MAGIC here also, but then shops don't
482 * work. 377 * work.
483 */ 378 */
484 if (mflags & P_BLOCKSVIEW) 379 if (mflags & P_BLOCKSVIEW)
485 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE* (MAGIC_MAP_HALF + y)] = FACE_WALL | (f?f->magicmap:0); 380 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE * (MAGIC_MAP_HALF + y)] = FACE_WALL | magicmap;
486 else { 381 else
382 {
487 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE* (MAGIC_MAP_HALF + y)] = FACE_FLOOR | (f?f->magicmap:0); 383 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE * (MAGIC_MAP_HALF + y)] = FACE_FLOOR | magicmap;
488 magic_mapping_mark_recursive(pl, map_mark, x, y); 384 magic_mapping_mark_recursive (pl, map_mark, x, y);
489 } 385 }
490 } 386 }
491 } 387 }
492 } 388 }
493} 389}
494
495 390
496/** 391/**
497 * Creates magic map for player. 392 * Creates magic map for player.
498 * 393 *
499 * Note: For improved magic mapping display, the space that blocks 394 * Note: For improved magic mapping display, the space that blocks
501 * being nonzero have been changed to check for 1. Also, since 396 * being nonzero have been changed to check for 1. Also, since
502 * map_mark is a char value, putting 2 in should cause no problems. 397 * map_mark is a char value, putting 2 in should cause no problems.
503 * 398 *
504 * This function examines the map the player is on, and determines what 399 * This function examines the map the player is on, and determines what
505 * is visible. 2 is set for walls or objects that blocks view. 1 400 * is visible. 2 is set for walls or objects that blocks view. 1
506 * is for open spaces. map_mark should already have been initialized 401 * is for open spaces. map_mark should already have been initialised
507 * to zero before this is called. 402 * to zero before this is called.
508 * strength is an initial strength*2 rectangular area that we automatically 403 * strength is an initial strength*2 rectangular area that we automatically
509 * see in/penetrate through. 404 * see in/penetrate through.
510 */ 405 */
511 406void
512void magic_mapping_mark(object *pl, char *map_mark, int strength) 407magic_mapping_mark (object *pl, char *map_mark, int strength)
513{ 408{
514 int x, y, mflags; 409 int x, y, mflags;
515 sint16 nx, ny; 410 sint16 nx, ny;
516 mapstruct *mp; 411 maptile *mp;
517 New_Face *f;
518 412
519 for (x = -strength; x <strength; x++) { 413 for (x = -strength; x < strength; x++)
414 {
520 for (y = -strength; y <strength; y++) { 415 for (y = -strength; y < strength; y++)
416 {
521 mp = pl->map; 417 mp = pl->map;
522 nx = pl->x + x; 418 nx = pl->x + x;
523 ny = pl->y + y; 419 ny = pl->y + y;
420
524 mflags = get_map_flags(pl->map, &mp, nx, ny, &nx, &ny); 421 mflags = get_map_flags (pl->map, &mp, nx, ny, &nx, &ny);
525 if (mflags & P_OUT_OF_MAP) 422 if (mflags & P_OUT_OF_MAP)
526 continue; 423 continue;
424
425 int f = GET_MAP_FACE (mp, nx, ny, 0);
426 if (f == blank_face)
527 else { 427 {
528 f= GET_MAP_FACE(mp, nx, ny, 0); 428 f = GET_MAP_FACE (mp, nx, ny, 1);
529 if (f == blank_face) 429 if (f == blank_face)
530 f= GET_MAP_FACE(mp, nx, ny, 1);
531 if (f == blank_face)
532 f= GET_MAP_FACE(mp, nx, ny, 2); 430 f = GET_MAP_FACE (mp, nx, ny, 2);
533 } 431 }
534 432
433 int magicmap = faces [f].magicmap;
434
535 if (mflags & P_BLOCKSVIEW) 435 if (mflags & P_BLOCKSVIEW)
536 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE* (MAGIC_MAP_HALF + y)] = FACE_WALL | (f?f->magicmap:0); 436 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE * (MAGIC_MAP_HALF + y)] = FACE_WALL | magicmap;
537 else { 437 else
438 {
538 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE* (MAGIC_MAP_HALF + y)] = FACE_FLOOR | (f?f->magicmap:0); 439 map_mark[MAGIC_MAP_HALF + x + MAGIC_MAP_SIZE * (MAGIC_MAP_HALF + y)] = FACE_FLOOR | magicmap;
539 magic_mapping_mark_recursive(pl, map_mark, x, y); 440 magic_mapping_mark_recursive (pl, map_mark, x, y);
540 } 441 }
541 } 442 }
542 } 443 }
543} 444}
544 445
545
546/** 446/**
547 * Creates and sends magic map to player. 447 * Creates and sends magic map to player.
548 * 448 *
549 * The following function is a lot messier than it really should be, 449 * The following function is a lot messier than it really should be,
550 * but there is no real easy solution. 450 * but there is no real easy solution.
551 * 451 *
552 * Mark Wedel 452 * Mark Wedel
553 */ 453 */
554 454void
555void draw_magic_map(object *pl) 455draw_magic_map (object *pl)
556{ 456{
557 int x,y;
558 char *map_mark = (char *) calloc(MAGIC_MAP_SIZE*MAGIC_MAP_SIZE, 1); 457 char *map_mark = (char *)calloc (MAGIC_MAP_SIZE * MAGIC_MAP_SIZE, 1);
559 int xmin, xmax, ymin, ymax; 458 int xmin, xmax, ymin, ymax;
560 SockList sl;
561 459
562 if (pl->type!=PLAYER) { 460 if (pl->type != PLAYER)
461 {
563 LOG(llevError,"Non player object called draw_map.\n"); 462 LOG (llevError, "Non player object called draw_map.\n");
564 return; 463 return;
565 }
566 464 }
465
567 /* First, we figure out what spaces are 'reachable' by the player */ 466 /* First, we figure out what spaces are 'reachable' by the player */
568 magic_mapping_mark(pl, map_mark, 3); 467 magic_mapping_mark (pl, map_mark, 3);
569 468
570 /* We now go through and figure out what spaces have been 469 /* We now go through and figure out what spaces have been
571 * marked, and thus figure out rectangular region we send 470 * marked, and thus figure out rectangular region we send
572 * to the client (eg, if only a 10x10 area is visible, we only 471 * to the client (eg, if only a 10x10 area is visible, we only
573 * want to send those 100 spaces.) 472 * want to send those 100 spaces.)
574 */ 473 */
575 xmin = MAGIC_MAP_SIZE; 474 xmin = MAGIC_MAP_SIZE;
576 ymin = MAGIC_MAP_SIZE; 475 ymin = MAGIC_MAP_SIZE;
577 xmax = 0; 476 xmax = 0;
578 ymax = 0; 477 ymax = 0;
478
579 for(x = 0; x < MAGIC_MAP_SIZE ; x++) { 479 for (int x = 0; x < MAGIC_MAP_SIZE; x++)
580 for(y = 0; y < MAGIC_MAP_SIZE; y++) { 480 for (int y = 0; y < MAGIC_MAP_SIZE; y++)
581 if (map_mark[x + MAP_WIDTH(pl->map) * y] | FACE_FLOOR) { 481 if (map_mark[x + pl->map->width * y] | FACE_FLOOR)
482 {
582 xmin = x < xmin ? x : xmin; 483 xmin = x < xmin ? x : xmin;
583 xmax = x > xmax ? x : xmax; 484 xmax = x > xmax ? x : xmax;
584 ymin = y < ymin ? y : ymin; 485 ymin = y < ymin ? y : ymin;
585 ymax = y > ymax ? y : ymax; 486 ymax = y > ymax ? y : ymax;
586 }
587 } 487 }
588 }
589 488
590 sl.buf= (unsigned char*) malloc(MAXSOCKBUF); 489 packet sl;
591 snprintf((char*)sl.buf, MAXSOCKBUF, "magicmap %d %d %d %d ", (xmax-xmin+1), (ymax-ymin+1), 490 sl.printf ("magicmap %d %d %d %d ", (xmax - xmin + 1), (ymax - ymin + 1),
592 MAGIC_MAP_HALF - xmin, MAGIC_MAP_HALF - ymin); 491 MAGIC_MAP_HALF - xmin, MAGIC_MAP_HALF - ymin);
593 sl.len=strlen((char*)sl.buf); 492
594
595 for (y = ymin; y <= ymax; y++) { 493 for (int y = ymin; y <= ymax; y++)
596 for (x = xmin; x <= xmax; x++) { 494 for (int x = xmin; x <= xmax; x++)
597 sl.buf[sl.len++]= map_mark[x+MAGIC_MAP_SIZE*y] & ~FACE_FLOOR; 495 sl << uint8 (map_mark[x + MAGIC_MAP_SIZE * y] & ~FACE_FLOOR);
598 } /* x loop */ 496
599 } /* y loop */ 497 pl->contr->ns->send_packet (sl);
600 498
601 Send_With_Handling(&pl->contr->socket, &sl);
602 free(sl.buf);
603 free(map_mark); 499 free (map_mark);
604} 500}
605
606 501
607/** 502/**
608 * Send a kill log record to sockets 503 * Send a kill log record to sockets
609 */ 504 */
610 505void
611void Log_Kill(const char *Who, 506Log_Kill (const char *Who, const char *What, int WhatType, const char *With, int WithType)
612 const char *What, int WhatType,
613 const char *With, int WithType)
614{ 507{
615 int i;
616 size_t len; 508 size_t len;
617 char buf[MAX_BUF]; 509 char buf[MAX_BUF];
618 510
619 if (With!=NULL) { 511 if (With != NULL)
620 snprintf(buf, MAX_BUF, "%s\t%s\t%d\t%s\t%d\n",Who,What,WhatType,With,WithType); 512 snprintf (buf, MAX_BUF, "%s\t%s\t%d\t%s\t%d\n", Who, What, WhatType, With, WithType);
621 }
622 else { 513 else
623 snprintf(buf,MAX_BUF, "%s\t%s\t%d\n",Who,What,WhatType); 514 snprintf (buf, MAX_BUF, "%s\t%s\t%d\n", Who, What, WhatType);
624 } 515
625 len=strlen(buf); 516 len = strlen (buf);
626 for(i=1; i<socket_info.allocated_sockets; i++) {
627 if (init_sockets[i].old_mode == Old_Listen) {
628 cs_write_string(&init_sockets[i], buf, len);
629 }
630 }
631} 517}
518

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