/* $Id$ */
/*
* This file is part of OpenTTD.
* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2.
* OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see .
*/
/** @file map_sl.cpp Code handling saving and loading of map */
#include "../stdafx.h"
#include "../map_func.h"
#include "../core/bitmath_func.hpp"
#include "../core/endian_func.hpp"
#include "../core/endian_type.hpp"
#include "../fios.h"
#include
#include "saveload.h"
#include "saveload_buffer.h"
#include "../safeguards.h"
static uint32 _map_dim_x;
static uint32 _map_dim_y;
static const SaveLoadGlobVarList _map_dimensions[] = {
SLEG_CONDVAR(_map_dim_x, SLE_UINT32, SLV_6, SL_MAX_VERSION),
SLEG_CONDVAR(_map_dim_y, SLE_UINT32, SLV_6, SL_MAX_VERSION),
SLEG_END()
};
static void Save_MAPS()
{
_map_dim_x = MapSizeX();
_map_dim_y = MapSizeY();
SlGlobList(_map_dimensions);
}
static void Load_MAPS()
{
SlGlobList(_map_dimensions);
if (!ValidateMapSize(_map_dim_x, _map_dim_y)) {
SlErrorCorruptFmt("Invalid map size: %u x %u", _map_dim_x, _map_dim_y);
}
AllocateMap(_map_dim_x, _map_dim_y);
}
static void Check_MAPS()
{
SlGlobList(_map_dimensions);
_load_check_data.map_size_x = _map_dim_x;
_load_check_data.map_size_y = _map_dim_y;
}
static const uint MAP_SL_BUF_SIZE = 4096;
static void Load_MAPT()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].type = buf[j];
}
}
static void Load_MAPH()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].height = buf[j];
}
}
static void Load_MAP1()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].m1 = buf[j];
}
}
static void Load_MAP2()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE,
/* In those versions the m2 was 8 bits */
IsSavegameVersionBefore(SLV_5) ? SLE_FILE_U8 | SLE_VAR_U16 : SLE_UINT16
);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].m2 = buf[j];
}
}
static void Load_MAP3()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].m3 = buf[j];
}
}
static void Load_MAP4()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].m4 = buf[j];
}
}
static void Load_MAP5()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _m[i++].m5 = buf[j];
}
}
static void Load_MAP6()
{
std::array buf;
TileIndex size = MapSize();
if (IsSavegameVersionBefore(SLV_42)) {
for (TileIndex i = 0; i != size;) {
/* 1024, otherwise we overflow on 64x64 maps! */
SlArray(buf.data(), 1024, SLE_UINT8);
for (uint j = 0; j != 1024; j++) {
_me[i++].m6 = GB(buf[j], 0, 2);
_me[i++].m6 = GB(buf[j], 2, 2);
_me[i++].m6 = GB(buf[j], 4, 2);
_me[i++].m6 = GB(buf[j], 6, 2);
}
}
} else {
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _me[i++].m6 = buf[j];
}
}
}
static void Load_MAP7()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT8);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _me[i++].m7 = buf[j];
}
}
static void Load_MAP8()
{
std::array buf;
TileIndex size = MapSize();
for (TileIndex i = 0; i != size;) {
SlArray(buf.data(), MAP_SL_BUF_SIZE, SLE_UINT16);
for (uint j = 0; j != MAP_SL_BUF_SIZE; j++) _me[i++].m8 = buf[j];
}
}
static void Load_WMAP()
{
assert_compile(sizeof(Tile) == 8);
assert_compile(sizeof(TileExtended) == 4);
assert(_sl_xv_feature_versions[XSLFI_WHOLE_MAP_CHUNK] == 1 || _sl_xv_feature_versions[XSLFI_WHOLE_MAP_CHUNK] == 2);
ReadBuffer *reader = ReadBuffer::GetCurrent();
const TileIndex size = MapSize();
#if TTD_ENDIAN == TTD_LITTLE_ENDIAN
reader->CopyBytes((byte *) _m, size * 8);
#else
for (TileIndex i = 0; i != size; i++) {
reader->CheckBytes(8);
_m[i].type = reader->RawReadByte();
_m[i].height = reader->RawReadByte();
uint16 m2 = reader->RawReadByte();
m2 |= ((uint16) reader->RawReadByte()) << 8;
_m[i].m2 = m2;
_m[i].m1 = reader->RawReadByte();
_m[i].m3 = reader->RawReadByte();
_m[i].m4 = reader->RawReadByte();
_m[i].m5 = reader->RawReadByte();
}
#endif
if (_sl_xv_feature_versions[XSLFI_WHOLE_MAP_CHUNK] == 1) {
for (TileIndex i = 0; i != size; i++) {
reader->CheckBytes(2);
_me[i].m6 = reader->RawReadByte();
_me[i].m7 = reader->RawReadByte();
}
} else if (_sl_xv_feature_versions[XSLFI_WHOLE_MAP_CHUNK] == 2) {
#if TTD_ENDIAN == TTD_LITTLE_ENDIAN
reader->CopyBytes((byte *) _me, size * 4);
#else
for (TileIndex i = 0; i != size; i++) {
reader->CheckBytes(4);
_me[i].m6 = reader->RawReadByte();
_me[i].m7 = reader->RawReadByte();
uint16 m8 = reader->RawReadByte();
m8 |= ((uint16) reader->RawReadByte()) << 8;
_me[i].m8 = m8;
}
#endif
} else {
NOT_REACHED();
}
}
static void Save_WMAP()
{
assert_compile(sizeof(Tile) == 8);
assert_compile(sizeof(TileExtended) == 4);
assert(_sl_xv_feature_versions[XSLFI_WHOLE_MAP_CHUNK] == 2);
MemoryDumper *dumper = MemoryDumper::GetCurrent();
const TileIndex size = MapSize();
SlSetLength(size * 12);
#if TTD_ENDIAN == TTD_LITTLE_ENDIAN
dumper->CopyBytes((byte *) _m, size * 8);
dumper->CopyBytes((byte *) _me, size * 4);
#else
for (TileIndex i = 0; i != size; i++) {
dumper->CheckBytes(8);
dumper->RawWriteByte(_m[i].type);
dumper->RawWriteByte(_m[i].height);
dumper->RawWriteByte(GB(_m[i].m2, 0, 8));
dumper->RawWriteByte(GB(_m[i].m2, 8, 8));
dumper->RawWriteByte(_m[i].m1);
dumper->RawWriteByte(_m[i].m3);
dumper->RawWriteByte(_m[i].m4);
dumper->RawWriteByte(_m[i].m5);
}
for (TileIndex i = 0; i != size; i++) {
dumper->CheckBytes(4);
dumper->RawWriteByte(_me[i].m6);
dumper->RawWriteByte(_me[i].m7);
dumper->RawWriteByte(GB(_me[i].m8, 0, 8));
dumper->RawWriteByte(GB(_me[i].m8, 8, 8));
}
#endif
}
extern const ChunkHandler _map_chunk_handlers[] = {
{ 'MAPS', Save_MAPS, Load_MAPS, nullptr, Check_MAPS, CH_RIFF },
{ 'MAPT', nullptr, Load_MAPT, nullptr, nullptr, CH_RIFF },
{ 'MAPH', nullptr, Load_MAPH, nullptr, nullptr, CH_RIFF },
{ 'MAPO', nullptr, Load_MAP1, nullptr, nullptr, CH_RIFF },
{ 'MAP2', nullptr, Load_MAP2, nullptr, nullptr, CH_RIFF },
{ 'M3LO', nullptr, Load_MAP3, nullptr, nullptr, CH_RIFF },
{ 'M3HI', nullptr, Load_MAP4, nullptr, nullptr, CH_RIFF },
{ 'MAP5', nullptr, Load_MAP5, nullptr, nullptr, CH_RIFF },
{ 'MAPE', nullptr, Load_MAP6, nullptr, nullptr, CH_RIFF },
{ 'MAP7', nullptr, Load_MAP7, nullptr, nullptr, CH_RIFF },
{ 'MAP8', nullptr, Load_MAP8, nullptr, nullptr, CH_RIFF },
{ 'WMAP', Save_WMAP, Load_WMAP, nullptr, nullptr, CH_RIFF | CH_LAST },
};