// $Id: map.c,v 1.6 2004/09/25 17:37:01 MouseJstr Exp $ #include #include #include #include #ifdef _WIN32 #include #else #include #endif #include #include "core.h" #include "timer.h" #include "db.h" #include "grfio.h" #include "malloc.h" #include "version.h" #include "map.h" #include "chrif.h" #include "clif.h" #include "intif.h" #include "npc.h" #include "pc.h" #include "status.h" #include "mob.h" #include "chat.h" #include "itemdb.h" #include "storage.h" #include "skill.h" #include "trade.h" #include "party.h" #include "battle.h" #include "script.h" #include "guild.h" #include "pet.h" #include "atcommand.h" #include "charcommand.h" #include "nullpo.h" #include "socket.h" #include "log.h" #include "showmsg.h" #ifdef MEMWATCH #include "memwatch.h" #endif // maybe put basic macros to somewhere else #define swap(a,b) ((a == b) || ((a ^= b), (b ^= a), (a ^= b))) #ifndef TXT_ONLY #include "mail.h" // mail system [Valaris] MYSQL mmysql_handle; MYSQL_RES* sql_res ; MYSQL_ROW sql_row ; char tmp_sql[65535]=""; MYSQL lmysql_handle; MYSQL_RES* lsql_res ; MYSQL_ROW lsql_row ; char tmp_lsql[65535]=""; MYSQL mail_handle; // mail system [Valaris] MYSQL_RES* mail_res ; MYSQL_ROW mail_row ; char tmp_msql[65535]=""; int map_server_port = 3306; char map_server_ip[16] = "127.0.0.1"; char map_server_id[32] = "ragnarok"; char map_server_pw[32] = "ragnarok"; char map_server_db[32] = "ragnarok"; int db_use_sqldbs = 0; int login_server_port = 3306; char login_server_ip[16] = "127.0.0.1"; char login_server_id[32] = "ragnarok"; char login_server_pw[32] = "ragnarok"; char login_server_db[32] = "ragnarok"; char item_db_db[32] = "item_db"; char mob_db_db[32] = "mob_db"; char login_db[32] = "login"; char login_db_level[32] = "level"; char login_db_account_id[32] = "account_id"; char log_db[32] = "log"; char log_db_ip[16] = "127.0.0.1"; char log_db_id[32] = "ragnarok"; char log_db_pw[32] = "ragnarok"; int log_db_port = 3306; char gm_db[32] = "login"; char gm_db_level[32] = "level"; char gm_db_account_id[32] = "account_id"; int lowest_gm_level = 1; int read_gm_interval = 600000; char char_db[32] = "char"; static int online_timer(int,unsigned int,int,int); int CHECK_INTERVAL = 3600000; // [Valaris] int check_online_timer=0; // [Valaris] #endif /* not TXT_ONLY */ #define USE_AFM #define USE_AF2 // ‹É—Í static‚Ń?ƒJƒ‹‚É?‚ß‚é static struct dbt * id_db=NULL; static struct dbt * map_db=NULL; static struct dbt * nick_db=NULL; static struct dbt * charid_db=NULL; static int users=0; static struct block_list *objects[MAX_FLOORITEM]; static int first_free_object_id=0,last_object_id=0; #define block_free_max 1048576 static void *block_free[block_free_max]; static int block_free_count = 0, block_free_lock = 0; #define BL_LIST_MAX 1048576 static struct block_list *bl_list[BL_LIST_MAX]; static int bl_list_count = 0; static char afm_dir[1024] = ""; // [Valaris] struct map_data map[MAX_MAP_PER_SERVER]; int map_num = 0; int map_port=0; int autosave_interval = DEFAULT_AUTOSAVE_INTERVAL; int agit_flag = 0; int night_flag = 0; // 0=day, 1=night [Yor] //Added for Mugendai's I'm Alive mod int imalive_on=0; int imalive_time=60; //Added by Mugendai for GUI int flush_on=1; int flush_time=100; struct charid2nick { char nick[24]; int req_id; }; // «Þ«Ã«×«­«ã«Ã«·«å××éÄ«Õ«é«°(map_athana.conf?ªÎread_map_from_cacheªÇò¦E) // 0:××éĪ·ªÊª¤ 1:Þª?õêÜÁðí 2:?õêÜÁðí int map_read_flag = READ_FROM_GAT; char map_cache_file[256]="db/map.info"; // «Þ«Ã«×«­«ã«Ã«·«å«Õ«¡«¤«E£ char motd_txt[256] = "conf/motd.txt"; char help_txt[256] = "conf/help.txt"; char wisp_server_name[24] = "Server"; // can be modified in char-server configuration file int console = 0; /*========================================== * ‘SmapŽI?Œv‚Å‚ÌÚ??Ý’è * (charŽI‚©‚ç‘—‚ç‚ê‚Ä‚­‚é) *------------------------------------------ */ void map_setusers(int n) { users = n; } /*========================================== * ‘SmapŽI?Œv‚Å‚ÌÚ??Žæ“¾ (/w‚Ö‚Ì?“š—p) *------------------------------------------ */ int map_getusers(void) { return users; } // // block휂̈À‘S«Šm•Û?— // /*========================================== * block‚ðfree‚·‚é‚Æ‚«free‚Ì?‚í‚è‚ÉŒÄ‚Ô * ƒƒbƒN‚³‚ê‚Ä‚¢‚é‚Æ‚«‚̓oƒbƒtƒ@‚É‚½‚ß‚é *------------------------------------------ */ int map_freeblock( void *bl ) { if(block_free_lock==0){ aFree(bl); bl = NULL; } else{ if( block_free_count>=block_free_max ) { if(battle_config.error_log) printf("map_freeblock: *WARNING* too many free block! %d %d\n", block_free_count,block_free_lock); } else block_free[block_free_count++]=bl; } return block_free_lock; } /*========================================== * block‚Ìfree‚ðˆêŽž“I‚É‹ÖŽ~‚·‚é *------------------------------------------ */ int map_freeblock_lock(void) { return ++block_free_lock; } /*========================================== * block‚Ìfree‚̃ƒbƒN‚ð‰ðœ‚·‚é * ‚±‚Ì‚Æ‚«AƒƒbƒN‚ªŠ®‘S‚É‚È‚­‚È‚é‚Æ * ƒoƒbƒtƒ@‚É‚½‚Ü‚Á‚Ä‚¢‚½block‚ð‘S•”íœ *------------------------------------------ */ int map_freeblock_unlock(void) { if ((--block_free_lock) == 0) { int i; // if(block_free_count>0) { // if(battle_config.error_log) // printf("map_freeblock_unlock: free %d object\n",block_free_count); // } for(i=0;i 0) { printf("map_freeblock_timer: block_free_lock(%d) is invalid.\n",block_free_lock); block_free_lock = 1; map_freeblock_unlock(); } // else { // printf("map_freeblock_timer: check ok\n"); // } return 0; } // // block‰»?— // /*========================================== * map[]‚Ìblock_list‚©‚ç?‚ª‚Á‚Ä‚¢‚éê‡‚É * bl->prev‚Ébl_head‚̃AƒhƒŒƒX‚ð“ü‚ê‚Ä‚¨‚­ *------------------------------------------ */ static struct block_list bl_head; /*========================================== * map[]‚Ìblock_list‚ɒljÁ * mob‚Í?‚ª‘½‚¢‚̂ŕʃŠƒXƒg * * ?‚Élink?‚Ý‚©‚ÌŠm”F‚ª–³‚¢BŠë?‚©‚à *------------------------------------------ */ int map_addblock(struct block_list *bl) { int m,x,y; nullpo_retr(0, bl); if(bl->prev != NULL){ if(battle_config.error_log) printf("map_addblock error : bl->prev!=NULL\n"); return 0; } m=bl->m; x=bl->x; y=bl->y; if(m<0 || m>=map_num || x<0 || x>=map[m].xs || y<0 || y>=map[m].ys) return 1; if(bl->type==BL_MOB){ bl->next = map[m].block_mob[x/BLOCK_SIZE+(y/BLOCK_SIZE)*map[m].bxs]; bl->prev = &bl_head; if(bl->next) bl->next->prev = bl; map[m].block_mob[x/BLOCK_SIZE+(y/BLOCK_SIZE)*map[m].bxs] = bl; map[m].block_mob_count[x/BLOCK_SIZE+(y/BLOCK_SIZE)*map[m].bxs]++; } else { bl->next = map[m].block[x/BLOCK_SIZE+(y/BLOCK_SIZE)*map[m].bxs]; bl->prev = &bl_head; if(bl->next) bl->next->prev = bl; map[m].block[x/BLOCK_SIZE+(y/BLOCK_SIZE)*map[m].bxs] = bl; map[m].block_count[x/BLOCK_SIZE+(y/BLOCK_SIZE)*map[m].bxs]++; if(bl->type==BL_PC) map[m].users++; } return 0; } /*========================================== * map[]‚Ìblock_list‚©‚çŠO‚· * prev‚ªNULL‚Ìê‡list‚É?‚ª‚Á‚Ä‚È‚¢ *------------------------------------------ */ int map_delblock(struct block_list *bl) { int b; nullpo_retr(0, bl); // ?‚Éblocklist‚©‚ç?‚¯‚Ä‚¢‚é if(bl->prev==NULL){ if(bl->next!=NULL){ // prev‚ªNULL‚Ånext‚ªNULL‚Å‚È‚¢‚Ì‚Í—L‚Á‚Ä‚Í‚È‚ç‚È‚¢ if(battle_config.error_log) printf("map_delblock error : bl->next!=NULL\n"); } return 0; } b = bl->x/BLOCK_SIZE+(bl->y/BLOCK_SIZE)*map[bl->m].bxs; if(bl->type==BL_PC) map[bl->m].users--; if(bl->next) bl->next->prev = bl->prev; if(bl->prev==&bl_head){ // ƒŠƒXƒg‚Ì“ª‚È‚Ì‚ÅAmap[]‚Ìblock_list‚ðXV‚·‚é if(bl->type==BL_MOB){ map[bl->m].block_mob[b] = bl->next; if((map[bl->m].block_mob_count[b]--) < 0) map[bl->m].block_mob_count[b] = 0; } else { map[bl->m].block[b] = bl->next; if((map[bl->m].block_count[b]--) < 0) map[bl->m].block_count[b] = 0; } } else { bl->prev->next = bl->next; } bl->next = NULL; bl->prev = NULL; return 0; } /*========================================== * Žü?‚ÌPCl?‚ð?‚¦‚é (Œ»Ý–¢Žg—p) *------------------------------------------ */ int map_countnearpc(int m, int x, int y) { int bx,by,c=0; struct block_list *bl=NULL; if(map[m].users==0) return 0; for(by=y/BLOCK_SIZE-AREA_SIZE/BLOCK_SIZE-1;by<=y/BLOCK_SIZE+AREA_SIZE/BLOCK_SIZE+1;by++){ if(by<0 || by>=map[m].bys) continue; for(bx=x/BLOCK_SIZE-AREA_SIZE/BLOCK_SIZE-1;bx<=x/BLOCK_SIZE+AREA_SIZE/BLOCK_SIZE+1;bx++){ if(bx<0 || bx>=map[m].bxs) continue; bl = map[m].block[bx+by*map[m].bxs]; for(;bl;bl=bl->next){ if(bl->type==BL_PC) c++; } } } return c; } /*========================================== * ƒZƒ‹ã‚ÌPC‚ÆMOB‚Ì?‚ð?‚¦‚é (ƒOƒ‰ƒ“ƒhƒNƒƒX—p) *------------------------------------------ */ int map_count_oncell(int m, int x, int y) { int bx,by; struct block_list *bl=NULL; int i,c; int count = 0; if (x < 0 || y < 0 || (x >= map[m].xs) || (y >= map[m].ys)) return 1; bx = x/BLOCK_SIZE; by = y/BLOCK_SIZE; bl = map[m].block[bx+by*map[m].bxs]; c = map[m].block_count[bx+by*map[m].bxs]; for(i=0;inext){ if(bl->x == x && bl->y == y && bl->type == BL_PC) count++; } bl = map[m].block_mob[bx+by*map[m].bxs]; c = map[m].block_mob_count[bx+by*map[m].bxs]; for(i=0;inext){ if(bl->x == x && bl->y == y) count++; } if(!count) count = 1; return count; } /* * «»«E¾ªÎõÌôøªË̸ªÄª±ª¿«¹«­«Eæ«Ë«Ã«ÈªòÚ÷ª¹ */ struct skill_unit *map_find_skill_unit_oncell(struct block_list *target,int x,int y,int skill_id,struct skill_unit *out_unit) { int m,bx,by; struct block_list *bl; int i,c; struct skill_unit *unit; m = target->m; if (x < 0 || y < 0 || (x >= map[m].xs) || (y >= map[m].ys)) return NULL; bx = x/BLOCK_SIZE; by = y/BLOCK_SIZE; bl = map[m].block[bx+by*map[m].bxs]; c = map[m].block_count[bx+by*map[m].bxs]; for(i=0;inext){ if (bl->x != x || bl->y != y || bl->type != BL_SKILL) continue; unit = (struct skill_unit *) bl; if (unit==out_unit || !unit->alive || !unit->group || unit->group->skill_id!=skill_id) continue; if (battle_check_target(&unit->bl,target,unit->group->target_flag)>0) return unit; } return NULL; } /*========================================== * map m (x0,y0)-(x1,y1)?‚Ì‘Sobj‚É?‚µ‚Ä * func‚ðŒÄ‚Ô * type!=0 ‚È‚ç‚»‚ÌŽí—Þ‚Ì‚Ý *------------------------------------------ */ void map_foreachinarea(int (*func)(struct block_list*,va_list),int m,int x0,int y0,int x1,int y1,int type,...) { va_list ap; int bx,by; struct block_list *bl=NULL; int blockcount=bl_list_count,i,c; if(m < 0) return; va_start(ap,type); if (x0 < 0) x0 = 0; if (y0 < 0) y0 = 0; if (x1 >= map[m].xs) x1 = map[m].xs-1; if (y1 >= map[m].ys) y1 = map[m].ys-1; if (type == 0 || type != BL_MOB) for (by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++) { for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){ bl = map[m].block[bx+by*map[m].bxs]; c = map[m].block_count[bx+by*map[m].bxs]; for(i=0;inext){ if(bl && type && bl->type!=type) continue; if(bl && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_countnext){ if(bl && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_count=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachinarea: *WARNING* block count too many!\n"); } map_freeblock_lock(); // ƒƒ‚ƒŠ‚©‚ç‚̉ð•ú‚ð‹ÖŽ~‚·‚é for(i=blockcount;iprev) // —L?‚©‚Ç‚¤‚©ƒ`ƒFƒbƒN func(bl_list[i],ap); map_freeblock_unlock(); // ‰ð•ú‚ð‹–‰Â‚·‚é va_end(ap); bl_list_count = blockcount; } /*========================================== * ‹éŒ`(x0,y0)-(x1,y1)‚ª(dx,dy)ˆÚ“®‚µ‚½Žž‚Ì * —̈æŠO‚É‚È‚é—̈æ(‹éŒ`‚©LŽšŒ`)?‚Ìobj‚É * ?‚µ‚Äfunc‚ðŒÄ‚Ô * * dx,dy‚Í-1,0,1‚Ì‚Ý‚Æ‚·‚éi‚Ç‚ñ‚È’l‚Å‚à‚¢‚¢‚Á‚Û‚¢Hj *------------------------------------------ */ void map_foreachinmovearea(int (*func)(struct block_list*,va_list),int m,int x0,int y0,int x1,int y1,int dx,int dy,int type,...) { int bx,by; struct block_list *bl=NULL; va_list ap; int blockcount=bl_list_count,i,c; va_start(ap,type); if(dx==0 || dy==0){ // ‹éŒ`—̈æ‚Ìê‡ if(dx==0){ if(dy<0){ y0=y1+dy+1; } else { y1=y0+dy-1; } } else if(dy==0){ if(dx<0){ x0=x1+dx+1; } else { x1=x0+dx-1; } } if(x0<0) x0=0; if(y0<0) y0=0; if(x1>=map[m].xs) x1=map[m].xs-1; if(y1>=map[m].ys) y1=map[m].ys-1; for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){ for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){ bl = map[m].block[bx+by*map[m].bxs]; c = map[m].block_count[bx+by*map[m].bxs]; for(i=0;inext){ if(bl && type && bl->type!=type) continue; if(bl && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_countnext){ if(bl && type && bl->type!=type) continue; if(bl && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_count=map[m].xs) x1=map[m].xs-1; if(y1>=map[m].ys) y1=map[m].ys-1; for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){ for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){ bl = map[m].block[bx+by*map[m].bxs]; c = map[m].block_count[bx+by*map[m].bxs]; for(i=0;inext){ if(bl && type && bl->type!=type) continue; if((bl) && !(bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1)) continue; if((bl) && ((dx>0 && bl->xx>x1+dx) || (dy>0 && bl->yy>y1+dy)) && bl_list_countnext){ if(bl && type && bl->type!=type) continue; if((bl) && !(bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1)) continue; if((bl) && ((dx>0 && bl->xx>x1+dx) || (dy>0 && bl->yy>y1+dy)) && bl_list_count=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachinarea: *WARNING* block count too many!\n"); } map_freeblock_lock(); // ƒƒ‚ƒŠ‚©‚ç‚̉ð•ú‚ð‹ÖŽ~‚·‚é for(i=blockcount;iprev) { // —L?‚©‚Ç‚¤‚©ƒ`ƒFƒbƒN if (bl_list[i]->type == BL_PC && session[((struct map_session_data *) bl_list[i])->fd] == NULL) continue; func(bl_list[i],ap); } map_freeblock_unlock(); // ‰ð•ú‚ð‹–‰Â‚·‚é va_end(ap); bl_list_count = blockcount; } // -- moonsoul (added map_foreachincell which is a rework of map_foreachinarea but // which only checks the exact single x/y passed to it rather than an // area radius - may be more useful in some instances) // void map_foreachincell(int (*func)(struct block_list*,va_list),int m,int x,int y,int type,...) { int bx,by; struct block_list *bl=NULL; va_list ap; int blockcount=bl_list_count,i,c; va_start(ap,type); by=y/BLOCK_SIZE; bx=x/BLOCK_SIZE; if(type==0 || type!=BL_MOB) { bl = map[m].block[bx+by*map[m].bxs]; c = map[m].block_count[bx+by*map[m].bxs]; for(i=0;inext) { if(type && bl && bl->type!=type) continue; if(bl && bl->x==x && bl->y==y && bl_list_countnext) { if(bl && bl->x==x && bl->y==y && bl_list_count=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachincell: *WARNING* block count too many!\n"); } map_freeblock_lock(); // ƒƒ‚ƒŠ‚©‚ç‚̉ð•ú‚ð‹ÖŽ~‚·‚é for(i=blockcount;iprev) // —L?‚©‚Ç‚¤‚©ƒ`ƒFƒbƒN func(bl_list[i],ap); map_freeblock_unlock(); // ‰ð•ú‚ð‹–‰Â‚·‚é va_end(ap); bl_list_count = blockcount; } /*============================================================ * For checking a path between two points (x0, y0) and (x1, y1) *------------------------------------------------------------ */ void map_foreachinpath(int (*func)(struct block_list*,va_list),int m,int x0,int y0,int x1,int y1,int range,int type,...) { /* va_list ap; double deltax = 0.0; double deltay = 0.0; int t, bx, by; int *xs, *ys; int blockcount = bl_list_count, i, c; struct block_list *bl = NULL; if(m < 0) return; va_start(ap,type); if (x0 < 0) x0 = 0; if (y0 < 0) y0 = 0; if (x1 >= map[m].xs) x1 = map[m].xs-1; if (y1 >= map[m].ys) y1 = map[m].ys-1; // I'm not finished thinking on it // but first it might better use a parameter equation // x=(x1-x0)*t+x0; y=(y1-y0)*t+y0; t=[0,1] // would not need special case aproximating for infinity/zero slope // so maybe this way: // find maximum runindex int tmax = abs(y1-y0); if(tmax < abs(x1-x0)) tmax = abs(x1-x0); xs = (int *)aCallocA(tmax + 1, sizeof(int)); ys = (int *)aCallocA(tmax + 1, sizeof(int)); // pre-calculate delta values for x and y destination // should speed up cause you don't need to divide in the loop if(tmax>0) { deltax = ((double)(x1-x0)) / ((double)tmax); deltay = ((double)(y1-y0)) / ((double)tmax); } // go along the index for(t=0; t<=tmax; t++) { int x = (int)floor(deltax * (double)t +0.5)+x0; int y = (int)floor(deltay * (double)t +0.5)+y0; // the xy pairs of points in line between x0y0 and x1y1 // including start and end point xs[t] = x; ys[t] = y; } if (type == 0 || type != BL_MOB) this here is wrong, there is no check if x0next){ if(bl) { if (type && bl->type!=type) continue; for(t=0; t<=tmax; t++) if(bl->x==xs[t] && bl->y==ys[t] && bl_list_countnext){ if(bl) { for(t=0; t<=tmax; t++) if(bl->x==xs[t] && bl->y==ys[t] && bl_list_count=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachinarea: *WARNING* block count too many!\n"); } map_freeblock_lock(); // ƒƒ‚ƒŠ‚©‚ç‚̉ð•ú‚ð‹ÖŽ~‚·‚é for(i=blockcount;iprev) // —L?‚©‚Ç‚¤‚©ƒ`ƒFƒbƒN func(bl_list[i],ap); map_freeblock_unlock(); // ‰ð•ú‚ð‹–‰Â‚·‚é bl_list_count = blockcount; aFree (xs); aFree (ys); va_end(ap); */ /* ////////////////////////////////////////////////////////////// // // sharp shooting 1 // ////////////////////////////////////////////////////////////// // problem: // finding targets standing on and within some range of a line // (t1,t2 t3 and t4 get hit) // // target 1 // x t4 // t2 // t3 x // x // S ////////////////////////////////////////////////////////////// // solution 1 (straight forward, but a bit calculation expensive) // calculating perpendiculars from quesionable mobs to the straight line // if the mob is hit then depends on the distance to the line // // solution 2 (complex, need to handle many cases, but maybe faster) // make a formula to deside if a given (x,y) is within a shooting area // the shape can be ie. rectangular or triangular // if the mob is hit then depends on if the mob is inside or outside the area // I'm not going to implement this, but if somebody is interested // in vector algebra, it might be some fun ////////////////////////////////////////////////////////////// // possible shooting ranges (I prefer the second one) ////////////////////////////////////////////////////////////// // // ---------------- ------ // ---------------- ------------ // Sxxxxxxxxxxxxxxxxtarget Sxxxxxxxxxxxxxxxxtarget // ---------------- ------------ // ---------------- ----- // // the original code implemented the left structure // might be not that realistic, so I changed to the other one // I take "range" as max distance from the line ////////////////////////////////////////////////////////////// va_list ap; int i, blockcount = bl_list_count; struct block_list *bl; int c1,c2; /////////// double deltax,deltay; double k,kfact,knorm; double v1,v2,distance; double xm,ym,rd; int bx,by,bx0,bx1,by0,by1; ////////////// // no map if(m < 0) return; // xy out of range if (x0 < 0) x0 = 0; if (y0 < 0) y0 = 0; if (x1 >= map[m].xs) x1 = map[m].xs-1; if (y1 >= map[m].ys) y1 = map[m].ys-1; /////////////////////////////// // stuff for a linear equation in xy coord to calculate // the perpendicular from a block xy to the straight line deltax = (x1-x0); deltay = (y1-y0); kfact = (deltax*deltax+deltay*deltay); // the sqare length of the line knorm = -deltax*x0-deltay*y0; // the offset vector param //printf("(%i,%i)(%i,%i) range: %i\n",x0,y0,x1,y1,range); if(kfact==0) return; // shooting at the standing position should not happen kfact = 1/kfact; // divide here and multiply in the loop range *= range; // compare with range^2 so we can skip a sqrt and signs /////////////////////////////// // prepare shooting area check xm = (x1+x0)/2.0; ym = (y1+y0)/2.0;// middle point on the shooting line // the sqared radius of a circle around the shooting range // plus the sqared radius of a block rd = (x0-xm)*(x0-xm) + (y0-ym)*(y0-ym) + (range*range) +BLOCK_SIZE*BLOCK_SIZE/2; // so whenever a block midpoint is within this circle // some of the block area is possibly within the shooting range /////////////////////////////// // what blocks we need to test // blocks covered by the xy position of begin and end of the line bx0 = x0/BLOCK_SIZE; bx1 = x1/BLOCK_SIZE; by0 = y0/BLOCK_SIZE; by1 = y1/BLOCK_SIZE; // swap'em for a smallest-to-biggest run if(bx0>bx1) swap(bx0,bx1); if(by0>by1) swap(by0,by1); // enlarge the block area by a range value and 1 // so we can be sure to process all blocks that might touch the shooting area // in this case here with BLOCK_SIZE=8 and range=2 it will be only enlarged by 1 // but I implement it anyway just in case that ranges will be larger // or BLOCK_SIZE smaller in future i = (range/BLOCK_SIZE+1);//temp value if(bx0>i) bx0 -=i; else bx0=0; if(by0>i) by0 -=i; else by0=0; if(bx1+i rd) continue; // it seems that the block is at least partially covered by the shooting range // so we go into it if(type==0 || type!=BL_MOB) { bl = map[m].block[bx+by*map[m].bxs]; // a block with the elements for(i=0;inext){ // go through all elements if( bl && ( !type || bl->type==type ) && bl_list_countx + deltay*bl->y + knorm); // check if the perpendicular is within start and end of our line if(k>=0 && k<=1) { // calculate the distance v1 = deltax*k+x0 - bl->x; v2 = deltay*k+y0 - bl->y; distance = v1*v1+v2*v2; // triangular shooting range if( distance <= range*k ) bl_list[bl_list_count++]=bl; } } }//end for elements } if(type==0 || type==BL_MOB) { bl = map[m].block_mob[bx+by*map[m].bxs]; // and the mob block for(i=0;inext){ if(bl && bl_list_countx + deltay*bl->y + knorm); //printf("mob: (%i,%i) k=%f ",bl->x,bl->y, k); // check if the perpendicular is within start and end of our line if(k>=0 && k<=1) { v1 = deltax*k+x0 - bl->x; v2 = deltay*k+y0 - bl->y; distance = v1*v1+v2*v2; //printf("dist: %f",distance); // triangular shooting range if( distance <= range*k ) { //printf(" hit"); bl_list[bl_list_count++]=bl; } } //printf("\n"); } }//end for mobs } }//end for(bx,by) if(bl_list_count>=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachinarea: *WARNING* block count too many!\n"); } va_start(ap,type); map_freeblock_lock(); // ƒƒ‚ƒŠ‚©‚ç‚̉ð•ú‚ð‹ÖŽ~‚·‚é for(i=blockcount;iprev) // —L?‚©‚Ç‚¤‚©ƒ`ƒFƒbƒN func(bl_list[i],ap); map_freeblock_unlock(); // ‰ð•ú‚ð‹–‰Â‚·‚é va_end(ap); bl_list_count = blockcount; */ ////////////////////////////////////////////////////////////// // // sharp shooting 2 // ////////////////////////////////////////////////////////////// // problem: // finding targets standing exactly on a line // (only t1 and t2 get hit) // // target 1 // x t4 // t2 // t3 x // x // S ////////////////////////////////////////////////////////////// va_list ap; int i, blockcount = bl_list_count; struct block_list *bl; int c1,c2; ////////////////////////////////////////////////////////////// // linear parametric equation // x=(x1-x0)*t+x0; y=(y1-y0)*t+y0; t=[0,1] ////////////////////////////////////////////////////////////// // linear equation for finding a single line between (x0,y0)->(x1,y1) // independent of the given xy-values double dx = 0.0; double dy = 0.0; int bx=-1; // initialize block coords to some impossible value int by=-1; int t; /////////////////////////////// // find maximum runindex int tmax = abs(y1-y0); if(tmax < abs(x1-x0)) tmax = abs(x1-x0); // pre-calculate delta values for x and y destination // should speed up cause you don't need to divide in the loop if(tmax>0) { dx = ((double)(x1-x0)) / ((double)tmax); dy = ((double)(y1-y0)) / ((double)tmax); } // go along the index for(t=0; t<=tmax; t++) { // xy-values of the line including start and end point int x = (int)floor(dx * (double)t +0.5)+x0; int y = (int)floor(dy * (double)t +0.5)+y0; // check the block index of the calculated xy if( (bx!=x/BLOCK_SIZE) || (by!=y/BLOCK_SIZE) ) { // we have reached a new block // so we store the current block coordinates bx = x/BLOCK_SIZE; by = y/BLOCK_SIZE; // and process the data c1 = map[m].block_count[bx+by*map[m].bxs]; // number of elements in the block c2 = map[m].block_mob_count[bx+by*map[m].bxs]; // number of mobs in the mob block if( (c1==0) && (c2==0) ) continue; // skip if nothing in the block if(type==0 || type!=BL_MOB) { bl = map[m].block[bx+by*map[m].bxs]; // a block with the elements for(i=0;inext){ // go through all elements if( bl && ( !type || bl->type==type ) && bl_list_countx-x0)*(y1-y0) == (bl->y-y0)*(x1-x0) ) // and if it is within start and end point if( (((x0<=x1)&&(x0<=bl->x)&&(bl->x<=x1)) || ((x0>=x1)&&(x0>=bl->x)&&(bl->x>=x1))) && (((y0<=y1)&&(y0<=bl->y)&&(bl->y<=y1)) || ((y0>=y1)&&(y0>=bl->y)&&(bl->y>=y1))) ) bl_list[bl_list_count++]=bl; } }//end for elements } if(type==0 || type==BL_MOB) { bl = map[m].block_mob[bx+by*map[m].bxs]; // and the mob block for(i=0;inext){ if(bl && bl_list_countx-x0)*(y1-y0) == (bl->y-y0)*(x1-x0) ) // and if it is within start and end point if( (((x0<=x1)&&(x0<=bl->x)&&(bl->x<=x1)) || ((x0>=x1)&&(x0>=bl->x)&&(bl->x>=x1))) && (((y0<=y1)&&(y0<=bl->y)&&(bl->y<=y1)) || ((y0>=y1)&&(y0>=bl->y)&&(bl->y>=y1))) ) bl_list[bl_list_count++]=bl; } }//end for mobs } } }//end for index if(bl_list_count>=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachinarea: *WARNING* block count too many!\n"); } va_start(ap,type); map_freeblock_lock(); // ƒƒ‚ƒŠ‚©‚ç‚̉ð•ú‚ð‹ÖŽ~‚·‚é for(i=blockcount;iprev) // —L?‚©‚Ç‚¤‚©ƒ`ƒFƒbƒN func(bl_list[i],ap); map_freeblock_unlock(); // ‰ð•ú‚ð‹–‰Â‚·‚é va_end(ap); bl_list_count = blockcount; } /*========================================== * °ƒAƒCƒeƒ€‚âƒGƒtƒFƒNƒg—p‚̈ꎞobjŠ„‚è?‚Ä * object[]‚Ö‚Ì•Û‘¶‚Æid_db“o?‚Ü‚Å * * bl->id‚à‚±‚Ì’†‚Åݒ肵‚Ä–â‘è–³‚¢? *------------------------------------------ */ int map_addobject(struct block_list *bl) { int i; if( bl == NULL ){ printf("map_addobject nullpo?\n"); return 0; } if(first_free_object_id<2 || first_free_object_id>=MAX_FLOORITEM) first_free_object_id=2; for(i=first_free_object_id;i=MAX_FLOORITEM){ if(battle_config.error_log) printf("no free object id\n"); return 0; } first_free_object_id=i; if(last_object_idid) first_free_object_id=id; while(last_object_id>2 && objects[last_object_id]==NULL) last_object_id--; return 0; } /*========================================== * ˆêŽžobject‚̉ð•ú * block_list‚©‚ç‚ÌíœAid_db‚©‚ç‚Ìíœ * object data‚ÌfreeAobject[]‚Ö‚ÌNULL‘ã“ü * * add‚Æ‚Ì??«‚ª–³‚¢‚Ì‚ª?‚É‚È‚é *------------------------------------------ */ int map_delobject(int id) { struct block_list *obj = objects[id]; if(obj==NULL) return 0; map_delobjectnofree(id); map_freeblock(obj); return 0; } /*========================================== * ‘SˆêŽžobj‘ŠŽè‚Éfunc‚ðŒÄ‚Ô * *------------------------------------------ */ void map_foreachobject(int (*func)(struct block_list*,va_list),int type,...) { int i; int blockcount=bl_list_count; va_list ap; va_start(ap,type); for(i=2;i<=last_object_id;i++){ if(objects[i]){ if(type && objects[i]->type!=type) continue; if(bl_list_count>=BL_LIST_MAX) { if(battle_config.error_log) printf("map_foreachobject: too many block !\n"); } else bl_list[bl_list_count++]=objects[i]; } } map_freeblock_lock(); for(i=blockcount;iprev || bl_list[i]->next ) func(bl_list[i],ap); map_freeblock_unlock(); va_end(ap); bl_list_count = blockcount; } /*========================================== * °ƒAƒCƒeƒ€‚ðÁ‚· * * data==0‚ÌŽž‚Ítimer‚ÅÁ‚¦‚½Žž * data!=0‚ÌŽž‚ÍE‚¤“™‚ÅÁ‚¦‚½Žž‚Æ‚µ‚Ä“®ì * * ŒãŽÒ‚ÍAmap_clearflooritem(id)‚Ö * map.h?‚Å#define‚µ‚Ä‚ ‚é *------------------------------------------ */ int map_clearflooritem_timer(int tid,unsigned int tick,int id,int data) { struct flooritem_data *fitem=NULL; fitem = (struct flooritem_data *)objects[id]; if(fitem==NULL || fitem->bl.type!=BL_ITEM || (!data && fitem->cleartimer != tid)){ if(battle_config.error_log) printf("map_clearflooritem_timer : error\n"); return 1; } if(data) delete_timer(fitem->cleartimer,map_clearflooritem_timer); else if(fitem->item_data.card[0] == (short)0xff00) intif_delete_petdata(*((long *)(&fitem->item_data.card[1]))); clif_clearflooritem(fitem,0); map_delobject(fitem->bl.id); return 0; } /*========================================== * (m,x,y)‚ÌŽü?rangeƒ}ƒX?‚Ì‹ó‚«(=N“ü‰Â”\)cell‚Ì * ?‚©‚ç“K?‚ȃ}ƒX–Ú‚ÌÀ•W‚ðx+(y<<16)‚Å•Ô‚· * * Œ»?range=1‚ŃAƒCƒeƒ€ƒhƒƒbƒv—p“r‚Ì‚Ý *------------------------------------------ */ int map_searchrandfreecell(int m,int x,int y,int range) { int free_cell,i,j; for(free_cell=0,i=-range;i<=range;i++){ if(i+y<0 || i+y>=map[m].ys) continue; for(j=-range;j<=range;j++){ if(j+x<0 || j+x>=map[m].xs) continue; if(map_getcell(m,j+x,i+y,CELL_CHKNOPASS)) continue; free_cell++; } } if(free_cell==0) return -1; free_cell=rand()%free_cell; for(i=-range;i<=range;i++){ if(i+y<0 || i+y>=map[m].ys) continue; for(j=-range;j<=range;j++){ if(j+x<0 || j+x>=map[m].xs) continue; if(map_getcell(m,j+x,i+y,CELL_CHKNOPASS)) continue; if(free_cell==0){ x+=j; y+=i; i=range+1; break; } free_cell--; } } return x+(y<<16); } /*========================================== * (m,x,y)‚ð’†S‚É3x3ˆÈ?‚É°ƒAƒCƒeƒ€Ý’u * * item_data‚ÍamountˆÈŠO‚ðcopy‚·‚é *------------------------------------------ */ int map_addflooritem(struct item *item_data,int amount,int m,int x,int y,struct map_session_data *first_sd, struct map_session_data *second_sd,struct map_session_data *third_sd,int type) { int xy,r; unsigned int tick; struct flooritem_data *fitem=NULL; nullpo_retr(0, item_data); if((xy=map_searchrandfreecell(m,x,y,1))<0) return 0; r=rand(); fitem = (struct flooritem_data *)aCalloc(1,sizeof(*fitem)); fitem->bl.type=BL_ITEM; fitem->bl.prev = fitem->bl.next = NULL; fitem->bl.m=m; fitem->bl.x=xy&0xffff; fitem->bl.y=(xy>>16)&0xffff; fitem->first_get_id = 0; fitem->first_get_tick = 0; fitem->second_get_id = 0; fitem->second_get_tick = 0; fitem->third_get_id = 0; fitem->third_get_tick = 0; fitem->bl.id = map_addobject(&fitem->bl); if(fitem->bl.id==0){ aFree(fitem); return 0; } tick = gettick(); if(first_sd) { fitem->first_get_id = first_sd->bl.id; if(type) fitem->first_get_tick = tick + battle_config.mvp_item_first_get_time; else fitem->first_get_tick = tick + battle_config.item_first_get_time; } if(second_sd) { fitem->second_get_id = second_sd->bl.id; if(type) fitem->second_get_tick = tick + battle_config.mvp_item_first_get_time + battle_config.mvp_item_second_get_time; else fitem->second_get_tick = tick + battle_config.item_first_get_time + battle_config.item_second_get_time; } if(third_sd) { fitem->third_get_id = third_sd->bl.id; if(type) fitem->third_get_tick = tick + battle_config.mvp_item_first_get_time + battle_config.mvp_item_second_get_time + battle_config.mvp_item_third_get_time; else fitem->third_get_tick = tick + battle_config.item_first_get_time + battle_config.item_second_get_time + battle_config.item_third_get_time; } memcpy(&fitem->item_data,item_data,sizeof(*item_data)); fitem->item_data.amount=amount; fitem->subx=(r&3)*3+3; fitem->suby=((r>>2)&3)*3+3; fitem->cleartimer=add_timer(gettick()+battle_config.flooritem_lifetime,map_clearflooritem_timer,fitem->bl.id,0); map_addblock(&fitem->bl); clif_dropflooritem(fitem); return fitem->bl.id; } /*========================================== * charid_db‚֒ljÁ(•ÔM‘Ò‚¿‚ª‚ ‚ê‚ΕÔM) *------------------------------------------ */ void map_addchariddb(int charid, char *name) { struct charid2nick *p=NULL; int req=0; p = (struct charid2nick*)numdb_search(charid_db,charid); if(p==NULL){ // ƒf?ƒ^ƒx?ƒX‚É‚È‚¢ p = (struct charid2nick *)aCallocA(1,sizeof(struct charid2nick)); p->req_id=0; }else numdb_erase(charid_db,charid); req=p->req_id; memcpy(p->nick,name,24); p->req_id=0; numdb_insert(charid_db,charid,p); if(req){ // •ÔM‘Ò‚¿‚ª‚ ‚ê‚ΕÔM struct map_session_data *sd = map_id2sd(req); if(sd!=NULL) clif_solved_charname(sd,charid); } } /*========================================== * charid_db‚֒ljÁi•ÔM—v‹‚Ì‚Ýj *------------------------------------------ */ int map_reqchariddb(struct map_session_data * sd,int charid) { struct charid2nick *p=NULL; nullpo_retr(0, sd); p = (struct charid2nick*)numdb_search(charid_db,charid); if(p!=NULL) // ƒf?ƒ^ƒx?ƒX‚É‚·‚Å‚É‚ ‚é return 0; p = (struct charid2nick *)aCalloc(1,sizeof(struct charid2nick)); p->req_id=sd->bl.id; numdb_insert(charid_db,charid,p); return 0; } /*========================================== * id_db‚Öbl‚ð’ljÁ *------------------------------------------ */ void map_addiddb(struct block_list *bl) { nullpo_retv(bl); numdb_insert(id_db,bl->id,bl); } /*========================================== * id_db‚©‚çbl‚ðíœ *------------------------------------------ */ void map_deliddb(struct block_list *bl) { nullpo_retv(bl); numdb_erase(id_db,bl->id); } /*========================================== * nick_db‚Ösd‚ð’ljÁ *------------------------------------------ */ void map_addnickdb(struct map_session_data *sd) { nullpo_retv(sd); strdb_insert(nick_db,sd->status.name,sd); } /*========================================== * PC‚Ìquit?— map.c?•ª * * quit?—‚ÌŽå?‚ªˆá‚¤‚悤‚È?‚à‚µ‚Ä‚«‚½ *------------------------------------------ */ int map_quit(struct map_session_data *sd) { nullpo_retr(0, sd); if(!sd->state.waitingdisconnect) { if (sd->state.event_disconnect) { if (script_config.event_script_type == 0) { struct npc_data *npc; if ((npc = npc_name2id(script_config.logout_event_name))) { run_script(npc->u.scr.script,0,sd->bl.id,npc->bl.id); // PCLogoutNPC sprintf (tmp_output, "Event '"CL_WHITE"%s"CL_RESET"' executed.\n", script_config.logout_event_name); ShowStatus(tmp_output); } } else { sprintf (tmp_output, "%d '"CL_WHITE"%s"CL_RESET"' events executed.\n", npc_event_doall_id(script_config.logout_event_name, sd->bl.id), script_config.logout_event_name); ShowStatus(tmp_output); } } if(sd->chatID) // ƒ`ƒƒƒbƒg‚©‚ço‚é chat_leavechat(sd); if(sd->trade_partner) // Žæˆø‚ð’†?‚·‚é trade_tradecancel(sd); if(sd->party_invite>0) // ƒp?ƒeƒB?—U‚ð‹‘”Û‚·‚é party_reply_invite(sd,sd->party_invite_account,0); if(sd->guild_invite>0) // ƒMƒ‹ƒh?—U‚ð‹‘”Û‚·‚é guild_reply_invite(sd,sd->guild_invite,0); if(sd->guild_alliance>0) // ƒMƒ‹ƒh“¯–¿?—U‚ð‹‘”Û‚·‚é guild_reply_reqalliance(sd,sd->guild_alliance_account,0); party_send_logout(sd); // ƒp?ƒeƒB‚̃ƒOƒAƒEƒgƒƒbƒZ?ƒW‘—M guild_send_memberinfoshort(sd,0); // ƒMƒ‹ƒh‚̃ƒOƒAƒEƒgƒƒbƒZ?ƒW‘—M pc_cleareventtimer(sd); // ƒCƒxƒ“ƒgƒ^ƒCƒ}‚ð”jŠü‚·‚é if(sd->state.storage_flag) storage_guild_storage_quit(sd,0); else storage_storage_quit(sd); // ‘qŒÉ‚ðŠJ‚¢‚Ä‚é‚È‚ç•Û‘¶‚·‚é // check if we've been authenticated [celest] if (sd->state.auth) skill_castcancel(&sd->bl,0); // ‰r¥‚ð’†?‚·‚é skill_stop_dancing(&sd->bl,1);// ƒ_ƒ“ƒX/‰‰‘t’†? if(sd->sc_data && sd->sc_data[SC_BERSERK].timer!=-1) //ƒo?ƒT?ƒN’†‚ÌI—¹‚ÍHP‚ð100‚É sd->status.hp = 100; status_change_clear(&sd->bl,1); // ƒXƒe?ƒ^ƒXˆÙí‚ð‰ðœ‚·‚é skill_clear_unitgroup(&sd->bl); // ƒXƒLƒ‹ƒ†ƒjƒbƒgƒOƒ‹?ƒv‚Ìíœ skill_cleartimerskill(&sd->bl); // check if we've been authenticated [celest] if (sd->state.auth) { pc_stop_walking(sd,0); pc_stopattack(sd); pc_delinvincibletimer(sd); } pc_delspiritball(sd,sd->spiritball,1); skill_gangsterparadise(sd,0); skill_unit_move(&sd->bl,gettick(),0); if (sd->state.auth) status_calc_pc(sd,4); // skill_clear_unitgroup(&sd->bl); // [Sara-chan] clif_clearchar_area(&sd->bl,2); if(sd->status.pet_id && sd->pd) { pet_lootitem_drop(sd->pd,sd); pet_remove_map(sd); if(sd->pet.intimate <= 0) { intif_delete_petdata(sd->status.pet_id); sd->status.pet_id = 0; sd->pd = NULL; sd->petDB = NULL; } else intif_save_petdata(sd->status.account_id,&sd->pet); } if(pc_isdead(sd)) pc_setrestartvalue(sd,2); pc_makesavestatus(sd); chrif_save(sd); storage_storage_dirty(sd); storage_storage_save(sd); map_delblock(&sd->bl); } if( sd->npc_stackbuf && sd->npc_stackbuf != NULL) { aFree( sd->npc_stackbuf ); sd->npc_stackbuf = NULL; } #ifndef TXT_ONLY chrif_char_offline(sd); #endif { void *p = numdb_search(charid_db,sd->status.char_id); if(p) { numdb_erase(charid_db,sd->status.char_id); aFree(p); } } strdb_erase(nick_db,sd->status.name); numdb_erase(charid_db,sd->status.char_id); numdb_erase(id_db,sd->bl.id); aFree(sd->reg); aFree(sd->regstr); return 0; } /*========================================== * id”Ô?‚ÌPC‚ð’T‚·B‹‚È‚¯‚ê‚ÎNULL *------------------------------------------ */ struct map_session_data * map_id2sd(int id) { // remove search from db, because: // 1 - all players, npc, items and mob are in this db (to search, it's not speed, and search in session is more sure) // 2 - DB seems not always correct. Sometimes, when a player disconnects, its id (account value) is not removed and structure // point to a memory area that is not more a session_data and value are incorrect (or out of available memory) -> crash // replaced by searching in all session. // by searching in session, we are sure that fd, session, and account exist. /* struct block_list *bl; bl=numdb_search(id_db,id); if(bl && bl->type==BL_PC) return (struct map_session_data*)bl; return NULL; */ int i; struct map_session_data *sd; if (id <= 0) return 0; for(i = 0; i < fd_max; i++) if (session[i] && (sd = (struct map_session_data*)session[i]->session_data) && sd->bl.id == id) return sd; return NULL; } /*========================================== * char_id”Ô?‚Ì–¼‘O‚ð’T‚· *------------------------------------------ */ char * map_charid2nick(int id) { struct charid2nick *p = (struct charid2nick*)numdb_search(charid_db,id); if(p==NULL) return NULL; if(p->req_id!=0) return NULL; return p->nick; } struct map_session_data * map_charid2sd(int id) { int i; struct map_session_data *sd; if (id <= 0) return 0; for(i = 0; i < fd_max; i++) if (session[i] && (sd = (struct map_session_data*)session[i]->session_data) && sd->status.char_id == id) return sd; return NULL; } /*========================================== * Search session data from a nick name * (without sensitive case if necessary) * return map_session_data pointer or NULL *------------------------------------------ */ struct map_session_data * map_nick2sd(char *nick) { int i, quantity=0, nicklen; struct map_session_data *sd = NULL; struct map_session_data *pl_sd = NULL; if (nick == NULL) return NULL; nicklen = strlen(nick); for (i = 0; i < fd_max; i++) { if (session[i] && (pl_sd = (struct map_session_data*)session[i]->session_data) && pl_sd->state.auth) // Without case sensitive check (increase the number of similar character names found) if (strnicmp(pl_sd->status.name, nick, nicklen) == 0) { // Strict comparison (if found, we finish the function immediatly with correct value) if (strcmp(pl_sd->status.name, nick) == 0) return pl_sd; quantity++; sd = pl_sd; } } // Here, the exact character name is not found // We return the found index of a similar account ONLY if there is 1 similar character if (quantity == 1) return sd; // Exact character name is not found and 0 or more than 1 similar characters have been found ==> we say not found return NULL; } /*========================================== * id”Ô?‚Ì•¨‚ð’T‚· * ˆêŽžobject‚Ìꇂ͔z—ñ‚ðˆø‚­‚Ì‚Ý *------------------------------------------ */ struct block_list * map_id2bl(int id) { struct block_list *bl=NULL; if(id >= 0 && id < sizeof(objects)/sizeof(objects[0])) bl = objects[id]; else bl = (struct block_list*)numdb_search(id_db,id); return bl; } /*========================================== * id_db?‚Ì‘S‚Ä‚Éfunc‚ð?s *------------------------------------------ */ int map_foreachiddb(int (*func)(void*,void*,va_list),...) { va_list ap; va_start(ap,func); numdb_foreach(id_db,func,ap); va_end(ap); return 0; } /*========================================== * map.npc‚֒ljÁ (warp“™‚̗̈掂¿‚Ì‚Ý) *------------------------------------------ */ int map_addnpc(int m,struct npc_data *nd) { int i; if(m<0 || m>=map_num) return -1; for(i=0;in = i; numdb_insert(id_db,nd->bl.id,nd); return i; } void map_removenpc(void) { int i,m,n=0; for(m=0;mbl,2); map_delblock(&map[m].npc[i]->bl); numdb_erase(id_db,map[m].npc[i]->bl.id); if(map[m].npc[i]->bl.subtype==SCRIPT) { aFree(map[m].npc[i]->u.scr.script); aFree(map[m].npc[i]->u.scr.label_list); } aFree(map[m].npc[i]); map[m].npc[i] = NULL; n++; } } } sprintf(tmp_output,"Successfully removed and freed from memory '"CL_WHITE"%d"CL_RESET"' NPCs.\n",n); ShowStatus(tmp_output); } /*========================================== * map–¼‚©‚çmap”Ô?‚Ö?Š· *------------------------------------------ */ int map_mapname2mapid(char *name) { struct map_data *md=NULL; md = (struct map_data*)strdb_search(map_db,name); #ifdef USE_AFM // If we can't find the .gat map try .afm instead [celest] if(md==NULL && strstr(name,".gat")) { char *afm_name = strdup(name); strcpy(&afm_name[strlen(name) - 3], "afm"); md = (struct map_data*)strdb_search(map_db,afm_name); } #endif if(md==NULL || md->gat==NULL) return -1; return md->m; } /*========================================== * ‘¼ŽImap–¼‚©‚çip,port?Š· *------------------------------------------ */ int map_mapname2ipport(char *name,int *ip,int *port) { struct map_data_other_server *mdos=NULL; mdos = (struct map_data_other_server*)strdb_search(map_db,name); if(mdos==NULL || mdos->gat) return -1; *ip=mdos->ip; *port=mdos->port; return 0; } /*========================================== * *------------------------------------------ */ int map_check_dir(int s_dir,int t_dir) { if(s_dir == t_dir) return 0; switch(s_dir) { case 0: if(t_dir == 7 || t_dir == 1 || t_dir == 0) return 0; break; case 1: if(t_dir == 0 || t_dir == 2 || t_dir == 1) return 0; break; case 2: if(t_dir == 1 || t_dir == 3 || t_dir == 2) return 0; break; case 3: if(t_dir == 2 || t_dir == 4 || t_dir == 3) return 0; break; case 4: if(t_dir == 3 || t_dir == 5 || t_dir == 4) return 0; break; case 5: if(t_dir == 4 || t_dir == 6 || t_dir == 5) return 0; break; case 6: if(t_dir == 5 || t_dir == 7 || t_dir == 6) return 0; break; case 7: if(t_dir == 6 || t_dir == 0 || t_dir == 7) return 0; break; } return 1; } /*========================================== * ”Þ‰ä‚Ì•ûŒü‚ðŒvŽZ *------------------------------------------ */ int map_calc_dir( struct block_list *src,int x,int y) { int dir=0; int dx,dy; nullpo_retr(0, src); dx=x-src->x; dy=y-src->y; if( dx==0 && dy==0 ){ // ”Þ‰ä‚Ìꊈê’v dir=0; // ã }else if( dx>=0 && dy>=0 ){ // •ûŒü“I‚ɉEã dir=7; // ‰Eã if( dx*3-1dy*3 ) dir=6; // ‰E }else if( dx>=0 && dy<=0 ){ // •ûŒü“I‚ɉE‰º dir=5; // ‰E‰º if( dx*3-1<-dy ) dir=4; // ‰º if( dx>-dy*3 ) dir=6; // ‰E }else if( dx<=0 && dy<=0 ){ // •ûŒü“I‚ɶ‰º dir=3; // ¶‰º if( dx*3+1>dy ) dir=4; // ‰º if( dxdy*3 ) dir=2; // ¶ } return dir; } // gatŒn /*========================================== * (m,x,y)‚Ìó‘Ԃ𒲂ׂé *------------------------------------------ */ int map_getcell(int m,int x,int y,cell_t cellchk) { return (m < 0 || m > MAX_MAP_PER_SERVER) ? 0 : map_getcellp(&map[m],x,y,cellchk); } int map_getcellp(struct map_data* m,int x,int y,cell_t cellchk) { int type; nullpo_ret(m); if(x<0 || x>=m->xs-1 || y<0 || y>=m->ys-1) { if(cellchk==CELL_CHKNOPASS) return 1; return 0; } type = m->gat[x+y*m->xs]; if (cellchk<0x10) type &= CELL_MASK; switch(cellchk) { case CELL_CHKPASS: return (type!=1 && type!=5); case CELL_CHKNOPASS: return (type==1 || type==5); case CELL_CHKWALL: return (type==1); case CELL_CHKWATER: return (type==3); case CELL_CHKGROUND: return (type==5); case CELL_GETTYPE: return type; case CELL_CHKNPC: return (type&CELL_NPC); case CELL_CHKBASILICA: return (type&CELL_BASILICA); default: return 0; } } /*========================================== * (m,x,y)‚Ìó‘Ô‚ðÝ’è‚·‚é *------------------------------------------ */ void map_setcell(int m,int x,int y,int cell) { int j; if(x<0 || x>=map[m].xs || y<0 || y>=map[m].ys) return; j=x+y*map[m].xs; switch (cell) { case CELL_SETNPC: map[m].gat[j] |= CELL_NPC; break; case CELL_SETBASILICA: map[m].gat[j] |= CELL_BASILICA; break; case CELL_CLRBASILICA: map[m].gat[j] &= ~CELL_BASILICA; break; default: map[m].gat[j] = (map[m].gat[j]&~CELL_MASK) + cell; break; } } /*========================================== * ‘¼ŽIŠÇ—‚̃}ƒbƒv‚ðdb‚ɒljÁ *------------------------------------------ */ int map_setipport(char *name,unsigned long ip,int port) { struct map_data *md=NULL; struct map_data_other_server *mdos=NULL; md = (struct map_data*)strdb_search(map_db,name); if(md==NULL){ // not exist -> add new data mdos=(struct map_data_other_server *)aCalloc(1,sizeof(struct map_data_other_server)); memcpy(mdos->name,name,24); mdos->gat = NULL; mdos->ip = ip; mdos->port = port; mdos->map = NULL; strdb_insert(map_db,mdos->name,mdos); } else if(md->gat){ if(ip!=clif_getip() || port!=clif_getport()){ // “Ç‚Ýž‚ñ‚Å‚¢‚½‚¯‚ÇA’S“–ŠO‚É‚È‚Á‚½ƒ}ƒbƒv mdos=(struct map_data_other_server *)aCalloc(1,sizeof(struct map_data_other_server)); memcpy(mdos->name,name,24); mdos->gat = NULL; mdos->ip = ip; mdos->port = port; mdos->map = md; strdb_insert(map_db,mdos->name,mdos); // printf("from char server : %s -> %08lx:%d\n",name,ip,port); } else { // “Ç‚Ýž‚ñ‚Å‚¢‚ÄA’S“–‚É‚È‚Á‚½ƒ}ƒbƒvi‰½‚à‚µ‚È‚¢j ; } } else { mdos=(struct map_data_other_server *)md; if(ip == clif_getip() && port == clif_getport()) { // Ž©•ª‚Ì’S“–‚É‚È‚Á‚½ƒ}ƒbƒv if(mdos->map == NULL) { // “Ç‚Ýž‚ñ‚Å‚¢‚È‚¢‚Ì‚ÅI—¹‚·‚é printf("map_setipport : %s is not loaded.\n",name); exit(1); } else { // “Ç‚Ýž‚ñ‚Å‚¢‚é‚Ì‚Å’u‚«Š·‚¦‚é md = mdos->map; aFree(mdos); strdb_insert(map_db,md->name,md); } } else { // ‘¼‚ÌŽI‚Ì’S“–ƒ}ƒbƒv‚È‚Ì‚Å’u‚«Š·‚¦‚邾‚¯ mdos->ip = ip; mdos->port = port; } } return 0; } /*========================================== * ‘¼ŽIŠÇ—‚̃}ƒbƒv‚ð‘S‚Äíœ *------------------------------------------ */ int map_eraseallipport_sub(void *key,void *data,va_list va) { struct map_data_other_server *mdos = (struct map_data_other_server*)data; if(mdos->gat == NULL && mdos->map == NULL) { strdb_erase(map_db,key); aFree(mdos); } return 0; } int map_eraseallipport(void) { strdb_foreach(map_db,map_eraseallipport_sub); return 1; } /*========================================== * ‘¼ŽIŠÇ—‚̃}ƒbƒv‚ðdb‚©‚çíœ *------------------------------------------ */ int map_eraseipport(char *name,unsigned long ip,int port) { struct map_data *md; struct map_data_other_server *mdos; // unsigned char *p=(unsigned char *)&ip; md=strdb_search(map_db,name); if(md){ if(md->gat) // local -> check data return 0; else { mdos=(struct map_data_other_server *)md; if(mdos->ip==ip && mdos->port == port) { if(mdos->map) { // ‚±‚̃}ƒbƒvŽI‚Å‚à“Ç‚Ýž‚ñ‚Å‚¢‚é‚̂ňړ®‚Å‚«‚é return 1; // ŒÄ‚Ño‚µŒ³‚Å chrif_sendmap() ‚ð‚·‚é } else { strdb_erase(map_db,name); aFree(mdos); } // if(battle_config.etc_log) // printf("erase map %s %d.%d.%d.%d:%d\n",name,p[0],p[1],p[2],p[3],port); } } } return 0; } // ‰Šú‰»Žü‚è /*========================================== * …ê‚‚³Ý’è *------------------------------------------ */ static struct waterlist_ { char mapname[24]; int waterheight; } *waterlist=NULL; #define NO_WATER 1000000 static int map_waterheight(char *mapname) { if(waterlist){ int i; for(i=0;waterlist[i].mapname[0] && i < MAX_MAP_PER_SERVER;i++) if(strcmp(waterlist[i].mapname,mapname)==0) return waterlist[i].waterheight; } return NO_WATER; } static void map_readwater(char *watertxt) { char line[1024],w1[1024]; FILE *fp=NULL; int n=0; fp=fopen(watertxt,"r"); if(fp==NULL){ printf("file not found: %s\n",watertxt); return; } if(waterlist==NULL) waterlist = (struct waterlist_*)aCallocA(MAX_MAP_PER_SERVER,sizeof(*waterlist)); while(fgets(line,1020,fp) && n < MAX_MAP_PER_SERVER){ int wh,count; if(line[0] == '/' && line[1] == '/') continue; if((count=sscanf(line,"%s%d",w1,&wh)) < 1){ continue; } strcpy(waterlist[n].mapname,w1); if(count >= 2) waterlist[n].waterheight = wh; else waterlist[n].waterheight = 3; n++; } fclose(fp); } /*========================================== * ƒ}ƒbƒvƒLƒƒƒbƒVƒ…‚ɒljÁ‚·‚é *===========================================*/ // ƒ}ƒbƒvƒLƒƒƒbƒVƒ…‚ÌÅ‘å’l #define MAX_MAP_CACHE 768 //Šeƒ}ƒbƒv‚²‚Æ‚ÌŬŒÀî•ñ‚ð“ü‚ê‚é‚à‚ÌAREAD_FROM_BITMAP—p struct map_cache_info { char fn[32];//ƒtƒ@ƒCƒ‹–¼ int xs,ys; //•‚Æ‚‚³ int water_height; int pos; // ƒf[ƒ^‚ª“ü‚ê‚Ä‚ ‚éêŠ int compressed; // zilb’Ê‚¹‚é‚悤‚É‚·‚éˆ×‚Ì—\–ñ int compressed_len; // zilb’Ê‚¹‚é‚悤‚É‚·‚éˆ×‚Ì—\–ñ }; // 56 byte struct map_cache_head { int sizeof_header; int sizeof_map; // ã‚Ì‚Q‚‰ü•Ï•s‰Â int nmaps; // ƒ}ƒbƒv‚̌” int filesize; }; struct { struct map_cache_head head; struct map_cache_info *map; FILE *fp; int dirty; } map_cache; static int map_cache_open(char *fn); static void map_cache_close(void); static int map_cache_read(struct map_data *m); static int map_cache_write(struct map_data *m); static int map_cache_open(char *fn) { atexit(map_cache_close); if(map_cache.fp) { map_cache_close(); } map_cache.fp = fopen(fn,"r+b"); if(map_cache.fp) { fread(&map_cache.head,1,sizeof(struct map_cache_head),map_cache.fp); fseek(map_cache.fp,0,SEEK_END); if( map_cache.head.sizeof_header == sizeof(struct map_cache_head) && map_cache.head.sizeof_map == sizeof(struct map_cache_info) && map_cache.head.nmaps == MAX_MAP_CACHE && map_cache.head.filesize == ftell(map_cache.fp) ) { // ƒLƒƒƒbƒVƒ…“Ç‚Ýž‚ݬŒ÷ map_cache.map = (struct map_cache_info *) aMalloc(sizeof(struct map_cache_info) * map_cache.head.nmaps); fseek(map_cache.fp,sizeof(struct map_cache_head),SEEK_SET); fread(map_cache.map,sizeof(struct map_cache_info),map_cache.head.nmaps,map_cache.fp); return 1; } fclose(map_cache.fp); } // “Ç‚Ýž‚Ý‚ÉŽ¸”s‚µ‚½‚Ì‚ÅV‹K‚É쬂·‚é map_cache.fp = fopen(fn,"wb"); if(map_cache.fp) { memset(&map_cache.head,0,sizeof(struct map_cache_head)); map_cache.map = (struct map_cache_info *) aCalloc(sizeof(struct map_cache_info),MAX_MAP_CACHE); map_cache.head.nmaps = MAX_MAP_CACHE; map_cache.head.sizeof_header = sizeof(struct map_cache_head); map_cache.head.sizeof_map = sizeof(struct map_cache_info); map_cache.head.filesize = sizeof(struct map_cache_head); map_cache.head.filesize += sizeof(struct map_cache_info) * map_cache.head.nmaps; map_cache.dirty = 1; return 1; } return 0; } static void map_cache_close(void) { if(!map_cache.fp) { return; } if(map_cache.dirty) { fseek(map_cache.fp,0,SEEK_SET); fwrite(&map_cache.head,1,sizeof(struct map_cache_head),map_cache.fp); fwrite(map_cache.map,map_cache.head.nmaps,sizeof(struct map_cache_info),map_cache.fp); } fclose(map_cache.fp); aFree(map_cache.map); map_cache.fp = NULL; return; } int map_cache_read(struct map_data *m) { int i; if(!map_cache.fp) { return 0; } for(i = 0;i < map_cache.head.nmaps ; i++) { if(!strcmp(m->name,map_cache.map[i].fn)) { if(map_cache.map[i].water_height != map_waterheight(m->name)) { // …ê‚Ì‚‚³‚ªˆá‚¤‚Ì‚Å“Ç‚Ý’¼‚µ return 0; } else if(map_cache.map[i].compressed == 0) { // ”ñˆ³kƒtƒ@ƒCƒ‹ int size = map_cache.map[i].xs * map_cache.map[i].ys; m->xs = map_cache.map[i].xs; m->ys = map_cache.map[i].ys; m->gat = (unsigned char *)aCalloc(m->xs * m->ys,sizeof(unsigned char)); fseek(map_cache.fp,map_cache.map[i].pos,SEEK_SET); if(fread(m->gat,1,size,map_cache.fp) == size) { // ¬Œ÷ return 1; } else { // ‚È‚º‚©ƒtƒ@ƒCƒ‹Œã”¼‚ªŒ‡‚¯‚Ä‚é‚Ì‚Å“Ç‚Ý’¼‚µ m->xs = 0; m->ys = 0; m->gat = NULL; aFree(m->gat); return 0; } } else if(map_cache.map[i].compressed == 1) { // ˆ³kƒtƒ‰ƒO=1 : zlib unsigned char *buf; unsigned long dest_len; int size_compress = map_cache.map[i].compressed_len; m->xs = map_cache.map[i].xs; m->ys = map_cache.map[i].ys; m->gat = (unsigned char *)aMalloc(m->xs * m->ys * sizeof(unsigned char)); buf = (unsigned char*)aMalloc(size_compress); fseek(map_cache.fp,map_cache.map[i].pos,SEEK_SET); if(fread(buf,1,size_compress,map_cache.fp) != size_compress) { // ‚È‚º‚©ƒtƒ@ƒCƒ‹Œã”¼‚ªŒ‡‚¯‚Ä‚é‚Ì‚Å“Ç‚Ý’¼‚µ printf("fread error\n"); aFree(m->gat); m->xs = 0; m->ys = 0; m->gat = NULL; aFree(buf); return 0; } dest_len = m->xs * m->ys; decode_zip(m->gat,&dest_len,buf,size_compress); if(dest_len != map_cache.map[i].xs * map_cache.map[i].ys) { // ³í‚ɉ𓀂ªo—ˆ‚Ä‚È‚¢ aFree(m->gat); m->xs = 0; m->ys = 0; m->gat = NULL; aFree(buf); return 0; } aFree(buf); return 1; } } } return 0; } static int map_cache_write(struct map_data *m) { int i; unsigned long len_new , len_old; char *write_buf; if(!map_cache.fp) { return 0; } for(i = 0;i < map_cache.head.nmaps ; i++) { if(!strcmp(m->name,map_cache.map[i].fn)) { // “¯‚¶ƒGƒ“ƒgƒŠ[‚ª‚ ‚ê‚Îã‘‚« if(map_cache.map[i].compressed == 0) { len_old = map_cache.map[i].xs * map_cache.map[i].ys; } else if(map_cache.map[i].compressed == 1) { len_old = map_cache.map[i].compressed_len; } else { // ƒTƒ|[ƒg‚³‚ê‚Ä‚È‚¢Œ`Ž®‚È‚Ì‚Å’·‚³‚O len_old = 0; } if(map_read_flag == 2) { // ˆ³k•Û‘¶ // ‚³‚·‚ª‚É‚Q”{‚É–c‚ê‚鎖‚Í‚È‚¢‚Æ‚¢‚¤Ž–‚Å write_buf = (char *) aMalloc(m->xs * m->ys * 2); len_new = m->xs * m->ys * 2; encode_zip((unsigned char *) write_buf,&len_new,m->gat,m->xs * m->ys); map_cache.map[i].compressed = 1; map_cache.map[i].compressed_len = len_new; } else { len_new = m->xs * m->ys; write_buf = (char *) m->gat; map_cache.map[i].compressed = 0; map_cache.map[i].compressed_len = 0; } if(len_new <= len_old) { // ƒTƒCƒY‚ª“¯‚¶‚©¬‚³‚­‚È‚Á‚½‚Ì‚Åꊂ͕ςí‚ç‚È‚¢ fseek(map_cache.fp,map_cache.map[i].pos,SEEK_SET); fwrite(write_buf,1,len_new,map_cache.fp); } else { // V‚µ‚¢êŠ‚É“o˜^ fseek(map_cache.fp,map_cache.head.filesize,SEEK_SET); fwrite(write_buf,1,len_new,map_cache.fp); map_cache.map[i].pos = map_cache.head.filesize; map_cache.head.filesize += len_new; } map_cache.map[i].xs = m->xs; map_cache.map[i].ys = m->ys; map_cache.map[i].water_height = map_waterheight(m->name); map_cache.dirty = 1; if(map_read_flag == 2) { aFree(write_buf); } return 0; } } // “¯‚¶ƒGƒ“ƒgƒŠ‚ª–³‚¯‚ê‚Α‚«ž‚ß‚éꊂð’T‚· for(i = 0;i < map_cache.head.nmaps ; i++) { if(map_cache.map[i].fn[0] == 0) { // V‚µ‚¢êŠ‚É“o˜^ if(map_read_flag == 2) { write_buf = (char *) aMalloc(m->xs * m->ys * 2); len_new = m->xs * m->ys * 2; encode_zip((unsigned char *) write_buf,&len_new,m->gat,m->xs * m->ys); map_cache.map[i].compressed = 1; map_cache.map[i].compressed_len = len_new; } else { len_new = m->xs * m->ys; write_buf = (char *) m->gat; map_cache.map[i].compressed = 0; map_cache.map[i].compressed_len = 0; } strncpy(map_cache.map[i].fn,m->name,sizeof(map_cache.map[0].fn)); fseek(map_cache.fp,map_cache.head.filesize,SEEK_SET); fwrite(write_buf,1,len_new,map_cache.fp); map_cache.map[i].pos = map_cache.head.filesize; map_cache.map[i].xs = m->xs; map_cache.map[i].ys = m->ys; map_cache.map[i].water_height = map_waterheight(m->name); map_cache.head.filesize += len_new; map_cache.dirty = 1; if(map_read_flag == 2) { aFree(write_buf); } return 0; } } // ‘‚«ž‚ß‚È‚©‚Á‚½ return 1; } #ifdef USE_AFM static int map_readafm(int m,char *fn) { /* Advanced Fusion Maps Support (c) 2003-2004, The Fusion Project - AlexKreuz The following code has been provided by me for eAthena under the GNU GPL. It provides Advanced Fusion Map, the map format desgined by me for Fusion, support for the eAthena emulator. I understand that because it is under the GPL that other emulators may very well use this code in their GNU project as well. The AFM map format was not originally a part of the GNU GPL. It originated from scratch by my own hand. I understand that distributing this code to read the AFM maps with eAthena causes the GPL to apply to this code. But the actual AFM maps are STILL copyrighted to the Fusion Project. By choosing In exchange for that 'act of faith' I ask for the following. A) Give credit where it is due. If you use this code, do not place your name on the changelog. Credit should be given to AlexKreuz. B) As an act of courtesy, ask me and let me know that you are putting AFM support in your project. You will have my blessings if you do. C) Use the code in its entirety INCLUDING the copyright message. Although the code provided may now be GPL, the AFM maps are not and so I ask you to display the copyright message on the STARTUP SCREEN as I have done here. (refer to core.c) "Advanced Fusion Maps (c) 2003-2004 The Fusion Project" Without this copyright, you are NOT entitled to bundle or distribute the AFM maps at all. On top of that, your "support" for AFM maps becomes just as shady as your "support" for Gravity GRF files. The bottom line is this. I know that there are those of you who would like to use this code but aren't going to want to provide the proper credit. I know this because I speak frome experience. If you are one of those people who is going to try to get around my requests, then save your breath because I don't want to hear it. I have zero faith in GPL and I know and accept that if you choose to not display the copyright for the AFMs then there is absolutely nothing I can do about it. I am not about to start a legal battle over something this silly. Provide the proper credit because you believe in the GPL. If you choose not to and would rather argue about it, consider the GPL failed. October 18th, 2004 - AlexKreuz - The Fusion Project */ int s; int x,y,xs,ys; size_t size; char afm_line[65535]; int afm_size[1]; FILE *afm_file; char *str; afm_file = fopen(fn, "r"); if (afm_file != NULL) { // printf("\rLoading Maps [%d/%d]: %-50s ",m,map_num,fn); // fflush(stdout); str=fgets(afm_line, sizeof(afm_line)-1, afm_file); str=fgets(afm_line, sizeof(afm_line)-1, afm_file); str=fgets(afm_line, sizeof(afm_line)-1, afm_file); sscanf(str , "%d%d", &afm_size[0], &afm_size[1]); map[m].m = m; xs = map[m].xs = afm_size[0]; ys = map[m].ys = afm_size[1]; // check this, unsigned where it might not need to be map[m].gat = (unsigned char*)aCallocA(s = map[m].xs * map[m].ys, 1); if(map[m].gat==NULL){ printf("out of memory : map_readmap gat\n"); exit(1); } map[m].npc_num=0; map[m].users=0; memset(&map[m].flag,0,sizeof(map[m].flag)); if(battle_config.pk_mode) map[m].flag.pvp = 1; // make all maps pvp for pk_mode [Valaris] for (y = 0; y < ys; y++) { str=fgets(afm_line, sizeof(afm_line)-1, afm_file); for (x = 0; x < xs; x++) { map[m].gat[x+y*xs] = str[x]-48; } } map[m].bxs=(xs+BLOCK_SIZE-1)/BLOCK_SIZE; map[m].bys=(ys+BLOCK_SIZE-1)/BLOCK_SIZE; size = map[m].bxs * map[m].bys * sizeof(struct block_list*); map[m].block = (struct block_list**)aCalloc(size, 1); if(map[m].block == NULL){ printf("out of memory : map_readmap block\n"); exit(1); } map[m].block_mob = (struct block_list**)aCalloc(size, 1); if (map[m].block_mob == NULL) { printf("out of memory : map_readmap block_mob\n"); exit(1); } size = map[m].bxs*map[m].bys*sizeof(int); map[m].block_count = (int*)aCallocA(size, 1); if(map[m].block_count==NULL){ printf("out of memory : map_readmap block\n"); exit(1); } memset(map[m].block_count,0,size); map[m].block_mob_count = (int*)aCallocA(size, 1); if(map[m].block_mob_count==NULL){ printf("out of memory : map_readmap block_mob\n"); exit(1); } memset(map[m].block_mob_count,0,size); strdb_insert(map_db,map[m].name,&map[m]); fclose(afm_file); } return 0; } #endif /*========================================== * ƒ}ƒbƒv1–‡“Ç‚Ýž‚Ý * ===================================================*/ static int map_readmap(int m,char *fn, char *alias, int *map_cache, int maxmap) { char *gat=""; size_t size; int i = 0; int e = 0; char progress[21] = " "; //printf("\rLoading Maps [%d/%d]: %-50s ",m,map_num,fn); if (maxmap) { //avoid map-server crashing if there are 0 maps char c = '-'; static int lasti = -1; static int last_time = -1; i=m*20/maxmap; if ((i != lasti) || (last_time != time(0))) { lasti = i; printf("\r"); ShowStatus("Progress: "); printf("["); for (e=0;etype==0){ // …ê”»’è map[m].gat[x+y*xs]=(p->high[0]>wh || p->high[1]>wh || p->high[2]>wh || p->high[3]>wh) ? 3 : 0; } else { map[m].gat[x+y*xs]=p->type; } p++; } } map_cache_write(&map[m]); aFree(gat); } map[m].m=m; map[m].npc_num=0; map[m].users=0; memset(&map[m].flag,0,sizeof(map[m].flag)); if(battle_config.pk_mode) map[m].flag.pvp = 1; // make all maps pvp for pk_mode [Valaris] map[m].bxs=(map[m].xs+BLOCK_SIZE-1)/BLOCK_SIZE; map[m].bys=(map[m].ys+BLOCK_SIZE-1)/BLOCK_SIZE; size = map[m].bxs * map[m].bys * sizeof(struct block_list*); map[m].block = (struct block_list **)aCalloc(1,size); map[m].block_mob = (struct block_list **)aCalloc(1,size); size = map[m].bxs*map[m].bys*sizeof(int); map[m].block_count = (int *)aCallocA(1,size); map[m].block_mob_count=(int *)aCallocA(1,size); if (alias) strdb_insert(map_db,alias,&map[m]); else strdb_insert(map_db,map[m].name,&map[m]); // printf("%s read done\n",fn); return 0; } /*========================================== * ‘S‚Ä‚Ìmapƒf?ƒ^‚ð?‚Ý?‚Þ *------------------------------------------ */ int map_readallmap(void) { int i,maps_removed=0; char fn[256]; #ifdef USE_AFM FILE *afm_file; #endif int map_cache = 0; // ƒ}ƒbƒvƒLƒƒƒbƒVƒ…‚ðŠJ‚­ if(map_read_flag >= READ_FROM_BITMAP) { map_cache_open(map_cache_file); } sprintf(tmp_output, "Loading Maps%s...\n", (map_read_flag == CREATE_BITMAP_COMPRESSED ? " (Generating Map Cache w/ Compression)" : map_read_flag == CREATE_BITMAP ? " (Generating Map Cache)" : map_read_flag >= READ_FROM_BITMAP ? " (w/ Map Cache)" : map_read_flag == READ_FROM_AFM ? " (w/ AFM)" : "")); ShowStatus(tmp_output); // æ‚É‘S•”‚̃ƒbƒv‚Ì‘¶Ý‚ðŠm”F for(i=0;i= MAX_MAP_PER_SERVER - 1) { snprintf(tmp_output,sizeof(tmp_output),"Could not add map '" CL_WHITE"%s"CL_RESET"', the limit of maps has been reached.\n",mapname); ShowError(tmp_output); return 1; } memcpy(map[map_num].name, mapname, 24); map_num++; return 0; } /*========================================== * ?‚Ý?‚Þmap‚ð휂·‚é *------------------------------------------ */ int map_delmap(char *mapname) { int i; if (strcmpi(mapname, "all") == 0) { map_num = 0; return 0; } for(i = 0; i < map_num; i++) { if (strcmp(map[i].name, mapname) == 0) { printf("Removing map [ %s ] from maplist\n",map[i].name); memmove(map+i, map+i+1, sizeof(map[0])*(map_num-i-1)); map_num--; } } return 0; } static int map_ip_set_ = 0; static int char_ip_set_ = 0; //static int bind_ip_set_ = 0; /*========================================== * Console Command Parser [Wizputer] *------------------------------------------ */ int parse_console(char *buf) { char *type,*command,*map, *buf2; int x = 0, y = 0; int m, n; struct map_session_data *sd; sd = (struct map_session_data*)aCalloc(sizeof(*sd), 1); sd->fd = 0; strcpy( sd->status.name , "console"); type = (char *)aMallocA(64); command = (char *)aMallocA(64); map = (char *)aMallocA(64); buf2 = (char *)aMallocA(72); memset(type,0,64); memset(command,0,64); memset(map,0,64); memset(buf2,0,72); if ( ( n = sscanf(buf, "%[^:]:%[^:]:%99s %d %d[^\n]", type , command , map , &x , &y )) < 5 ) if ( ( n = sscanf(buf, "%[^:]:%[^\n]", type , command )) < 2 ) n = sscanf(buf,"%[^\n]",type); if ( n == 5 ) { if (x <= 0) { x = rand() % 399 + 1; sd->bl.x = x; } else { sd->bl.x = x; } if (y <= 0) { y = rand() % 399 + 1; sd->bl.y = y; } else { sd->bl.y = y; } m = map_mapname2mapid(map); if ( m >= 0 ) sd->bl.m = m; else { printf("Console: Unknown map\n"); goto end; } } printf("Type of command: %s || Command: %s || Map: %s Coords: %d %d\n",type,command,map,x,y); if ( strcmpi("admin",type) == 0 && n == 5 ) { sprintf(buf2,"console: %s",command); if( is_atcommand(sd->fd,sd,buf2,99) == AtCommand_None ) printf("Console: not atcommand\n"); } else if ( strcmpi("server",type) == 0 && n == 2 ) { if ( strcmpi("shutdown", command) == 0 || strcmpi("exit",command) == 0 || strcmpi("quit",command) == 0 ) { exit(0); } } else if ( strcmpi("help",type) == 0 ) { printf("To use GM commands:\n"); printf("admin:: \n"); printf("You can use any GM command that doesn't require the GM.\n"); printf("No using @item or @warp however you can use @charwarp\n"); printf("The is for commands that need coords of the GM\n"); printf("IE: @spawn\n"); printf("To shutdown the server:\n"); printf("server:shutdown\n"); } end: aFree(buf); aFree(type); aFree(command); aFree(map); aFree(buf2); aFree(sd); return 0; } /*========================================== * Ý’èƒtƒ@ƒCƒ‹‚ð?‚Ý?‚Þ *------------------------------------------ */ int map_config_read(char *cfgName) { char line[1024], w1[1024], w2[1024]; FILE *fp; struct hostent *h = NULL; fp = fopen(cfgName,"r"); if (fp == NULL) { printf("Map configuration file not found at: %s\n", cfgName); exit(1); } while(fgets(line, sizeof(line) -1, fp)) { if (line[0] == '/' && line[1] == '/') continue; if (sscanf(line, "%[^:]: %[^\r\n]", w1, w2) == 2) { if (strcmpi(w1, "userid")==0){ chrif_setuserid(w2); } else if (strcmpi(w1, "passwd") == 0) { chrif_setpasswd(w2); } else if (strcmpi(w1, "char_ip") == 0) { char_ip_set_ = 1; h = gethostbyname (w2); if(h != NULL) { snprintf(tmp_output,sizeof(tmp_output),"Char Server IP Address : '"CL_WHITE"%s"CL_RESET"' -> '"CL_WHITE"%d.%d.%d.%d"CL_RESET"'.\n", w2, (unsigned char)h->h_addr[0], (unsigned char)h->h_addr[1], (unsigned char)h->h_addr[2], (unsigned char)h->h_addr[3]); ShowInfo(tmp_output); sprintf(w2,"%d.%d.%d.%d", (unsigned char)h->h_addr[0], (unsigned char)h->h_addr[1], (unsigned char)h->h_addr[2], (unsigned char)h->h_addr[3]); } chrif_setip(w2); } else if (strcmpi(w1, "char_port") == 0) { chrif_setport(atoi(w2)); } else if (strcmpi(w1, "map_ip") == 0) { map_ip_set_ = 1; h = gethostbyname (w2); if (h != NULL) { snprintf(tmp_output,sizeof(tmp_output),"Map Server IP Address : '"CL_WHITE"%s"CL_RESET"' -> '"CL_WHITE"%d.%d.%d.%d"CL_RESET"'.\n", w2, (unsigned char)h->h_addr[0], (unsigned char)h->h_addr[1], (unsigned char)h->h_addr[2], (unsigned char)h->h_addr[3]); ShowInfo(tmp_output); sprintf(w2, "%d.%d.%d.%d", (unsigned char)h->h_addr[0], (unsigned char)h->h_addr[1], (unsigned char)h->h_addr[2], (unsigned char)h->h_addr[3]); } clif_setip(w2); } else if (strcmpi(w1, "bind_ip") == 0) { //bind_ip_set_ = 1; h = gethostbyname (w2); if (h != NULL) { snprintf(tmp_output,sizeof(tmp_output),"Map Server IP Address : '"CL_WHITE"%s"CL_RESET"' -> '"CL_WHITE"%d.%d.%d.%d"CL_RESET"'.\n", w2, (unsigned char)h->h_addr[0], (unsigned char)h->h_addr[1], (unsigned char)h->h_addr[2], (unsigned char)h->h_addr[3]); ShowInfo(tmp_output); sprintf(w2, "%d.%d.%d.%d", (unsigned char)h->h_addr[0], (unsigned char)h->h_addr[1], (unsigned char)h->h_addr[2], (unsigned char)h->h_addr[3]); } clif_setbindip(w2); } else if (strcmpi(w1, "map_port") == 0) { clif_setport(atoi(w2)); map_port = (atoi(w2)); } else if (strcmpi(w1, "water_height") == 0) { map_readwater(w2); } else if (strcmpi(w1, "map") == 0) { map_addmap(w2); } else if (strcmpi(w1, "delmap") == 0) { map_delmap(w2); } else if (strcmpi(w1, "npc") == 0) { npc_addsrcfile(w2); } else if (strcmpi(w1, "delnpc") == 0) { npc_delsrcfile(w2); } else if (strcmpi(w1, "data_grf") == 0) { grfio_setdatafile(w2); } else if (strcmpi(w1, "sdata_grf") == 0) { grfio_setsdatafile(w2); } else if (strcmpi(w1, "adata_grf") == 0) { grfio_setadatafile(w2); } else if (strcmpi(w1, "autosave_time") == 0) { autosave_interval = atoi(w2) * 1000; if (autosave_interval <= 0) autosave_interval = DEFAULT_AUTOSAVE_INTERVAL; } else if (strcmpi(w1, "motd_txt") == 0) { strcpy(motd_txt, w2); } else if (strcmpi(w1, "help_txt") == 0) { strcpy(help_txt, w2); } else if (strcmpi(w1, "mapreg_txt") == 0) { strcpy(mapreg_txt, w2); }else if(strcmpi(w1,"read_map_from_cache")==0){ if (atoi(w2) == 2) map_read_flag = READ_FROM_BITMAP_COMPRESSED; else if (atoi(w2) == 1) map_read_flag = READ_FROM_BITMAP; else map_read_flag = READ_FROM_GAT; }else if(strcmpi(w1,"map_cache_file")==0){ strncpy(map_cache_file,w2,255); } else if (strcmpi(w1, "import") == 0) { map_config_read(w2); } else if (strcmpi(w1, "console") == 0) { if(strcmpi(w2,"on") == 0 || strcmpi(w2,"yes") == 0 ) { console = 1; ShowNotice("Console Commands is enabled.\n"); } } else if(strcmpi(w1,"imalive_on")==0){ //Added by Mugendai for I'm Alive mod imalive_on = atoi(w2); //Added by Mugendai for I'm Alive mod } else if(strcmpi(w1,"imalive_time")==0){ //Added by Mugendai for I'm Alive mod imalive_time = atoi(w2); //Added by Mugendai for I'm Alive mod } else if(strcmpi(w1,"flush_on")==0){ //Added by Mugendai for GUI flush_on = atoi(w2); //Added by Mugendai for GUI } else if(strcmpi(w1,"flush_time")==0){ //Added by Mugendai for GUI flush_time = atoi(w2); //Added by Mugendai for GUI } } } fclose(fp); return 0; } int inter_config_read(char *cfgName) { int i; char line[1024],w1[1024],w2[1024]; FILE *fp; fp=fopen(cfgName,"r"); if(fp==NULL){ snprintf(tmp_output,sizeof(tmp_output),"File not found: '%s'.\n",cfgName); ShowError(tmp_output); return 1; } while(fgets(line,1020,fp)){ if(line[0] == '/' && line[1] == '/') continue; i=sscanf(line,"%[^:]: %[^\r\n]",w1,w2); if(i!=2) continue; //support the import command, just like any other config if(strcmpi(w1,"import")==0){ inter_config_read(w2); #ifndef TXT_ONLY } else if(strcmpi(w1,"item_db_db")==0){ strcpy(item_db_db,w2); } else if(strcmpi(w1,"mob_db_db")==0){ strcpy(mob_db_db,w2); } else if(strcmpi(w1,"login_db_level")==0){ strcpy(login_db_level,w2); } else if(strcmpi(w1,"login_db_account_id")==0){ strcpy(login_db_account_id,w2); } else if(strcmpi(w1,"login_db")==0){ strcpy(login_db,w2); } else if (strcmpi(w1, "char_db") == 0) { strcpy(char_db, w2); } else if(strcmpi(w1,"gm_db_level")==0){ strcpy(gm_db_level,w2); } else if(strcmpi(w1,"gm_db_account_id")==0){ strcpy(gm_db_account_id,w2); } else if(strcmpi(w1,"gm_db")==0){ strcpy(gm_db,w2); //Map Server SQL DB } else if(strcmpi(w1,"map_server_ip")==0){ strcpy(map_server_ip, w2); } else if(strcmpi(w1,"map_server_port")==0){ map_server_port=atoi(w2); } else if(strcmpi(w1,"map_server_id")==0){ strcpy(map_server_id, w2); } else if(strcmpi(w1,"map_server_pw")==0){ strcpy(map_server_pw, w2); } else if(strcmpi(w1,"map_server_db")==0){ strcpy(map_server_db, w2); } else if(strcmpi(w1,"use_sql_db")==0){ db_use_sqldbs = battle_config_switch(w2); printf ("Using SQL dbs: %s\n",w2); //Login Server SQL DB } else if(strcmpi(w1,"login_server_ip")==0){ strcpy(login_server_ip, w2); } else if(strcmpi(w1,"login_server_port")==0){ login_server_port = atoi(w2); } else if(strcmpi(w1,"login_server_id")==0){ strcpy(login_server_id, w2); } else if(strcmpi(w1,"login_server_pw")==0){ strcpy(login_server_pw, w2); } else if(strcmpi(w1,"login_server_db")==0){ strcpy(login_server_db, w2); } else if(strcmpi(w1,"lowest_gm_level")==0){ lowest_gm_level = atoi(w2); } else if(strcmpi(w1,"read_gm_interval")==0){ read_gm_interval = ( atoi(w2) * 60 * 1000 ); // Minutes multiplied by 60 secs per min by 1000 milliseconds per second } else if(strcmpi(w1,"log_db")==0) { strcpy(log_db, w2); } else if(strcmpi(w1,"log_db_ip")==0) { strcpy(log_db_ip, w2); } else if(strcmpi(w1,"log_db")==0) { strcpy(log_db, w2); } else if(strcmpi(w1,"log_db_id")==0) { strcpy(log_db_id, w2); } else if(strcmpi(w1,"log_db_pw")==0) { strcpy(log_db_pw, w2); } else if(strcmpi(w1,"log_db_port")==0) { log_db_port = atoi(w2); #endif } } fclose(fp); return 0; } #ifndef TXT_ONLY /*======================================= * MySQL Init *--------------------------------------- */ int map_sql_init(void){ mysql_init(&mmysql_handle); //DB connection start printf("Connect Map DB Server....\n"); if(!mysql_real_connect(&mmysql_handle, map_server_ip, map_server_id, map_server_pw, map_server_db ,map_server_port, (char *)NULL, 0)) { //pointer check printf("%s\n",mysql_error(&mmysql_handle)); exit(1); } else { printf ("connect success! (Map Server Connection)\n"); } mysql_init(&lmysql_handle); //DB connection start printf("Connect Login DB Server....\n"); if(!mysql_real_connect(&lmysql_handle, login_server_ip, login_server_id, login_server_pw, login_server_db ,login_server_port, (char *)NULL, 0)) { //pointer check printf("%s\n",mysql_error(&lmysql_handle)); exit(1); } else { printf ("connect success! (Login Server Connection)\n"); } if(battle_config.mail_system) { // mail system [Valaris] mysql_init(&mail_handle); if(!mysql_real_connect(&mail_handle, map_server_ip, map_server_id, map_server_pw, map_server_db ,map_server_port, (char *)NULL, 0)) { printf("%s\n",mysql_error(&mail_handle)); exit(1); } } return 0; } int map_sql_close(void){ mysql_close(&mmysql_handle); printf("Close Map DB Connection....\n"); mysql_close(&lmysql_handle); printf("Close Login DB Connection....\n"); return 0; } int log_sql_init(void){ mysql_init(&mmysql_handle); //DB connection start printf(""CL_WHITE"[SQL]"CL_RESET": Connecting to Log Database "CL_WHITE"%s"CL_RESET" At "CL_WHITE"%s"CL_RESET"...\n",log_db,log_db_ip); if(!mysql_real_connect(&mmysql_handle, log_db_ip, log_db_id, log_db_pw, log_db ,log_db_port, (char *)NULL, 0)) { //pointer check printf(""CL_WHITE"[SQL Error]"CL_RESET": %s\n",mysql_error(&mmysql_handle)); exit(1); } else { printf(""CL_WHITE"[SQL]"CL_RESET": Successfully '"CL_GREEN"connected"CL_RESET"' to Database '"CL_WHITE"%s"CL_RESET"'.\n", log_db); } return 0; } int online_timer(int tid,unsigned int tick,int id,int data) { if(check_online_timer != tid) return 0; char_online_check(); check_online_timer=add_timer(gettick()+CHECK_INTERVAL,online_timer,0,0); return 0; } void char_online_check(void) { int i; struct map_session_data *sd=NULL; chrif_char_reset_offline(); for(i=0;isession_data) && sd && sd->state.auth && !(battle_config.hide_GM_session && pc_isGM(sd))) if(sd->status.char_id) { chrif_char_online(sd); } } if(check_online_timer && check_online_timer != -1) { delete_timer(check_online_timer,online_timer); add_timer(gettick()+CHECK_INTERVAL,online_timer,0,0); } } #endif /* not TXT_ONLY */ //----------------------------------------------------- //I'm Alive Alert //Used to output 'I'm Alive' every few seconds //Intended to let frontends know if the app froze //----------------------------------------------------- int imalive_timer(int tid, unsigned int tick, int id, int data){ printf("I'm Alive\n"); return 0; } //----------------------------------------------------- //Flush stdout //stdout buffer needs flushed to be seen in GUI //----------------------------------------------------- int flush_timer(int tid, unsigned int tick, int id, int data){ fflush(stdout); return 0; } int id_db_final(void *k,void *d,va_list ap) { return 0; } int map_db_final(void *k,void *d,va_list ap) { return 0; } int nick_db_final(void *k,void *d,va_list ap) { char *p = d; if (p) aFree(p); return 0; } int charid_db_final(void *k,void *d,va_list ap) { struct charid2nick *p = d; if (p) aFree(p); return 0; } int cleanup_sub(struct block_list *bl, va_list ap) { nullpo_retr(0, bl); switch(bl->type) { case BL_PC: map_quit((struct map_session_data *) bl); break; case BL_NPC: npc_delete((struct npc_data *)bl); break; case BL_MOB: mob_delete((struct mob_data *)bl); break; case BL_PET: pet_remove_map((struct map_session_data *)bl); break; case BL_ITEM: map_clearflooritem(bl->id); break; case BL_SKILL: skill_delunit((struct skill_unit *) bl); break; } return 0; } /*========================================== * mapŽII—¹Žž?— *------------------------------------------ */ void do_final(void) { int i; ShowStatus("Terminating...\n"); for (i = 0; i < map_num; i++) if(map[i].m) map_foreachinarea(cleanup_sub, i, 0, 0, map[i].xs, map[i].ys, 0, 0); #ifndef TXT_ONLY chrif_char_reset_offline(); #endif chrif_flush_fifo(); //#if 0 // why is this here? >_> do_final_chrif(); // ‚±‚Ì“à•”‚ŃLƒƒƒ‰‚ð‘S‚ÄØ’f‚·‚é do_final_npc(); // map_removenpc(); do_final_script(); do_final_itemdb(); do_final_storage(); do_final_guild(); do_final_party(); do_final_pc(); do_final_pet(); do_final_msg(); for (i=0; i Load map-server configuration from "); puts(" --battle-config Load battle configuration from "); puts(" --atcommand-config Load atcommand configuration from "); puts(" --charcommand-config Load charcommand configuration from "); puts(" --script-config Load script configuration from "); puts(" --msg-config Load message configuration from "); puts(" --grf-path-file Load grf path file configuration from "); puts(" --sql-config Load inter-server configuration from "); puts(" (SQL Only)"); puts(" --log-config Load logging configuration from "); puts(" (SQL Only)"); puts(" --version, --v, -v, /v Displays the server's version"); puts("\n"); if (flag) exit(1); } /*====================================================== * Map-Server Version Screen [MC Cameri] *------------------------------------------------------ */ void map_versionscreen(int flag) { printf("CL_WHITE" "eAthena version %d.%02d.%02d, Athena Mod version %d" CL_RESET"\n", ATHENA_MAJOR_VERSION, ATHENA_MINOR_VERSION, ATHENA_REVISION, ATHENA_MOD_VERSION); puts(CL_GREEN "Website/Forum:" CL_RESET "\thttp://eathena.deltaanime.net/"); puts(CL_GREEN "Download URL:" CL_RESET "\thttp://eathena.systeminplace.net/"); puts(CL_GREEN "IRC Channel:" CL_RESET "\tirc://irc.deltaanime.net/#athena"); puts("\nOpen " CL_WHITE "readme.html" CL_RESET " for more information."); if (ATHENA_RELEASE_FLAG) ShowNotice("This version is not for release.\n"); if (flag) exit(1); } /*====================================================== * Map-Server Init and Command-line Arguments [Valaris] *------------------------------------------------------ */ int do_init(int argc, char *argv[]) { int i; FILE *data_conf; char line[1024], w1[1024], w2[1024]; #ifdef GCOLLECT GC_enable_incremental(); #endif char *INTER_CONF_NAME="conf/inter_athena.conf"; char *LOG_CONF_NAME="conf/log_athena.conf"; char *MAP_CONF_NAME = "conf/map_athena.conf"; char *BATTLE_CONF_FILENAME = "conf/battle_athena.conf"; char *ATCOMMAND_CONF_FILENAME = "conf/atcommand_athena.conf"; char *CHARCOMMAND_CONF_FILENAME = "conf/charcommand_athena.conf"; char *SCRIPT_CONF_NAME = "conf/script_athena.conf"; char *MSG_CONF_NAME = "conf/msg_athena.conf"; char *GRF_PATH_FILENAME = "conf/grf-files.txt"; chrif_connected = 0; srand(gettick()); for (i = 1; i < argc ; i++) { if (strcmp(argv[i], "--help") == 0 || strcmp(argv[i], "--h") == 0 || strcmp(argv[i], "--?") == 0 || strcmp(argv[i], "/?") == 0) map_helpscreen(1); if (strcmp(argv[i], "--version") == 0 || strcmp(argv[i], "--v") == 0 || strcmp(argv[i], "-v") == 0 || strcmp(argv[i], "/v") == 0) map_versionscreen(1); else if (strcmp(argv[i], "--map_config") == 0 || strcmp(argv[i], "--map-config") == 0) MAP_CONF_NAME=argv[i+1]; else if (strcmp(argv[i],"--battle_config") == 0 || strcmp(argv[i],"--battle-config") == 0) BATTLE_CONF_FILENAME = argv[i+1]; else if (strcmp(argv[i],"--atcommand_config") == 0 || strcmp(argv[i],"--atcommand-config") == 0) ATCOMMAND_CONF_FILENAME = argv[i+1]; else if (strcmp(argv[i],"--charcommand_config") == 0 || strcmp(argv[i],"--charcommand-config") == 0) CHARCOMMAND_CONF_FILENAME = argv[i+1]; else if (strcmp(argv[i],"--script_config") == 0 || strcmp(argv[i],"--script-config") == 0) SCRIPT_CONF_NAME = argv[i+1]; else if (strcmp(argv[i],"--msg_config") == 0 || strcmp(argv[i],"--msg-config") == 0) MSG_CONF_NAME = argv[i+1]; else if (strcmp(argv[i],"--grf_path_file") == 0 || strcmp(argv[i],"--grf-path-file") == 0) GRF_PATH_FILENAME = argv[i+1]; #ifndef TXT_ONLY else if (strcmp(argv[i],"--inter_config") == 0 || strcmp(argv[i],"--inter-config") == 0) INTER_CONF_NAME = argv[i+1]; #endif /* not TXT_ONLY */ else if (strcmp(argv[i],"--log_config") == 0 || strcmp(argv[i],"--log-config") == 0) LOG_CONF_NAME = argv[i+1]; else if (strcmp(argv[i],"--run_once") == 0) // close the map-server as soon as its done.. for testing [Celest] runflag = 0; } map_config_read(MAP_CONF_NAME); if ((naddr_ == 0) && (map_ip_set_ == 0 || char_ip_set_ == 0)) { printf("\nUnable to determine your IP address... please edit\n"); printf("the map_athena.conf file and set it.\n"); printf("(127.0.0.1 is valid if you have no network interface)\n"); } if (map_ip_set_ == 0 || char_ip_set_ == 0) { // The map server should know what IP address it is running on // - MouseJstr int localaddr = ntohl(addr_[0]); unsigned char *ptr = (unsigned char *) &localaddr; char buf[16]; sprintf(buf, "%d.%d.%d.%d", ptr[0], ptr[1], ptr[2], ptr[3]);; if (naddr_ != 1) printf("Multiple interfaces detected.. using %s as our IP address\n", buf); else printf("Defaulting to %s as our IP address\n", buf); if (map_ip_set_ == 0) clif_setip(buf); if (char_ip_set_ == 0) chrif_setip(buf); if (ptr[0] == 192 && ptr[1] == 168) printf("\nFirewall detected.. \n edit lan_support.conf and map_athena.conf\n\n"); } if (SHOW_DEBUG_MSG) ShowNotice("Server running in '"CL_WHITE"Debug Mode"CL_RESET"'.\n"); battle_config_read(BATTLE_CONF_FILENAME); msg_config_read(MSG_CONF_NAME); atcommand_config_read(ATCOMMAND_CONF_FILENAME); charcommand_config_read(CHARCOMMAND_CONF_FILENAME); script_config_read(SCRIPT_CONF_NAME); inter_config_read(INTER_CONF_NAME); log_config_read(LOG_CONF_NAME); atexit(do_final); id_db = numdb_init(); map_db = strdb_init(16); nick_db = strdb_init(24); charid_db = numdb_init(); #ifndef TXT_ONLY map_sql_init(); #endif /* not TXT_ONLY */ grfio_init(GRF_PATH_FILENAME); data_conf = fopen(GRF_PATH_FILENAME, "r"); // It will read, if there is grf-files.txt. if (data_conf) { while(fgets(line, 1020, data_conf)) { if (sscanf(line, "%[^:]: %[^\r\n]", w1, w2) == 2) { if(strcmp(w1,"afm_dir") == 0) strcpy(afm_dir, w2); } } fclose(data_conf); } // end of reading grf-files.txt for AFMs map_readallmap(); add_timer_func_list(map_freeblock_timer,"map_freeblock_timer"); add_timer_func_list(map_clearflooritem_timer, "map_clearflooritem_timer"); add_timer_interval(gettick()+1000,map_freeblock_timer,0,0,60*1000); //Added by Mugendai for GUI support if (flush_on) add_timer_interval(gettick()+10, flush_timer,0,0,flush_time); //Added for Mugendais I'm Alive mod if (imalive_on) add_timer_interval(gettick()+10, imalive_timer,0,0,imalive_time*1000); #ifndef TXT_ONLY // online status timer, checks every hour [Valaris] add_timer_func_list(online_timer, "online_timer"); check_online_timer=add_timer(gettick()+CHECK_INTERVAL,online_timer,0,0); #endif /* not TXT_ONLY */ do_init_chrif(); do_init_clif(); do_init_itemdb(); do_init_mob(); // npc‚̉Šú‰»Žž?‚Åmob_spawn‚µ‚ÄAmob_db‚ð?Æ‚·‚é‚Ì‚Åinit_npc‚æ‚èæ do_init_script(); do_init_pc(); do_init_status(); do_init_party(); do_init_guild(); do_init_storage(); do_init_skill(); do_init_pet(); do_init_npc(); #ifndef TXT_ONLY /* mail system [Valaris] */ if(battle_config.mail_system) do_init_mail(); if (log_config.sql_logs && (log_config.branch || log_config.drop || log_config.mvpdrop || log_config.present || log_config.produce || log_config.refine || log_config.trade)) { log_sql_init(); } #endif /* not TXT_ONLY */ npc_event_do_oninit(); // npc‚ÌOnInitƒCƒxƒ“ƒg?s if ( console ) { set_defaultconsoleparse(parse_console); start_console(); } if (battle_config.pk_mode == 1) ShowNotice("Server is running on '"CL_WHITE"PK Mode"CL_RESET"'.\n"); sprintf(tmp_output,"Server is '"CL_GREEN"ready"CL_RESET"' and listening on port '"CL_WHITE"%d"CL_RESET"'.\n\n", map_port); ShowStatus(tmp_output); return 0; } int compare_item(struct item *a, struct item *b) { return ( (a->nameid == b->nameid) && (a->identify == b->identify) && (a->refine == b->refine) && (a->attribute == b->attribute) && (a->card[0] == b->card[0]) && (a->card[1] == b->card[1]) && (a->card[2] == b->card[2]) && (a->card[3] == b->card[3])); }