// Copyright (c) Copyright (c) Hercules Dev Team, licensed under GNU GPL.
// Copyright (c) 2014 - 2015 Evol developers
#include "common/hercules.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "common/db.h"
#include "common/HPMi.h"
#include "common/memmgr.h"
#include "common/mmo.h"
#include "common/nullpo.h"
#include "common/socket.h"
#include "common/strlib.h"
#include "common/timer.h"
#include "map/battle.h"
#include "map/itemdb.h"
#include "map/map.h"
#include "map/npc.h"
#include "map/pc.h"
#include "emap/permission.h"
#include "emap/send.h"
#include "emap/data/itemd.h"
#include "emap/data/mapd.h"
#include "emap/data/mobd.h"
#include "emap/data/npcd.h"
#include "emap/data/session.h"
#include "emap/struct/itemdext.h"
#include "emap/struct/mapdext.h"
#include "emap/struct/mobdext.h"
#include "emap/struct/npcdext.h"
#include "emap/struct/sessionext.h"
#include "emap/struct/walldata2.h"
struct mapcell2
{
// terrain flags
unsigned char
walkable : 1,
shootable : 1,
water : 1;
// dynamic flags
unsigned char
npc : 1,
basilica : 1,
landprotector : 1,
novending : 1,
nochat : 1,
icewall : 1,
noicewall : 1,
wall : 1,
air : 1;
#ifdef CELL_NOSTACK
int cell_bl; //Holds amount of bls in this cell.
#endif
};
int emap_addflooritem_post(int retVal,
const struct block_list *bl,
struct item *item,
int *amount __attribute__ ((unused)),
int16 *m __attribute__ ((unused)),
int16 *x __attribute__ ((unused)),
int16 *y __attribute__ ((unused)),
int *first_charid __attribute__ ((unused)),
int *second_charid __attribute__ ((unused)),
int *third_charid __attribute__ ((unused)),
int *flags __attribute__ ((unused)))
{
TBL_ITEM* fitem = (TBL_ITEM*)idb_get(map->id_db, retVal);
if (fitem)
{
if (fitem->cleartimer != INVALID_TIMER)
{
int timeout = battle->bc->flooritem_lifetime;
struct ItemdExt *data = itemd_get_by_item(item);
if (data)
timeout = data->floorLifeTime;
timer->delete(fitem->cleartimer, map->clearflooritem_timer);
if (timeout >= 0)
fitem->cleartimer = timer->add(timer->gettick() + timeout, map->clearflooritem_timer, fitem->bl.id, 0);
}
}
return retVal;
}
void emap_online_list(int fd)
{
char *buf = aCalloc (1, 20000);
char *ptr = buf;
TBL_PC* sd;
struct SessionExt *data1 = session_get(fd);
if (!data1)
{
aFree(buf);
return;
}
const time_t t = time(NULL);
if (data1->onlinelistlasttime + 15 >= t)
{ // not more than 1 per 15 seconds
data1->onlinelistlasttime = t;
aFree(buf);
return;
}
TBL_PC* ssd = (TBL_PC*)sockt->session[fd]->session_data;
if (!ssd)
{
aFree(buf);
return;
}
const bool showVersion = pc_has_permission(ssd, permission_show_client_version_flag);
const int gpoupLevel = pc_get_group_level(ssd);
data1->onlinelistlasttime = t;
struct DBIterator* iter = db_iterator(map->pc_db);
for (sd = dbi_first(iter); dbi_exists(iter); sd = dbi_next(iter))
{
if (!sd)
continue;
if (ptr - buf > 19500)
break;
if (pc_isinvisible(sd) && gpoupLevel < pc_get_group_level(sd))
continue;
struct SessionExt *data = session_get_bysd(sd);
if (!data)
continue;
uint8 state = data->state;
if (sd->status.sex == 1)
state |= 128;
else
state = (state | 128) ^ 128;
if (pc_has_permission(sd, permission_send_gm_flag))
state |= 64;
else
state = (state | 64) ^ 64;
*ptr = state;
ptr ++;
*ptr = sd->status.base_level;
ptr ++;
if (showVersion)
*ptr = data->clientVersion;
else
*ptr = 0;
ptr ++;
strcpy(ptr, sd->status.name);
ptr += strlen(sd->status.name);
*ptr = 0;
ptr ++;
}
dbi_destroy(iter);
send_online_list(fd, buf, ptr - buf);
aFree(buf);
}
// walk mask
// 0000 0x0 - normal
// 0001 0x1 - wall walk
// 0010 0x2 - water walk
// 0100 0x4 - air walk
static int getWalkMask(const struct block_list *bl)
{
int walkMask = 0;
if (!bl)
return 0;
if (bl->type == BL_NPC)
{
TBL_NPC *nd = (TBL_NPC *)bl;
struct NpcdExt *ext = npcd_get(nd);
if (ext)
walkMask = ext->walkMask;
}
else if (bl->type == BL_MOB)
{
TBL_MOB *md = (TBL_MOB *)bl;
struct MobdExt *ext = mobd_get_by_mob(md);
if (ext)
walkMask = ext->walkMask;
}
return walkMask;
}
static bool isWalkCell(const struct block_list *bl, struct mapcell2 cell)
{
if (cell.walkable)
return true;
const int walkMask = getWalkMask(bl);
// water check
if (cell.water && walkMask & 0x2)
return true;
// air check
if ((cell.air || cell.water) && walkMask & 0x4)
return true;
// wall check
if (cell.wall && walkMask & 0x1)
return true;
// other checks
return false;
}
static bool isWallCell(const struct block_list *bl, struct mapcell2 cell)
{
if (cell.walkable || cell.shootable)
return false;
const int walkMask = getWalkMask(bl);
// water check
if (cell.water && walkMask & 0x2)
return false;
if ((cell.air || cell.water) && walkMask & 0x4)
return false;
// wall check
if (cell.wall && walkMask & 0x1)
return false;
return true;
}
#define strangeCast(type, val) *((type*)(&val))
int emap_getcellp(struct map_data* m,
const struct block_list *bl,
int16 *xPtr, int16 *yPtr,
cell_chk *cellchkPtr)
{
if (bl && m)
{
const int x = *xPtr;
const int y = *yPtr;
const cell_chk cellchk = *cellchkPtr;
if (x < 0 || x >= m->xs - 1 || y < 0 || y >= m->ys - 1)
return (cellchk == CELL_CHKNOPASS);
struct mapcell2 cell = strangeCast(struct mapcell2, m->cell[x + y * m->xs]);
if (cellchk == CELL_CHKWALL ||
cellchk == CELL_CHKPASS ||
cellchk == CELL_CHKREACH ||
cellchk == CELL_CHKNOPASS ||
cellchk == CELL_CHKNOREACH)
{
bool res;
switch (cellchk)
{
case CELL_CHKWALL:
res = isWallCell(bl, cell);
hookStop();
return res;
case CELL_CHKPASS:
case CELL_CHKREACH:
res = isWalkCell(bl, cell);
hookStop();
return res;
case CELL_CHKNOPASS:
case CELL_CHKNOREACH:
res = !isWalkCell(bl, cell);
hookStop();
return res;
case CELL_GETTYPE:
case CELL_CHKWATER:
case CELL_CHKCLIFF:
case CELL_CHKSTACK:
case CELL_CHKNPC:
case CELL_CHKBASILICA:
case CELL_CHKLANDPROTECTOR:
case CELL_CHKNOVENDING:
case CELL_CHKNOCHAT:
case CELL_CHKICEWALL:
case CELL_CHKNOICEWALL:
break;
}
}
}
return 0;
}
struct mapcell emap_gat2cell(int *gatPtr)
{
struct mapcell2 cell;
const int gat = *gatPtr;
memset(&cell, 0, sizeof(struct mapcell));
switch (gat)
{
case 0: // walkable ground
cell.walkable = 1;
cell.shootable = 1;
cell.water = 0;
cell.air = 0;
cell.wall = 0;
break;
case 1: // wall
cell.walkable = 0;
cell.shootable = 0;
cell.water = 0;
cell.air = 0;
cell.wall = 1;
break;
case 2: // air allowed
cell.walkable = 0;
cell.shootable = 0;
cell.water = 0;
cell.air = 1;
cell.wall = 0;
break;
case 3: // unwalkable water
cell.walkable = 0;
cell.shootable = 1;
cell.water = 1;
cell.air = 0;
cell.wall = 0;
break;
case 4: // sit, walkable ground
cell.walkable = 1;
cell.shootable = 1;
cell.water = 0;
cell.air = 0;
cell.wall = 0;
break;
default:
ShowWarning("map_gat2cell: unrecognized gat type '%d'\n", gat);
break;
}
hookStop();
return strangeCast(struct mapcell, cell);
}
int emap_cell2gat(struct mapcell *cellPtr)
{
struct mapcell2 cell = *((struct mapcell2*)cellPtr);
hookStop();
if (cell.walkable == 1 && cell.shootable == 1 && cell.water == 0)
return 0;
if (cell.walkable == 0 && cell.shootable == 0 && cell.water == 0 && cell.air == 0)
return 1;
if (cell.walkable == 0 && cell.shootable == 0 && cell.water == 0 && cell.air == 1)
return 2;
if (cell.walkable == 0 && cell.shootable == 1 && cell.water == 1)
return 3;
ShowWarning("map_cell2gat: cell has no matching gat type\n");
return 1;
}
void emap_setgatcell2(int16 m, int16 x, int16 y, int gat)
{
int j;
if (m < 0 ||
m >= map->count ||
x < 0 ||
x >= map->list[m].xs ||
y < 0 ||
y >= map->list[m].ys)
{
return;
}
j = x + y * map->list[m].xs;
struct mapcell cell0 = map->gat2cell(gat);
struct mapcell2 *cell = (struct mapcell2 *)&cell0;
struct mapcell2 *cell2 = (struct mapcell2 *)&map->list[m].cell[j];
cell2->walkable = cell->walkable;
cell2->shootable = cell->shootable;
cell2->water = cell->water;
cell2->air = cell->air;
cell2->wall = cell->wall;
}
void emap_setgatcell(int16 *mPtr, int16 *xPtr, int16 *yPtr, int *gatPtr)
{
emap_setgatcell2(*mPtr, *xPtr, *yPtr, *gatPtr);
hookStop();
}
bool emap_iwall_set(int16 *m, int16 *x, int16 *y, int *size, int8 *dir, bool *shootable, const char* wall_name)
{
ShowError("Unsupported set wall function\n");
hookStop();
return false;
}
void emap_iwall_get(struct map_session_data *sd)
{
if (!sd || map->list[sd->bl.m].iwall_num < 1)
{
hookStop();
return;
}
struct DBIterator* iter = db_iterator(map->iwall_db);
struct WallData *wall;
for (wall = dbi_first(iter); dbi_exists(iter); wall = dbi_next(iter))
{
if (wall->m != sd->bl.m)
continue;
send_setwall_single(sd->fd, wall->m, wall->layer, wall->x1, wall->y1 , wall->x2 , wall->y2 , wall->mask);
}
dbi_destroy(iter);
hookStop();
}
void emap_iwall_remove(const char *name)
{
struct WallData *wall;
if ((wall = (struct WallData *)strdb_get(map->iwall_db, name)) == NULL)
{
hookStop();
return; // Nothing to do
}
int x;
int y;
int mask = 0;
int x1 = wall->x1;
int y1 = wall->y1;
int x2 = wall->x2;
int y2 = wall->y2;
int m = wall->m;
int layer = wall->layer;
if (layer == 0)
{
for (y = y1; y <= y2; y ++)
{
for (x = x1; x <= x2; x ++)
emap_setgatcell2(m, x, y, mask); // default collision can be lost
}
}
send_setwall(m, layer, x1, y1, x2, y2, mask, ALL_SAMEMAP);
map->list[wall->m].iwall_num--;
strdb_remove(map->iwall_db, wall->name);
hookStop();
}
bool emap_iwall_set2(int m, int layer, int x1, int y1, int x2, int y2, int mask, const char *name)
{
struct WallData *wall;
if (!name)
return false;
if ((wall = (struct WallData *)strdb_get(map->iwall_db, name)) != NULL)
return false; // Already Exists
CREATE(wall, struct WallData, 1);
wall->m = m;
wall->x1 = x1;
wall->y1 = y1;
wall->x2 = x2;
wall->y2 = y2;
wall->mask = mask;
wall->layer = layer;
safestrncpy(wall->name, name, sizeof(wall->name));
int x;
int y;
for (y = y1; y <= y2; y ++)
{
for (x = x1; x <= x2; x ++)
emap_setgatcell2(m, x, y, mask);
}
send_setwall(m, layer, x1, y1, x2, y2, mask, ALL_SAMEMAP);
strdb_put(map->iwall_db, wall->name, wall);
map->list[m].iwall_num++;
return true;
}
void map_alwaysVisible_add(const struct block_list *bl)
{
if (!bl)
return;
struct MapdExt *data = mapd_get(bl->m);
if (!data)
return;
int f;
for (f = 0; f < VECTOR_LENGTH(data->npcs); f ++)
{
if (VECTOR_INDEX(data->npcs, f) == bl->id)
return;
}
VECTOR_ENSURE(data->npcs, 1, 1);
VECTOR_PUSH(data->npcs, bl->id);
}
bool map_alwaysVisible_find(const struct block_list *bl)
{
if (!bl)
return false;
struct MapdExt *data = mapd_get(bl->m);
if (!data)
return false;
int f;
for (f = 0; f < VECTOR_LENGTH(data->npcs); f ++)
{
if (VECTOR_INDEX(data->npcs, f) == bl->id)
return true;
}
return false;
}
void map_alwaysVisible_delete(const struct block_list *bl)
{
if (!bl)
return;
struct MapdExt *data = mapd_get(bl->m);
if (!data)
return;
int f;
for (f = 0; f < VECTOR_LENGTH(data->npcs); f ++)
{
if (VECTOR_INDEX(data->npcs, f) == bl->id)
{
VECTOR_ERASE(data->npcs, f);
return;
}
}
}
void map_alwaysVisible_send(TBL_PC *sd)
{
if (!sd)
return;
int f;
struct MapdExt *data = mapd_get(sd->bl.m);
if (!data)
return;
for (f = 0; f < VECTOR_LENGTH(data->npcs); f ++)
{
const int id = VECTOR_INDEX(data->npcs, f);
TBL_NPC *npc = map->id2nd(id);
clif->set_unit_idle(&npc->bl, sd, SELF);
clif->charnameack(sd->fd, &npc->bl);
}
}
void map_clear_data(void)
{
int f;
for (f = 0; f < map->count; f++)
{
struct MapdExt *data = mapd_get(f);
if (data)
VECTOR_CLEAR(data->npcs);
}
}
void edo_final_maps(void)
{
map_clear_data();
}