(svn r1696) Use GetTileSlope() instead of FindLandscapeHeightByTile() where it is sufficient. FindLandscapeHeightByTile() uses GetTileSlope() internally and adds some more info, which is discarded in these cases.
While touching the code make a bit more clear how GetBridgeHeight() works.
#include "stdafx.h"
#include "ttd.h"
#include "table/strings.h"
#include "map.h"
#include "vehicle.h"
#include "gfx.h"
#include "assert.h"
#include "saveload.h"
#include "network.h"
#include "network_data.h"
#include "network_server.h"
#include "engine.h"
extern void StartupEconomy(void);
extern void InitNewsItemStructs(void);
byte _name_array[512][32];
static inline uint32 ROR(uint32 x, int n)
{
return (x >> n) + (x << ((sizeof(x)*8)-n));
}
/* XXX - Player-seeds don't seem to be used anymore.. which is a good thing
so I just disabled them for now. If there are no problems, we can remove
it completely! -- TrueLight */
#undef PLAYER_SEED_RANDOM
#ifdef RANDOM_DEBUG
#include "network_data.h"
uint32 DoRandom(int line, const char *file)
#else
uint32 Random(void)
#endif
{
uint32 s;
uint32 t;
#ifdef RANDOM_DEBUG
if (_networking && (DEREF_CLIENT(0)->status != STATUS_INACTIVE || !_network_server))
printf("Random [%d/%d] %s:%d\n",_frame_counter, _current_player, file, line);
#endif
#ifdef PLAYER_SEED_RANDOM
if (_current_player>=MAX_PLAYERS || !_networking) {
s = _random_seeds[0][0];
t = _random_seeds[0][1];
_random_seeds[0][0] = s + ROR(t ^ 0x1234567F, 7);
return _random_seeds[0][1] = ROR(s, 3);
} else {
uint32 s = _player_seeds[_current_player][0];
uint32 t = _player_seeds[_current_player][1];
_player_seeds[_current_player][0] = s + ROR(t ^ 0x1234567F, 7);
DEBUG(net, 1)("[NET-Seeds] Player seed called!");
return _player_seeds[_current_player][1] = ROR(s, 3);
}
#else
s = _random_seeds[0][0];
t = _random_seeds[0][1];
_random_seeds[0][0] = s + ROR(t ^ 0x1234567F, 7);
return _random_seeds[0][1] = ROR(s, 3);
#endif
}
#ifdef RANDOM_DEBUG
uint DoRandomRange(uint max, int line, const char *file)
{
return (uint16)DoRandom(line, file) * max >> 16;
}
#else
uint RandomRange(uint max)
{
return (uint16)Random() * max >> 16;
}
#endif
uint32 InteractiveRandom(void)
{
uint32 t = _random_seeds[1][1];
uint32 s = _random_seeds[1][0];
_random_seeds[1][0] = s + ROR(t ^ 0x1234567F, 7);
return _random_seeds[1][1] = ROR(s, 3);
}
uint InteractiveRandomRange(uint max)
{
return (uint16)InteractiveRandom() * max >> 16;
}
void InitPlayerRandoms(void)
{
int i;
for (i=0; i<MAX_PLAYERS; i++) {
_player_seeds[i][0]=InteractiveRandom();
_player_seeds[i][1]=InteractiveRandom();
}
}
void SetDate(uint date)
{
YearMonthDay ymd;
ConvertDayToYMD(&ymd, _date = date);
_cur_year = ymd.year;
_cur_month = ymd.month;
#ifdef ENABLE_NETWORK
_network_last_advertise_date = 0;
#endif /* ENABLE_NETWORK */
}
// multi os compatible sleep function
#ifdef __AMIGA__
// usleep() implementation
# include <devices/timer.h>
# include <dos/dos.h>
extern struct Device *TimerBase = NULL;
extern struct MsgPort *TimerPort = NULL;
extern struct timerequest *TimerRequest = NULL;
#endif // __AMIGA__
void CSleep(int milliseconds)
{
#if defined(WIN32)
Sleep(milliseconds);
#endif
#if defined(UNIX)
#if !defined(__BEOS__) && !defined(__AMIGA__)
usleep(milliseconds * 1000);
#endif
#ifdef __BEOS__
snooze(milliseconds * 1000);
#endif
#if defined(__AMIGA__)
{
ULONG signals;
ULONG TimerSigBit = 1 << TimerPort->mp_SigBit;
// send IORequest
TimerRequest->tr_node.io_Command = TR_ADDREQUEST;
TimerRequest->tr_time.tv_secs = (milliseconds * 1000) / 1000000;
TimerRequest->tr_time.tv_micro = (milliseconds * 1000) % 1000000;
SendIO((struct IORequest *)TimerRequest);
if (!((signals = Wait(TimerSigBit | SIGBREAKF_CTRL_C)) & TimerSigBit) ) {
AbortIO((struct IORequest *)TimerRequest);
}
WaitIO((struct IORequest *)TimerRequest);
}
#endif // __AMIGA__
#endif
}
void InitializeVehicles(void);
void InitializeOrders(void);
void InitializeClearLand(void);
void InitializeRail(void);
void InitializeRailGui(void);
void InitializeRoad(void);
void InitializeRoadGui(void);
void InitializeAirportGui(void);
void InitializeDock(void);
void InitializeDockGui(void);
void InitializeIndustries(void);
void InitializeLandscape(void);
void InitializeTowns(void);
void InitializeTrees(void);
void InitializeSigns(void);
void InitializeStations(void);
static void InitializeNameMgr(void);
void InitializePlayers(void);
static void InitializeCheats(void);
void GenerateLandscape(void);
void GenerateClearTile(void);
void GenerateIndustries(void);
void GenerateUnmovables(void);
void GenerateTowns(void);
void StartupPlayers(void);
void StartupDisasters(void);
void GenerateTrees(void);
void ConvertGroundTilesIntoWaterTiles(void);
void InitializeGame(void)
{
// Initialize the autoreplace array. Needs to be cleared between each game
uint i;
for (i = 0; i < lengthof(_autoreplace_array); i++)
_autoreplace_array[i] = i;
_railtype_selected_in_replace_gui = 0;
AddTypeToEngines(); // make sure all engines have a type
SetObjectToPlace(1, 0, 0, 0);
_pause = 0;
_fast_forward = 0;
_tick_counter = 0;
_date_fract = 0;
_cur_tileloop_tile = 0;
_vehicle_id_ctr_day = 0;
{
uint starting = ConvertIntDate(_patches.starting_date);
if ( starting == (uint)-1) starting = 10958;
SetDate(starting);
}
InitializeVehicles();
InitializeOrders();
InitNewsItemStructs();
InitializeLandscape();
InitializeClearLand();
InitializeRail();
InitializeRailGui();
InitializeRoad();
InitializeRoadGui();
InitializeAirportGui();
InitializeDock();
InitializeDockGui();
InitializeTowns();
InitializeTrees();
InitializeSigns();
InitializeStations();
InitializeIndustries();
InitializeNameMgr();
InitializeVehiclesGuiList();
InitializeTrains();
InitializePlayers();
InitializeCheats();
InitTextEffects();
InitTextMessage();
InitializeAnimatedTiles();
InitializeLandscapeVariables(false);
ResetObjectToPlace();
}
void GenerateWorld(int mode)
{
int i;
// Make sure everything is done via OWNER_NONE
_current_player = OWNER_NONE;
_generating_world = true;
InitializeGame();
SetObjectToPlace(1, 0, 0, 0);
// Must start economy early because of the costs.
StartupEconomy();
// Don't generate landscape items when in the scenario editor.
if (mode == 1) {
// empty world in scenario editor
ConvertGroundTilesIntoWaterTiles();
} else {
GenerateLandscape();
GenerateClearTile();
// only generate towns, tree and industries in newgame mode.
if (mode == 0) {
GenerateTowns();
GenerateTrees();
GenerateIndustries();
GenerateUnmovables();
}
}
// These are probably pointless when inside the scenario editor.
StartupPlayers();
StartupEngines();
StartupDisasters();
_generating_world = false;
// No need to run the tile loop in the scenario editor.
if (mode != 1) {
for(i=0x500; i!=0; i--)
RunTileLoop();
}
ResetObjectToPlace();
}
void DeleteName(StringID id)
{
if ((id & 0xF800) == 0x7800) {
memset(_name_array[id & 0x1FF], 0, sizeof(_name_array[id & 0x1FF]));
}
}
byte *GetName(int id, byte *buff)
{
byte *b;
if (id & 0x600) {
if (id & 0x200) {
if (id & 0x400) {
GetParamInt32();
GetParamUint16();
} else {
GetParamUint16();
}
} else {
GetParamInt32();
}
}
b = _name_array[(id&~0x600)];
while ((*buff++ = *b++) != 0);
return buff - 1;
}
static void InitializeCheats(void)
{
memset(&_cheats, 0, sizeof(Cheats));
}
static void InitializeNameMgr(void)
{
memset(_name_array, 0, sizeof(_name_array));
}
StringID RealAllocateName(const byte *name, byte skip, bool check_double)
{
int free_item = -1;
const byte *names;
byte *dst;
int i;
names = &_name_array[0][0];
for(i=0; i!=512; i++,names+=sizeof(_name_array[0])) {
if (names[0] == 0) {
if (free_item == -1)
free_item = i;
} else {
if (check_double && str_eq(names, name)) {
_error_message = STR_0132_CHOSEN_NAME_IN_USE_ALREADY;
return 0;
}
}
}
if (free_item < 0) {
_error_message = STR_0131_TOO_MANY_NAMES_DEFINED;
return 0;
}
dst=_name_array[free_item];
for(i=0; (dst[i] = name[i]) != 0 && ++i != 32; ) {}
dst[31] = 0;
return free_item | 0x7800 | (skip << 8);
}
#define M(a,b) ((a<<5)|b)
static const uint16 _month_date_from_year_day[] = {
M(0,1),M(0,2),M(0,3),M(0,4),M(0,5),M(0,6),M(0,7),M(0,8),M(0,9),M(0,10),M(0,11),M(0,12),M(0,13),M(0,14),M(0,15),M(0,16),M(0,17),M(0,18),M(0,19),M(0,20),M(0,21),M(0,22),M(0,23),M(0,24),M(0,25),M(0,26),M(0,27),M(0,28),M(0,29),M(0,30),M(0,31),
M(1,1),M(1,2),M(1,3),M(1,4),M(1,5),M(1,6),M(1,7),M(1,8),M(1,9),M(1,10),M(1,11),M(1,12),M(1,13),M(1,14),M(1,15),M(1,16),M(1,17),M(1,18),M(1,19),M(1,20),M(1,21),M(1,22),M(1,23),M(1,24),M(1,25),M(1,26),M(1,27),M(1,28),M(1,29),
M(2,1),M(2,2),M(2,3),M(2,4),M(2,5),M(2,6),M(2,7),M(2,8),M(2,9),M(2,10),M(2,11),M(2,12),M(2,13),M(2,14),M(2,15),M(2,16),M(2,17),M(2,18),M(2,19),M(2,20),M(2,21),M(2,22),M(2,23),M(2,24),M(2,25),M(2,26),M(2,27),M(2,28),M(2,29),M(2,30),M(2,31),
M(3,1),M(3,2),M(3,3),M(3,4),M(3,5),M(3,6),M(3,7),M(3,8),M(3,9),M(3,10),M(3,11),M(3,12),M(3,13),M(3,14),M(3,15),M(3,16),M(3,17),M(3,18),M(3,19),M(3,20),M(3,21),M(3,22),M(3,23),M(3,24),M(3,25),M(3,26),M(3,27),M(3,28),M(3,29),M(3,30),
M(4,1),M(4,2),M(4,3),M(4,4),M(4,5),M(4,6),M(4,7),M(4,8),M(4,9),M(4,10),M(4,11),M(4,12),M(4,13),M(4,14),M(4,15),M(4,16),M(4,17),M(4,18),M(4,19),M(4,20),M(4,21),M(4,22),M(4,23),M(4,24),M(4,25),M(4,26),M(4,27),M(4,28),M(4,29),M(4,30),M(4,31),
M(5,1),M(5,2),M(5,3),M(5,4),M(5,5),M(5,6),M(5,7),M(5,8),M(5,9),M(5,10),M(5,11),M(5,12),M(5,13),M(5,14),M(5,15),M(5,16),M(5,17),M(5,18),M(5,19),M(5,20),M(5,21),M(5,22),M(5,23),M(5,24),M(5,25),M(5,26),M(5,27),M(5,28),M(5,29),M(5,30),
M(6,1),M(6,2),M(6,3),M(6,4),M(6,5),M(6,6),M(6,7),M(6,8),M(6,9),M(6,10),M(6,11),M(6,12),M(6,13),M(6,14),M(6,15),M(6,16),M(6,17),M(6,18),M(6,19),M(6,20),M(6,21),M(6,22),M(6,23),M(6,24),M(6,25),M(6,26),M(6,27),M(6,28),M(6,29),M(6,30),M(6,31),
M(7,1),M(7,2),M(7,3),M(7,4),M(7,5),M(7,6),M(7,7),M(7,8),M(7,9),M(7,10),M(7,11),M(7,12),M(7,13),M(7,14),M(7,15),M(7,16),M(7,17),M(7,18),M(7,19),M(7,20),M(7,21),M(7,22),M(7,23),M(7,24),M(7,25),M(7,26),M(7,27),M(7,28),M(7,29),M(7,30),M(7,31),
M(8,1),M(8,2),M(8,3),M(8,4),M(8,5),M(8,6),M(8,7),M(8,8),M(8,9),M(8,10),M(8,11),M(8,12),M(8,13),M(8,14),M(8,15),M(8,16),M(8,17),M(8,18),M(8,19),M(8,20),M(8,21),M(8,22),M(8,23),M(8,24),M(8,25),M(8,26),M(8,27),M(8,28),M(8,29),M(8,30),
M(9,1),M(9,2),M(9,3),M(9,4),M(9,5),M(9,6),M(9,7),M(9,8),M(9,9),M(9,10),M(9,11),M(9,12),M(9,13),M(9,14),M(9,15),M(9,16),M(9,17),M(9,18),M(9,19),M(9,20),M(9,21),M(9,22),M(9,23),M(9,24),M(9,25),M(9,26),M(9,27),M(9,28),M(9,29),M(9,30),M(9,31),
M(10,1),M(10,2),M(10,3),M(10,4),M(10,5),M(10,6),M(10,7),M(10,8),M(10,9),M(10,10),M(10,11),M(10,12),M(10,13),M(10,14),M(10,15),M(10,16),M(10,17),M(10,18),M(10,19),M(10,20),M(10,21),M(10,22),M(10,23),M(10,24),M(10,25),M(10,26),M(10,27),M(10,28),M(10,29),M(10,30),
M(11,1),M(11,2),M(11,3),M(11,4),M(11,5),M(11,6),M(11,7),M(11,8),M(11,9),M(11,10),M(11,11),M(11,12),M(11,13),M(11,14),M(11,15),M(11,16),M(11,17),M(11,18),M(11,19),M(11,20),M(11,21),M(11,22),M(11,23),M(11,24),M(11,25),M(11,26),M(11,27),M(11,28),M(11,29),M(11,30),M(11,31),
};
#undef M
enum {
ACCUM_JAN = 0,
ACCUM_FEB = ACCUM_JAN + 31,
ACCUM_MAR = ACCUM_FEB + 29,
ACCUM_APR = ACCUM_MAR + 31,
ACCUM_MAY = ACCUM_APR + 30,
ACCUM_JUN = ACCUM_MAY + 31,
ACCUM_JUL = ACCUM_JUN + 30,
ACCUM_AUG = ACCUM_JUL + 31,
ACCUM_SEP = ACCUM_AUG + 31,
ACCUM_OCT = ACCUM_SEP + 30,
ACCUM_NOV = ACCUM_OCT + 31,
ACCUM_DEC = ACCUM_NOV + 30,
};
static const uint16 _accum_days_for_month[] = {
ACCUM_JAN,ACCUM_FEB,ACCUM_MAR,ACCUM_APR,
ACCUM_MAY,ACCUM_JUN,ACCUM_JUL,ACCUM_AUG,
ACCUM_SEP,ACCUM_OCT,ACCUM_NOV,ACCUM_DEC,
};
void ConvertDayToYMD(YearMonthDay *ymd, uint16 date)
{
uint yr = date / (365+365+365+366);
uint rem = date % (365+365+365+366);
uint x;
yr *= 4;
if (rem >= 366) {
rem--;
do {
rem -= 365;
yr++;
} while (rem >= 365);
if (rem >= 31+28) rem++;
}
ymd->year = yr;
x = _month_date_from_year_day[rem];
ymd->month = x >> 5;
ymd->day = x & 0x1F;
}
// year is a number between 0..?
// month is a number between 0..11
// day is a number between 1..31
uint ConvertYMDToDay(uint year, uint month, uint day)
{
uint rem;
// day in the year
rem = _accum_days_for_month[month] + day - 1;
// remove feb 29 from year 1,2,3
if (year & 3) rem += (year & 3) * 365 + (rem < 31+29);
// base date.
return (year >> 2) * (365+365+365+366) + rem;
}
// convert a date on the form
// 1920 - 2090 (MAX_YEAR_END_REAL)
// 192001 - 209012
// 19200101 - 20901231
// or if > 2090 and below 65536, treat it as a daycount
// returns -1 if no conversion was possible
uint ConvertIntDate(uint date)
{
uint year, month = 0, day = 1;
if (IS_INT_INSIDE(date, 1920, MAX_YEAR_END_REAL + 1)) {
year = date - 1920;
} else if (IS_INT_INSIDE(date, 192001, 209012+1)) {
month = date % 100 - 1;
year = date / 100 - 1920;
} else if (IS_INT_INSIDE(date, 19200101, 20901231+1)) {
day = date % 100; date /= 100;
month = date % 100 - 1;
year = date / 100 - 1920;
} else if (IS_INT_INSIDE(date, 2091, 65536))
return date;
else
return (uint)-1;
// invalid ranges?
if (month >= 12 || !IS_INT_INSIDE(day, 1, 31+1)) return (uint)-1;
return ConvertYMDToDay(year, month, day);
}
typedef struct LandscapePredefVar {
StringID names[NUM_CARGO];
byte weights[NUM_CARGO];
StringID sprites[NUM_CARGO];
uint16 initial_cargo_payment[NUM_CARGO];
byte transit_days_table_1[NUM_CARGO];
byte transit_days_table_2[NUM_CARGO];
byte railwagon_by_cargo[3][NUM_CARGO];
byte road_veh_by_cargo_start[NUM_CARGO];
byte road_veh_by_cargo_count[NUM_CARGO];
} LandscapePredefVar;
#include "table/landscape_const.h"
// Calculate constants that depend on the landscape type.
void InitializeLandscapeVariables(bool only_constants)
{
const LandscapePredefVar *lpd;
int i;
StringID str;
lpd = &_landscape_predef_var[_opt.landscape];
memcpy(_cargoc.ai_railwagon, lpd->railwagon_by_cargo, sizeof(lpd->railwagon_by_cargo));
memcpy(_cargoc.ai_roadveh_start, lpd->road_veh_by_cargo_start,sizeof(lpd->road_veh_by_cargo_start));
memcpy(_cargoc.ai_roadveh_count, lpd->road_veh_by_cargo_count,sizeof(lpd->road_veh_by_cargo_count));
for(i=0; i!=NUM_CARGO; i++) {
_cargoc.sprites[i] = lpd->sprites[i];
str = lpd->names[i];
_cargoc.names_s[i] = str;
_cargoc.names_p[i] = (str += 0x20);
_cargoc.names_long_s[i] = (str += 0x20);
_cargoc.names_long_p[i] = (str += 0x20);
_cargoc.names_short[i] = (str += 0x20);
_cargoc.weights[i] = lpd->weights[i];
if (!only_constants) {
_cargo_payment_rates[i] = lpd->initial_cargo_payment[i];
_cargo_payment_rates_frac[i] = 0;
}
_cargoc.transit_days_1[i] = lpd->transit_days_table_1[i];
_cargoc.transit_days_2[i] = lpd->transit_days_table_2[i];
}
}
// distance in Manhattan metric
uint GetTileDist(TileIndex xy1, TileIndex xy2)
{
return myabs(TileX(xy1) - TileX(xy2)) +
myabs(TileY(xy1) - TileY(xy2));
}
// maximum distance in x _or_ y
uint GetTileDist1D(TileIndex xy1, TileIndex xy2)
{
return max(myabs(TileX(xy1) - TileX(xy2)),
myabs(TileY(xy1) - TileY(xy2)));
}
uint GetTileDist1Db(TileIndex xy1, TileIndex xy2)
{
int a = myabs(TileX(xy1) - TileX(xy2));
int b = myabs(TileY(xy1) - TileY(xy2));
if (a > b)
return a*2+b;
else
return b*2+a;
}
uint GetTileDistAdv(TileIndex xy1, TileIndex xy2)
{
uint a = myabs(TileX(xy1) - TileX(xy2));
uint b = myabs(TileY(xy1) - TileY(xy2));
return a*a+b*b;
}
bool CheckDistanceFromEdge(TileIndex tile, uint distance)
{
return IS_INT_INSIDE(TileX(tile), distance, MapSizeX() - distance) &&
IS_INT_INSIDE(TileY(tile), distance, MapSizeY() - distance);
}
void OnNewDay_Train(Vehicle *v);
void OnNewDay_RoadVeh(Vehicle *v);
void OnNewDay_Aircraft(Vehicle *v);
void OnNewDay_Ship(Vehicle *v);
static void OnNewDay_EffectVehicle(Vehicle *v) { /* empty */ }
void OnNewDay_DisasterVehicle(Vehicle *v);
typedef void OnNewVehicleDayProc(Vehicle *v);
static OnNewVehicleDayProc * _on_new_vehicle_day_proc[] = {
OnNewDay_Train,
OnNewDay_RoadVeh,
OnNewDay_Ship,
OnNewDay_Aircraft,
OnNewDay_EffectVehicle,
OnNewDay_DisasterVehicle,
};
void EnginesDailyLoop(void);
void DisasterDailyLoop(void);
void PlayersMonthlyLoop(void);
void EnginesMonthlyLoop(void);
void TownsMonthlyLoop(void);
void IndustryMonthlyLoop(void);
void StationMonthlyLoop(void);
void PlayersYearlyLoop(void);
void TrainsYearlyLoop(void);
void RoadVehiclesYearlyLoop(void);
void AircraftYearlyLoop(void);
void ShipsYearlyLoop(void);
void WaypointsDailyLoop(void);
static const uint16 _autosave_months[] = {
0, // never
0xFFF, // every month
0x249, // every 3 months
0x041, // every 6 months
0x001, // every 12 months
};
void IncreaseDate(void)
{
const int vehicles_per_day = (1 << (sizeof(_date_fract) * 8)) / 885;
uint i;
VehicleID ctr;
int t;
YearMonthDay ymd;
if (_game_mode == GM_MENU) {
_tick_counter++;
return;
}
/*if the day changed, call the vehicle event but only update a part of the vehicles
old max was i!= 12. But with that and a bigger number of vehicles (2560), per day only
a part of it could be done, namely: function called max_size date_fract (uint16) / 885 x 12 ==>
65536 / 885 = 74; 74x12 = 888. So max 888. Any vehicles above that were not _on_new_vehicle_day_proc'd
eg. aged.
So new code updates it for max vehicles.
(_vehicles_size / maximum number of times ctr is incremented before reset ) + 1 (to get last vehicles too)
max size of _date_fract / 885 (added each tick) is number of times before ctr is reset.
Calculation might look complicated, but compiler just replaces it with 35, so that's ok
*/
ctr = _vehicle_id_ctr_day;
for (i = 0; i != (_vehicles_size / vehicles_per_day) + 1 && ctr != _vehicles_size; i++) {
Vehicle *v = GetVehicle(ctr++);
if ((t = v->type) != 0)
_on_new_vehicle_day_proc[t - 0x10](v);
}
_vehicle_id_ctr_day = ctr;
/* increase day, and check if a new day is there? */
_tick_counter++;
_date_fract += 885;
if (_date_fract >= 885)
return;
/* yeah, increse day counter and call various daily loops */
_date++;
_vehicle_id_ctr_day = 0;
TextMessageDailyLoop();
DisasterDailyLoop();
WaypointsDailyLoop();
if (_game_mode != GM_MENU) {
InvalidateWindowWidget(WC_STATUS_BAR, 0, 0);
EnginesDailyLoop();
}
/* check if we entered a new month? */
ConvertDayToYMD(&ymd, _date);
if ((byte)ymd.month == _cur_month)
return;
_cur_month = ymd.month;
/* yes, call various monthly loops */
if (_game_mode != GM_MENU) {
if (HASBIT(_autosave_months[_opt.autosave], _cur_month)) {
_do_autosave = true;
RedrawAutosave();
}
PlayersMonthlyLoop();
EnginesMonthlyLoop();
TownsMonthlyLoop();
IndustryMonthlyLoop();
StationMonthlyLoop();
#ifdef ENABLE_NETWORK
if (_network_server)
NetworkServerMonthlyLoop();
#endif /* ENABLE_NETWORK */
}
/* check if we entered a new year? */
if ((byte)ymd.year == _cur_year)
return;
_cur_year = ymd.year;
/* yes, call various yearly loops */
PlayersYearlyLoop();
TrainsYearlyLoop();
RoadVehiclesYearlyLoop();
AircraftYearlyLoop();
ShipsYearlyLoop();
#ifdef ENABLE_NETWORK
if (_network_server)
NetworkServerYearlyLoop();
#endif /* ENABLE_NETWORK */
/* check if we reached end of the game (31 dec 2050) */
if (_cur_year == _patches.ending_date - MAX_YEAR_BEGIN_REAL) {
ShowEndGameChart();
/* check if we reached 2090 (MAX_YEAR_END_REAL), that's the maximum year. */
} else if (_cur_year == (MAX_YEAR_END + 1)) {
Vehicle *v;
_cur_year = MAX_YEAR_END;
_date = 62093;
FOR_ALL_VEHICLES(v) {
v->date_of_last_service -= 365; // 1 year is 365 days long
}
}
if (_patches.auto_euro)
CheckSwitchToEuro();
/* XXX: check if year 2050 was reached */
}
int FindFirstBit(uint32 value)
{
// This is much faster than the one that was before here.
// Created by Darkvater.. blame him if it is wrong ;)
// Btw, the macro FINDFIRSTBIT is better to use when your value is
// not more than 128.
byte i = 0;
if (value & 0xffff0000) { value >>= 16; i += 16; }
if (value & 0x0000ff00) { value >>= 8; i += 8; }
if (value & 0x000000f0) { value >>= 4; i += 4; }
if (value & 0x0000000c) { value >>= 2; i += 2; }
if (value & 0x00000002) { i += 1; }
return i;
}
static void Save_NAME(void)
{
int i;
byte *b = _name_array[0];
for(i=0; i!=lengthof(_name_array); i++,b+=sizeof(_name_array[0])) {
if (*b) {
SlSetArrayIndex(i);
SlArray(b, strlen(b), SLE_UINT8);
}
}
}
static void Load_NAME(void)
{
int index;
while ((index = SlIterateArray()) != -1) {
SlArray(_name_array[index],SlGetFieldLength(),SLE_UINT8);
}
}
static const byte _game_opt_desc[] = {
// added a new difficulty option (town attitude) in version 4
SLE_CONDARR(GameOptions,diff, SLE_FILE_I16 | SLE_VAR_I32, 17, 0, 3),
SLE_CONDARR(GameOptions,diff, SLE_FILE_I16 | SLE_VAR_I32, 18, 4, 255),
SLE_VAR(GameOptions,diff_level, SLE_UINT8),
SLE_VAR(GameOptions,currency, SLE_UINT8),
SLE_VAR(GameOptions,kilometers, SLE_UINT8),
SLE_VAR(GameOptions,town_name, SLE_UINT8),
SLE_VAR(GameOptions,landscape, SLE_UINT8),
SLE_VAR(GameOptions,snow_line, SLE_UINT8),
SLE_VAR(GameOptions,autosave, SLE_UINT8),
SLE_VAR(GameOptions,road_side, SLE_UINT8),
SLE_END()
};
// Save load game options
static void SaveLoad_OPTS(void)
{
SlObject(&_opt, _game_opt_desc);
}
static const SaveLoadGlobVarList _date_desc[] = {
{&_date, SLE_UINT16, 0, 255},
{&_date_fract, SLE_UINT16, 0, 255},
{&_tick_counter, SLE_UINT16, 0, 255},
{&_vehicle_id_ctr_day, SLE_UINT16, 0, 255},
{&_age_cargo_skip_counter, SLE_UINT8, 0, 255},
{&_avail_aircraft, SLE_UINT8, 0, 255},
{&_cur_tileloop_tile, SLE_FILE_U16 | SLE_VAR_U32, 0, 5},
{&_cur_tileloop_tile, SLE_UINT32, 6, 255},
{&_disaster_delay, SLE_UINT16, 0, 255},
{&_station_tick_ctr, SLE_UINT16, 0, 255},
{&_random_seeds[0][0], SLE_UINT32, 0, 255},
{&_random_seeds[0][1], SLE_UINT32, 0, 255},
{&_cur_town_ctr, SLE_UINT8, 0, 255},
{&_cur_player_tick_index, SLE_FILE_U8 | SLE_VAR_UINT, 0, 255},
{&_next_competitor_start, SLE_FILE_U16 | SLE_VAR_UINT, 0, 255},
{&_trees_tick_ctr, SLE_UINT8, 0, 255},
{&_pause, SLE_UINT8, 4, 255},
{NULL, 0, 0, 0}
};
// Save load date related variables as well as persistent tick counters
// XXX: currently some unrelated stuff is just put here
static void SaveLoad_DATE(void)
{
SlGlobList(_date_desc);
}
static const SaveLoadGlobVarList _view_desc[] = {
{&_saved_scrollpos_x, SLE_FILE_I16 | SLE_VAR_INT, 0, 5},
{&_saved_scrollpos_x, SLE_INT32, 6, 255},
{&_saved_scrollpos_y, SLE_FILE_I16 | SLE_VAR_INT, 0, 5},
{&_saved_scrollpos_y, SLE_INT32, 6, 255},
{&_saved_scrollpos_zoom, SLE_UINT8, 0, 255},
{NULL, 0, 0, 0}
};
static void SaveLoad_VIEW(void)
{
SlGlobList(_view_desc);
}
static void SaveLoad_MAPT(void)
{
SlArray(_map_type_and_height, MapSize(), SLE_UINT8);
}
static void SaveLoad_MAP2(void)
{
if (_sl.version < 5) {
/* In those versions the _map2 was 8 bits */
SlArray(_map2, MapSize(), SLE_FILE_U8 | SLE_VAR_U16);
} else {
SlArray(_map2, MapSize(), SLE_UINT16);
}
}
static void SaveLoad_M3LO(void)
{
SlArray(_map3_lo, MapSize(), SLE_UINT8);
}
static void SaveLoad_M3HI(void)
{
SlArray(_map3_hi, MapSize(), SLE_UINT8);
}
static void SaveLoad_MAPO(void)
{
SlArray(_map_owner, MapSize(), SLE_UINT8);
}
static void SaveLoad_MAP5(void)
{
SlArray(_map5, MapSize(), SLE_UINT8);
}
static void SaveLoad_MAPE(void)
{
SlArray(_map_extra_bits, MapSize() / 4, SLE_UINT8);
}
static void Save_CHTS(void)
{
byte count = sizeof(_cheats)/sizeof(Cheat);
Cheat* cht = (Cheat*) &_cheats;
Cheat* cht_last = &cht[count];
SlSetLength(count*2);
for(; cht != cht_last; cht++) {
SlWriteByte(cht->been_used);
SlWriteByte(cht->value);
}
}
static void Load_CHTS(void)
{
Cheat* cht = (Cheat*) &_cheats;
uint count = SlGetFieldLength()/2;
for(; count; count--, cht++)
{
cht->been_used = (byte)SlReadByte();
cht->value = (byte)SlReadByte();
}
}
const ChunkHandler _misc_chunk_handlers[] = {
{ 'MAPT', SaveLoad_MAPT, SaveLoad_MAPT, CH_RIFF },
{ 'MAP2', SaveLoad_MAP2, SaveLoad_MAP2, CH_RIFF },
{ 'M3LO', SaveLoad_M3LO, SaveLoad_M3LO, CH_RIFF },
{ 'M3HI', SaveLoad_M3HI, SaveLoad_M3HI, CH_RIFF },
{ 'MAPO', SaveLoad_MAPO, SaveLoad_MAPO, CH_RIFF },
{ 'MAP5', SaveLoad_MAP5, SaveLoad_MAP5, CH_RIFF },
{ 'MAPE', SaveLoad_MAPE, SaveLoad_MAPE, CH_RIFF },
{ 'NAME', Save_NAME, Load_NAME, CH_ARRAY},
{ 'DATE', SaveLoad_DATE, SaveLoad_DATE, CH_RIFF},
{ 'VIEW', SaveLoad_VIEW, SaveLoad_VIEW, CH_RIFF},
{ 'OPTS', SaveLoad_OPTS, SaveLoad_OPTS, CH_RIFF},
{ 'CHTS', Save_CHTS, Load_CHTS, CH_RIFF | CH_LAST}
};