// Copyright (c) Athena Dev Teams - Licensed under GNU GPL
// For more information, see LICENCE in the main folder
#include "../common/nullpo.h"
#include "../common/malloc.h"
#include "../common/showmsg.h"
#include "../common/strlib.h"
#include "itemdb.h"
#include "map.h"
#include "battle.h" // struct battle_config
#include "script.h" // item script processing
#include "pc.h" // W_MUSICAL, W_WHIP
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
// 32k array entries (the rest goes to the db)
#define MAX_ITEMDB 0x8000
static struct item_data* itemdb_array[MAX_ITEMDB];
static DBMap* itemdb_other;// int nameid -> struct item_data*
static struct item_group itemgroup_db[MAX_ITEMGROUP];
struct item_data dummy_item; //This is the default dummy item used for non-existant items. [Skotlex]
/*==========================================
* ���O�Ō����p
*------------------------------------------*/
// name = item alias, so we should find items aliases first. if not found then look for "jname" (full name)
static int itemdb_searchname_sub(DBKey key,void *data,va_list ap)
{
struct item_data *item=(struct item_data *)data,**dst,**dst2;
char *str;
str=va_arg(ap,char *);
dst=va_arg(ap,struct item_data **);
dst2=va_arg(ap,struct item_data **);
if(item == &dummy_item) return 0;
//Absolute priority to Aegis code name.
if (*dst != NULL) return 0;
if( strcmpi(item->name,str)==0 )
*dst=item;
//Second priority to Client displayed name.
if (*dst2 != NULL) return 0;
if( strcmpi(item->jname,str)==0 )
*dst2=item;
return 0;
}
/*==========================================
* ���O�Ō���
*------------------------------------------*/
struct item_data* itemdb_searchname(const char *str)
{
struct item_data* item;
struct item_data* item2=NULL;
int i;
for( i = 0; i < ARRAYLENGTH(itemdb_array); ++i )
{
item = itemdb_array[i];
if( item == NULL )
continue;
// Absolute priority to Aegis code name.
if( strcasecmp(item->name,str) == 0 )
return item;
//Second priority to Client displayed name.
if( strcasecmp(item->jname,str) == 0 )
item2 = item;
}
item = NULL;
itemdb_other->foreach(itemdb_other,itemdb_searchname_sub,str,&item,&item2);
return item?item:item2;
}
static int itemdb_searchname_array_sub(DBKey key,void * data,va_list ap)
{
struct item_data *item=(struct item_data *)data;
char *str;
str=va_arg(ap,char *);
if (item == &dummy_item)
return 1; //Invalid item.
if(stristr(item->jname,str))
return 0;
if(stristr(item->name,str))
return 0;
return strcmpi(item->jname,str);
}
/*==========================================
* Founds up to N matches. Returns number of matches [Skotlex]
*------------------------------------------*/
int itemdb_searchname_array(struct item_data** data, int size, const char *str)
{
struct item_data* item;
int i;
int count=0;
// Search in the array
for( i = 0; i < ARRAYLENGTH(itemdb_array); ++i )
{
item = itemdb_array[i];
if( item == NULL )
continue;
if( stristr(item->jname,str) || stristr(item->name,str) )
{
if( count < size )
data[count] = item;
++count;
}
}
// search in the db
if( count >= size )
{
data = NULL;
size = 0;
}
else
{
data -= count;
size -= count;
}
return count + itemdb_other->getall(itemdb_other,(void**)data,size,itemdb_searchname_array_sub,str);
}
/*==========================================
* ���n�A�C�e������
*------------------------------------------*/
int itemdb_searchrandomid(int group)
{
if(group<1 || group>=MAX_ITEMGROUP) {
ShowError("itemdb_searchrandomid: Invalid group id %d\n", group);
return UNKNOWN_ITEM_ID;
}
if (itemgroup_db[group].qty)
return itemgroup_db[group].nameid[rand()%itemgroup_db[group].qty];
ShowError("itemdb_searchrandomid: No item entries for group id %d\n", group);
return UNKNOWN_ITEM_ID;
}
/*==========================================
* Calculates total item-group related bonuses for the given item
*------------------------------------------*/
int itemdb_group_bonus(struct map_session_data* sd, int itemid)
{
int bonus = 0, i, j;
for (i=0; i < MAX_ITEMGROUP; i++) {
if (!sd->itemgrouphealrate[i])
continue;
ARR_FIND( 0, itemgroup_db[i].qty, j, itemgroup_db[i].nameid[j] == itemid );
if( j < itemgroup_db[i].qty )
bonus += sd->itemgrouphealrate[i];
}
return bonus;
}
/// Searches for the item_data.
/// Returns the item_data or NULL if it does not exist.
struct item_data* itemdb_exists(int nameid)
{
struct item_data* item;
if( nameid >= 0 && nameid < ARRAYLENGTH(itemdb_array) )
return itemdb_array[nameid];
item = (struct item_data*)idb_get(itemdb_other,nameid);
if( item == &dummy_item )
return NULL;// dummy data, doesn't exist
return item;
}
/// Returns human readable name for given item type.
/// @param type Type id to retrieve name for ( IT_* ).
const char* itemdb_typename(int type)
{
switch(type)
{
case IT_HEALING: return "Potion/Food";
case IT_USABLE: return "Usable";
case IT_ETC: return "Etc.";
case IT_WEAPON: return "Weapon";
case IT_ARMOR: return "Armor";
case IT_CARD: return "Card";
case IT_PETEGG: return "Pet Egg";
case IT_PETARMOR: return "Pet Accessory";
case IT_AMMO: return "Arrow/Ammunition";
case IT_DELAYCONSUME: return "Delay-Consume Usable";
case IT_CASH: return "Cash Usable";
}
return "Unknown Type";
}
/*==========================================
* Converts the jobid from the format in itemdb
* to the format used by the map server. [Skotlex]
*------------------------------------------*/
static void itemdb_jobid2mapid(unsigned int *bclass, unsigned int jobmask)
{
int i;
bclass[0]= bclass[1]= bclass[2]= 0;
//Base classes
if (jobmask & 1<<JOB_NOVICE)
{ //Both Novice/Super-Novice are counted with the same ID
bclass[0] |= 1<<MAPID_NOVICE;
bclass[1] |= 1<<MAPID_NOVICE;
}
for (i = JOB_NOVICE+1; i <= JOB_THIEF; i++)
{
if (jobmask & 1<<i)
bclass[0] |= 1<<(MAPID_NOVICE+i);
}
//2-1 classes
if (jobmask & 1<<JOB_KNIGHT)
bclass[1] |= 1<<MAPID_SWORDMAN;
if (jobmask & 1<<JOB_PRIEST)
bclass[1] |= 1<<MAPID_ACOLYTE;
if (jobmask & 1<<JOB_WIZARD)
bclass[1] |= 1<<MAPID_MAGE;
if (jobmask & 1<<JOB_BLACKSMITH)
bclass[1] |= 1<<MAPID_MERCHANT;
if (jobmask & 1<<JOB_HUNTER)
bclass[1] |= 1<<MAPID_ARCHER;
if (jobmask & 1<<JOB_ASSASSIN)
bclass[1] |= 1<<MAPID_THIEF;
//2-2 classes
if (jobmask & 1<<JOB_CRUSADER)
bclass[2] |= 1<<MAPID_SWORDMAN;
if (jobmask & 1<<JOB_MONK)
bclass[2] |= 1<<MAPID_ACOLYTE;
if (jobmask & 1<<JOB_SAGE)
bclass[2] |= 1<<MAPID_MAGE;
if (jobmask & 1<<JOB_ALCHEMIST)
bclass[2] |= 1<<MAPID_MERCHANT;
if (jobmask & 1<<JOB_BARD)
bclass[2] |= 1<<MAPID_ARCHER;
// Bard/Dancer share the same slot now.
// if (jobmask & 1<<JOB_DANCER)
// bclass[2] |= 1<<MAPID_ARCHER;
if (jobmask & 1<<JOB_ROGUE)
bclass[2] |= 1<<MAPID_THIEF;
//Special classes that don't fit above.
if (jobmask & 1<<21) //Taekwon boy
bclass[0] |= 1<<MAPID_TAEKWON;
if (jobmask & 1<<22) //Star Gladiator
bclass[1] |= 1<<MAPID_TAEKWON;
if (jobmask & 1<<23) //Soul Linker
bclass[2] |= 1<<MAPID_TAEKWON;
if (jobmask & 1<<JOB_GUNSLINGER)
bclass[0] |= 1<<MAPID_GUNSLINGER;
if (jobmask & 1<<JOB_NINJA)
bclass[0] |= 1<<MAPID_NINJA;
}
static void create_dummy_data(void)
{
memset(&dummy_item, 0, sizeof(struct item_data));
dummy_item.nameid=500;
dummy_item.weight=1;
dummy_item.value_sell=1;
dummy_item.type=IT_ETC; //Etc item
safestrncpy(dummy_item.name,"UNKNOWN_ITEM",sizeof(dummy_item.name));
safestrncpy(dummy_item.jname,"UNKNOWN_ITEM",sizeof(dummy_item.jname));
dummy_item.view_id=UNKNOWN_ITEM_ID;
}
static struct item_data* create_item_data(int nameid)
{
struct item_data *id;
CREATE(id, struct item_data, 1);
id->nameid = nameid;
id->weight = 1;
id->type = IT_ETC;
return id;
}
/*==========================================
* Loads (and creates if not found) an item from the db.
*------------------------------------------*/
struct item_data* itemdb_load(int nameid)
{
struct item_data *id;
if( nameid >= 0 && nameid < ARRAYLENGTH(itemdb_array) )
{
id = itemdb_array[nameid];
if( id == NULL || id == &dummy_item )
id = itemdb_array[nameid] = create_item_data(nameid);
return id;
}
id = (struct item_data*)idb_get(itemdb_other, nameid);
if( id == NULL || id == &dummy_item )
{
id = create_item_data(nameid);
idb_put(itemdb_other, nameid, id);
}
return id;
}
/*==========================================
* Loads an item from the db. If not found, it will return the dummy item.
*------------------------------------------*/
struct item_data* itemdb_search(int nameid)
{
struct item_data* id;
if( nameid >= 0 && nameid < ARRAYLENGTH(itemdb_array) )
id = itemdb_array[nameid];
else
id = (struct item_data*)idb_get(itemdb_other, nameid);
if( id == NULL )
{
ShowWarning("itemdb_search: Item ID %d does not exists in the item_db. Using dummy data.\n", nameid);
id = &dummy_item;
dummy_item.nameid = nameid;
}
return id;
}
/*==========================================
* Returns if given item is a player-equippable piece.
*------------------------------------------*/
int itemdb_isequip(int nameid)
{
int type=itemdb_type(nameid);
switch (type) {
case IT_WEAPON:
case IT_ARMOR:
case IT_AMMO:
return 1;
default:
return 0;
}
}
/*==========================================
* Alternate version of itemdb_isequip
*------------------------------------------*/
int itemdb_isequip2(struct item_data *data)
{
nullpo_ret(data);
switch(data->type) {
case IT_WEAPON:
case IT_ARMOR:
case IT_AMMO:
return 1;
default:
return 0;
}
}
/*==========================================
* Returns if given item's type is stackable.
*------------------------------------------*/
int itemdb_isstackable(int nameid)
{
int type=itemdb_type(nameid);
switch(type) {
case IT_WEAPON:
case IT_ARMOR:
case IT_PETEGG:
case IT_PETARMOR:
return 0;
default:
return 1;
}
}
/*==========================================
* Alternate version of itemdb_isstackable
*------------------------------------------*/
int itemdb_isstackable2(struct item_data *data)
{
nullpo_ret(data);
switch(data->type) {
case IT_WEAPON:
case IT_ARMOR:
case IT_PETEGG:
case IT_PETARMOR:
return 0;
default:
return 1;
}
}
/*==========================================
* Trade Restriction functions [Skotlex]
*------------------------------------------*/
int itemdb_isdropable_sub(struct item_data *item, int gmlv, int unused)
{
return (item && (!(item->flag.trade_restriction&1) || gmlv >= item->gm_lv_trade_override));
}
int itemdb_cantrade_sub(struct item_data* item, int gmlv, int gmlv2)
{
return (item && (!(item->flag.trade_restriction&2) || gmlv >= item->gm_lv_trade_override || gmlv2 >= item->gm_lv_trade_override));
}
int itemdb_canpartnertrade_sub(struct item_data* item, int gmlv, int gmlv2)
{
return (item && (item->flag.trade_restriction&4 || gmlv >= item->gm_lv_trade_override || gmlv2 >= item->gm_lv_trade_override));
}
int itemdb_cansell_sub(struct item_data* item, int gmlv, int unused)
{
return (item && (!(item->flag.trade_restriction&8) || gmlv >= item->gm_lv_trade_override));
}
int itemdb_cancartstore_sub(struct item_data* item, int gmlv, int unused)
{
return (item && (!(item->flag.trade_restriction&16) || gmlv >= item->gm_lv_trade_override));
}
int itemdb_canstore_sub(struct item_data* item, int gmlv, int unused)
{
return (item && (!(item->flag.trade_restriction&32) || gmlv >= item->gm_lv_trade_override));
}
int itemdb_canguildstore_sub(struct item_data* item, int gmlv, int unused)
{
return (item && (!(item->flag.trade_restriction&64) || gmlv >= item->gm_lv_trade_override));
}
int itemdb_isrestricted(struct item* item, int gmlv, int gmlv2, int (*func)(struct item_data*, int, int))
{
struct item_data* item_data = itemdb_search(item->nameid);
int i;
if (!func(item_data, gmlv, gmlv2))
return 0;
if(item_data->slot == 0 || itemdb_isspecial(item->card[0]))
return 1;
for(i = 0; i < item_data->slot; i++) {
if (!item->card[i]) continue;
if (!func(itemdb_search(item->card[i]), gmlv, gmlv2))
return 0;
}
return 1;
}
/*==========================================
* Specifies if item-type should drop unidentified.
*------------------------------------------*/
int itemdb_isidentified(int nameid)
{
int type=itemdb_type(nameid);
switch (type) {
case IT_WEAPON:
case IT_ARMOR:
case IT_PETARMOR:
return 0;
default:
return 1;
}
}
/*==========================================
* �A�C�e���g�p�\�t���O�̃I�[�o�[���C�h
*------------------------------------------*/
static bool itemdb_read_itemavail(char* str[], int columns, int current)
{// <nameid>,<sprite>
int nameid, sprite;
struct item_data *id;
nameid = atoi(str[0]);
if( ( id = itemdb_exists(nameid) ) == NULL )
{
ShowWarning("itemdb_read_itemavail: Invalid item id %d.\n", nameid);
return false;
}
sprite = atoi(str[1]);
if( sprite > 0 )
{
id->flag.available = 1;
id->view_id = sprite;
}
else
{
id->flag.available = 0;
}
return true;
}
/*==========================================
* read item group data
*------------------------------------------*/
static void itemdb_read_itemgroup_sub(const char* filename)
{
FILE *fp;
char line[1024];
int ln=0;
int groupid,j,k,nameid;
char *str[3],*p;
char w1[1024], w2[1024];
if( (fp=fopen(filename,"r"))==NULL ){
ShowError("can't read %s\n", filename);
return;
}
while(fgets(line, sizeof(line), fp))
{
ln++;
if(line[0]=='/' && line[1]=='/')
continue;
if(strstr(line,"import")) {
if (sscanf(line, "%[^:]: %[^\r\n]", w1, w2) == 2 &&
strcmpi(w1, "import") == 0) {
itemdb_read_itemgroup_sub(w2);
continue;
}
}
memset(str,0,sizeof(str));
for(j=0,p=line;j<3 && p;j++){
str[j]=p;
p=strchr(p,',');
if(p) *p++=0;
}
if(str[0]==NULL)
continue;
if (j<3) {
if (j>1) //Or else it barks on blank lines...
ShowWarning("itemdb_read_itemgroup: Insufficient fields for entry at %s:%d\n", filename, ln);
continue;
}
groupid = atoi(str[0]);
if (groupid < 0 || groupid >= MAX_ITEMGROUP) {
ShowWarning("itemdb_read_itemgroup: Invalid group %d in %s:%d\n", groupid, filename, ln);
continue;
}
nameid = atoi(str[1]);
if (!itemdb_exists(nameid)) {
ShowWarning("itemdb_read_itemgroup: Non-existant item %d in %s:%d\n", nameid, filename, ln);
continue;
}
k = atoi(str[2]);
if (itemgroup_db[groupid].qty+k >= MAX_RANDITEM) {
ShowWarning("itemdb_read_itemgroup: Group %d is full (%d entries) in %s:%d\n", groupid, MAX_RANDITEM, filename, ln);
continue;
}
for(j=0;j<k;j++)
itemgroup_db[groupid].nameid[itemgroup_db[groupid].qty++] = nameid;
}
fclose(fp);
return;
}
static void itemdb_read_itemgroup(void)
{
char path[256];
snprintf(path, 255, "%s/item_group_db.txt", db_path);
memset(&itemgroup_db, 0, sizeof(itemgroup_db));
itemdb_read_itemgroup_sub(path);
ShowStatus("Done reading '"CL_WHITE"%s"CL_RESET"'.\n", "item_group_db.txt");
return;
}
/*==========================================
* ���������t�@�C���ǂݏo��
*------------------------------------------*/
static bool itemdb_read_noequip(char* str[], int columns, int current)
{// <nameid>,<mode>
int nameid;
struct item_data *id;
nameid = atoi(str[0]);
if( ( id = itemdb_exists(nameid) ) == NULL )
{
ShowWarning("itemdb_read_noequip: Invalid item id %d.\n", nameid);
return false;
}
id->flag.no_equip |= atoi(str[1]);
return true;
}
/*==========================================
* Reads item trade restrictions [Skotlex]
*------------------------------------------*/
static bool itemdb_read_itemtrade(char* str[], int columns, int current)
{// <nameid>,<mask>,<gm level>
int nameid, flag, gmlv;
struct item_data *id;
nameid = atoi(str[0]);
if( ( id = itemdb_exists(nameid) ) == NULL )
{
//ShowWarning("itemdb_read_itemtrade: Invalid item id %d.\n", nameid);
//return false;
// FIXME: item_trade.txt contains items, which are commented in item database.
return true;
}
flag = atoi(str[1]);
gmlv = atoi(str[2]);
if( flag < 0 || flag >= 128 )
{//Check range
ShowWarning("itemdb_read_itemtrade: Invalid trading mask %d for item id %d.\n", flag, nameid);
return false;
}
if( gmlv < 1 )
{
ShowWarning("itemdb_read_itemtrade: Invalid override GM level %d for item id %d.\n", gmlv, nameid);
return false;
}
id->flag.trade_restriction = flag;
id->gm_lv_trade_override = gmlv;
return true;
}
/*==========================================
* Reads item delay amounts [Paradox924X]
*------------------------------------------*/
static bool itemdb_read_itemdelay(char* str[], int columns, int current)
{// <nameid>,<delay>
int nameid, delay;
struct item_data *id;
nameid = atoi(str[0]);
if( ( id = itemdb_exists(nameid) ) == NULL )
{
ShowWarning("itemdb_read_itemdelay: Invalid item id %d.\n", nameid);
return false;
}
delay = atoi(str[1]);
if( delay < 0 )
{
ShowWarning("itemdb_read_itemdelay: Invalid delay %d for item id %d.\n", id->delay, nameid);
return false;
}
id->delay = delay;
return true;
}
/// Reads items allowed to be sold in buying stores
static bool itemdb_read_buyingstore(char* fields[], int columns, int current)
{// <nameid>
int nameid;
struct item_data* id;
nameid = atoi(fields[0]);
if( ( id = itemdb_exists(nameid) ) == NULL )
{
ShowWarning("itemdb_read_buyingstore: Invalid item id %d.\n", nameid);
return false;
}
if( !itemdb_isstackable2(id) )
{
ShowWarning("itemdb_read_buyingstore: Non-stackable item id %d cannot be enabled for buying store.\n", nameid);
return false;
}
id->flag.buyingstore = true;
return true;
}
/*======================================
* Applies gender restrictions according to settings. [Skotlex]
*======================================*/
static int itemdb_gendercheck(struct item_data *id)
{
if (id->nameid == WEDDING_RING_M) //Grom Ring
return 1;
if (id->nameid == WEDDING_RING_F) //Bride Ring
return 0;
if (id->look == W_MUSICAL && id->type == IT_WEAPON) //Musical instruments are always male-only
return 1;
if (id->look == W_WHIP && id->type == IT_WEAPON) //Whips are always female-only
return 0;
return (battle_config.ignore_items_gender) ? 2 : id->sex;
}
/**
* [RRInd]
* For backwards compatibility, in Renewal mode, MATK from weapons comes from the atk slot
* We use a ':' delimiter which, if not found, assumes the weapon does not provide any matk.
**/
void itemdb_rr_split_atoi(char *str, int *atk, int *matk) {
int i, val[2];
for (i=0; i<2; i++) {
if (!str) break;
val[i] = atoi(str);
str = strchr(str,':');
if (str)
*str++=0;
}
if( i == 0 ) {
*atk = *matk = 0;
return;//no data found
}
if( i == 1 ) {//Single Value, we assume it's the ATK
*atk = val[0];
*matk = 0;
return;
}
//We assume we have 2 values.
*atk = val[0];
*matk = val[1];
return;
}
/*==========================================
* processes one itemdb entry
*------------------------------------------*/
static bool itemdb_parse_dbrow(char** str, const char* source, int line, int scriptopt)
{
/*
+----+--------------+---------------+------+-----------+------------+--------+--------+---------+-------+-------+------------+-------------+---------------+-----------------+--------------+-------------+------------+------+--------+--------------+----------------+
| 00 | 01 | 02 | 03 | 04 | 05 | 06 | 07 | 08 | 09 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
+----+--------------+---------------+------+-----------+------------+--------+--------+---------+-------+-------+------------+-------------+---------------+-----------------+--------------+-------------+------------+------+--------+--------------+----------------+
| id | name_english | name_japanese | type | price_buy | price_sell | weight | attack | defence | range | slots | equip_jobs | equip_upper | equip_genders | equip_locations | weapon_level | equip_level | refineable | view | script | equip_script | unequip_script |
+----+--------------+---------------+------+-----------+------------+--------+--------+---------+-------+-------+------------+-------------+---------------+-----------------+--------------+-------------+------------+------+--------+--------------+----------------+
*/
int nameid;
struct item_data* id;
nameid = atoi(str[0]);
if( nameid <= 0 )
{
ShowWarning("itemdb_parse_dbrow: Invalid id %d in line %d of \"%s\", skipping.\n", nameid, line, source);
return false;
}
//ID,Name,Jname,Type,Price,Sell,Weight,ATK,DEF,Range,Slot,Job,Job Upper,Gender,Loc,wLV,eLV,refineable,View
id = itemdb_load(nameid);
safestrncpy(id->name, str[1], sizeof(id->name));
safestrncpy(id->jname, str[2], sizeof(id->jname));
id->type = atoi(str[3]);
if( id->type < 0 || id->type == IT_UNKNOWN || id->type == IT_UNKNOWN2 || ( id->type > IT_THROWWEAPON && id->type < IT_CASH ) || id->type >= IT_MAX )
{// catch invalid item types
ShowWarning("itemdb_parse_dbrow: Invalid item type %d for item %d. IT_ETC will be used.\n", id->type, nameid);
id->type = IT_ETC;
}
if (id->type == IT_DELAYCONSUME)
{ //Items that are consumed only after target confirmation
id->type = IT_USABLE;
id->flag.delay_consume = 1;
} else //In case of an itemdb reload and the item type changed.
id->flag.delay_consume = 0;
//When a particular price is not given, we should base it off the other one
//(it is important to make a distinction between 'no price' and 0z)
if ( str[4][0] )
id->value_buy = atoi(str[4]);
else
id->value_buy = atoi(str[5]) * 2;
if ( str[5][0] )
id->value_sell = atoi(str[5]);
else
id->value_sell = id->value_buy / 2;
/*
if ( !str[4][0] && !str[5][0])
{
ShowWarning("itemdb_parse_dbrow: No buying/selling price defined for item %d (%s), using 20/10z\n", nameid, id->jname);
id->value_buy = 20;
id->value_sell = 10;
} else
*/
if (id->value_buy/124. < id->value_sell/75.)
ShowWarning("itemdb_parse_dbrow: Buying/Selling [%d/%d] price of item %d (%s) allows Zeny making exploit through buying/selling at discounted/overcharged prices!\n",
id->value_buy, id->value_sell, nameid, id->jname);
id->weight = atoi(str[6]);
#if RRMODE
itemdb_rr_split_atoi(str[7],&id->atk,&id->matk);
#else
id->atk = atoi(str[7]);
#endif
id->def = atoi(str[8]);
id->range = atoi(str[9]);
id->slot = atoi(str[10]);
if (id->slot > MAX_SLOTS)
{
ShowWarning("itemdb_parse_dbrow: Item %d (%s) specifies %d slots, but the server only supports up to %d. Using %d slots.\n", nameid, id->jname, id->slot, MAX_SLOTS, MAX_SLOTS);
id->slot = MAX_SLOTS;
}
itemdb_jobid2mapid(id->class_base, (unsigned int)strtoul(str[11],NULL,0));
id->class_upper = atoi(str[12]);
id->sex = atoi(str[13]);
id->equip = atoi(str[14]);
if (!id->equip && itemdb_isequip2(id))
{
ShowWarning("Item %d (%s) is an equipment with no equip-field! Making it an etc item.\n", nameid, id->jname);
id->type = IT_ETC;
}
id->wlv = atoi(str[15]);
id->elv = atoi(str[16]);
id->flag.no_refine = atoi(str[17]) ? 0 : 1; //FIXME: verify this
id->look = atoi(str[18]);
id->flag.available = 1;
id->view_id = 0;
id->sex = itemdb_gendercheck(id); //Apply gender filtering.
if (id->script)
{
script_free_code(id->script);
id->script = NULL;
}
if (id->equip_script)
{
script_free_code(id->equip_script);
id->equip_script = NULL;
}
if (id->unequip_script)
{
script_free_code(id->unequip_script);
id->unequip_script = NULL;
}
if (*str[19])
id->script = parse_script(str[19], source, line, scriptopt);
if (*str[20])
id->equip_script = parse_script(str[20], source, line, scriptopt);
if (*str[21])
id->unequip_script = parse_script(str[21], source, line, scriptopt);
return true;
}
/*==========================================
* �A�C�e���f�[�^�x�[�X�̓ǂݍ���
*------------------------------------------*/
static int itemdb_readdb(void)
{
/**
* ro-resources inheritance: item_db -> item_db_re -> item_db2 (user customs)
**/
#if RRMODE
const char* filename[] = { "item_db.txt","item_db_re.txt","item_db2.txt" };
#else
const char* filename[] = { "item_db.txt","item_db2.txt" };
#endif
int fi;
for( fi = 0; fi < ARRAYLENGTH(filename); ++fi )
{
uint32 lines = 0, count = 0;
char line[1024];
char path[256];
FILE* fp;
sprintf(path, "%s/%s", db_path, filename[fi]);
fp = fopen(path, "r");
if( fp == NULL )
{
ShowWarning("itemdb_readdb: File not found \"%s\", skipping.\n", path);
continue;
}
// process rows one by one
while(fgets(line, sizeof(line), fp))
{
char *str[32], *p;
int i;
lines++;
if(line[0] == '/' && line[1] == '/')
continue;
memset(str, 0, sizeof(str));
p = line;
while( ISSPACE(*p) )
++p;
if( *p == '\0' )
continue;// empty line
for( i = 0; i < 19; ++i )
{
str[i] = p;
p = strchr(p,',');
if( p == NULL )
break;// comma not found
*p = '\0';
++p;
}
if( p == NULL )
{
ShowError("itemdb_readdb: Insufficient columns in line %d of \"%s\" (item with id %d), skipping.\n", lines, path, atoi(str[0]));
continue;
}
// Script
if( *p != '{' )
{
ShowError("itemdb_readdb: Invalid format (Script column) in line %d of \"%s\" (item with id %d), skipping.\n", lines, path, atoi(str[0]));
continue;
}
str[19] = p;
p = strstr(p+1,"},");
if( p == NULL )
{
ShowError("itemdb_readdb: Invalid format (Script column) in line %d of \"%s\" (item with id %d), skipping.\n", lines, path, atoi(str[0]));
continue;
}
p[1] = '\0';
p += 2;
// OnEquip_Script
if( *p != '{' )
{
ShowError("itemdb_readdb: Invalid format (OnEquip_Script column) in line %d of \"%s\" (item with id %d), skipping.\n", lines, path, atoi(str[0]));
continue;
}
str[20] = p;
p = strstr(p+1,"},");
if( p == NULL )
{
ShowError("itemdb_readdb: Invalid format (OnEquip_Script column) in line %d of \"%s\" (item with id %d), skipping.\n", lines, path, atoi(str[0]));
continue;
}
p[1] = '\0';
p += 2;
// OnUnequip_Script (last column)
if( *p != '{' )
{
ShowError("itemdb_readdb: Invalid format (OnUnequip_Script column) in line %d of \"%s\" (item with id %d), skipping.\n", lines, path, atoi(str[0]));
continue;
}
str[21] = p;
if (!itemdb_parse_dbrow(str, path, lines, 0))
continue;
count++;
}
fclose(fp);
ShowStatus("Done reading '"CL_WHITE"%lu"CL_RESET"' entries in '"CL_WHITE"%s"CL_RESET"'.\n", count, filename[fi]);
}
return 0;
}
#ifndef TXT_ONLY
/*======================================
* item_db table reading
*======================================*/
static int itemdb_read_sqldb(void)
{
#if RRMODE
const char* item_db_name[] = { item_db_db, item_db_re_db, item_db2_db };
#else
const char* item_db_name[] = { item_db_db, item_db2_db };
#endif
int fi;
for( fi = 0; fi < ARRAYLENGTH(item_db_name); ++fi )
{
uint32 lines = 0, count = 0;
// retrieve all rows from the item database
if( SQL_ERROR == Sql_Query(mmysql_handle, "SELECT * FROM `%s`", item_db_name[fi]) )
{
Sql_ShowDebug(mmysql_handle);
continue;
}
// process rows one by one
while( SQL_SUCCESS == Sql_NextRow(mmysql_handle) )
{// wrap the result into a TXT-compatible format
char* str[22];
char* dummy = "";
int i;
++lines;
for( i = 0; i < 22; ++i )
{
Sql_GetData(mmysql_handle, i, &str[i], NULL);
if( str[i] == NULL ) str[i] = dummy; // get rid of NULL columns
}
if (!itemdb_parse_dbrow(str, item_db_name[fi], lines, SCRIPT_IGNORE_EXTERNAL_BRACKETS))
continue;
++count;
}
// free the query result
Sql_FreeResult(mmysql_handle);
ShowStatus("Done reading '"CL_WHITE"%lu"CL_RESET"' entries in '"CL_WHITE"%s"CL_RESET"'.\n", count, item_db_name[fi]);
}
return 0;
}
#endif /* not TXT_ONLY */
/*====================================
* read all item-related databases
*------------------------------------*/
static void itemdb_read(void)
{
#ifndef TXT_ONLY
if (db_use_sqldbs)
itemdb_read_sqldb();
else
#endif
itemdb_readdb();
itemdb_read_itemgroup();
sv_readdb(db_path, "item_avail.txt", ',', 2, 2, -1, &itemdb_read_itemavail);
sv_readdb(db_path, "item_noequip.txt", ',', 2, 2, -1, &itemdb_read_noequip);
sv_readdb(db_path, "item_trade.txt", ',', 3, 3, -1, &itemdb_read_itemtrade);
sv_readdb(db_path, "item_delay.txt", ',', 2, 2, MAX_ITEMDELAYS, &itemdb_read_itemdelay);
sv_readdb(db_path, "item_buyingstore.txt", ',', 1, 1, -1, &itemdb_read_buyingstore);
}
/*==========================================
* Initialize / Finalize
*------------------------------------------*/
/// Destroys the item_data.
static void destroy_item_data(struct item_data* self, int free_self)
{
if( self == NULL )
return;
// free scripts
if( self->script )
script_free_code(self->script);
if( self->equip_script )
script_free_code(self->equip_script);
if( self->unequip_script )
script_free_code(self->unequip_script);
#if defined(DEBUG)
// trash item
memset(self, 0xDD, sizeof(struct item_data));
#endif
// free self
if( free_self )
aFree(self);
}
static int itemdb_final_sub(DBKey key,void *data,va_list ap)
{
struct item_data *id = (struct item_data *)data;
if( id != &dummy_item )
destroy_item_data(id, 1);
return 0;
}
void itemdb_reload(void)
{
struct s_mapiterator* iter;
struct map_session_data* sd;
int i;
/**
* [Ind] The following fixes the @reloaditemdb issue that'd clear the mob-dropped data (which is populated by mob_db stuff)
* - It saves the data before it is refreshed in this array, and quickly re-populates it with this same data after refresh is done.
**/
struct {
struct {
unsigned short chance;
int id;
} mob[MAX_SEARCH];
} temporaryMonsterDrop[MAX_ITEMDB];
// [Ind] capture the existent temporaryMonsterDrop data
for( i = 0; i < ARRAYLENGTH(itemdb_array); ++i )
if( itemdb_array[i] )
memcpy(&temporaryMonsterDrop[i].mob, &itemdb_array[i]->mob, sizeof(itemdb_array[i]->mob));
// clear the previous itemdb data
for( i = 0; i < ARRAYLENGTH(itemdb_array); ++i )
if( itemdb_array[i] )
destroy_item_data(itemdb_array[i], 1);
itemdb_other->clear(itemdb_other, itemdb_final_sub);
memset(itemdb_array, 0, sizeof(itemdb_array));
// read new data
itemdb_read();
// [Ind] re-populate the temporaryMonsterDrop data
for( i = 0; i < ARRAYLENGTH(itemdb_array); ++i )
if( itemdb_array[i] )
memcpy(&itemdb_array[i]->mob, &temporaryMonsterDrop[i].mob, sizeof(temporaryMonsterDrop[i].mob));
// readjust itemdb pointer cache for each player
iter = mapit_geteachpc();
for( sd = (struct map_session_data*)mapit_first(iter); mapit_exists(iter); sd = (struct map_session_data*)mapit_next(iter) )
{
memset(sd->item_delay, 0, sizeof(sd->item_delay)); // reset item delays
pc_setinventorydata(sd);
}
mapit_free(iter);
}
void do_final_itemdb(void)
{
int i;
for( i = 0; i < ARRAYLENGTH(itemdb_array); ++i )
if( itemdb_array[i] )
destroy_item_data(itemdb_array[i], 1);
itemdb_other->destroy(itemdb_other, itemdb_final_sub);
destroy_item_data(&dummy_item, 0);
}
int do_init_itemdb(void)
{
memset(itemdb_array, 0, sizeof(itemdb_array));
itemdb_other = idb_alloc(DB_OPT_BASE);
create_dummy_data(); //Dummy data item.
itemdb_read();
return 0;
}