/**
* Main entry point for this lovely game.
* @param argc The number of arguments passed to this game.
* @param argv The values of the arguments.
* @return 0 when there is no error.
*/
int openttd_main(int argc, char *argv[])
{
char *musicdriver = NULL;
char *sounddriver = NULL;
char *videodriver = NULL;
char *blitter = NULL;
char *graphics_set = NULL;
char *sounds_set = NULL;
char *music_set = NULL;
Dimension resolution = {0, 0};
/* AfterNewGRFScan sets save_config to true after scanning completed. */
bool save_config = false;
AfterNewGRFScan *scanner = new AfterNewGRFScan(&save_config);
#if defined(ENABLE_NETWORK)
bool dedicated = false;
char *debuglog_conn = NULL;
extern bool _dedicated_forks;
_dedicated_forks = false;
#endif /* ENABLE_NETWORK */
_game_mode = GM_MENU;
_switch_mode = SM_MENU;
_config_file = NULL;
GetOptData mgo(argc - 1, argv + 1, _options);
int ret = 0;
int i;
while ((i = mgo.GetOpt()) != -1) {
switch (i) {
case 'I': free(graphics_set); graphics_set = stredup(mgo.opt); break;
case 'S': free(sounds_set); sounds_set = stredup(mgo.opt); break;
case 'M': free(music_set); music_set = stredup(mgo.opt); break;
case 'm': free(musicdriver); musicdriver = stredup(mgo.opt); break;
case 's': free(sounddriver); sounddriver = stredup(mgo.opt); break;
case 'v': free(videodriver); videodriver = stredup(mgo.opt); break;
case 'b': free(blitter); blitter = stredup(mgo.opt); break;
#if defined(ENABLE_NETWORK)
case 'D':
free(musicdriver);
free(sounddriver);
free(videodriver);
free(blitter);
musicdriver = stredup("null");
sounddriver = stredup("null");
videodriver = stredup("dedicated");
blitter = stredup("null");
dedicated = true;
SetDebugString("net=6");
if (mgo.opt != NULL) {
/* Use the existing method for parsing (openttd -n).
* However, we do ignore the #company part. */
const char *temp = NULL;
const char *port = NULL;
ParseConnectionString(&temp, &port, mgo.opt);
if (!StrEmpty(mgo.opt)) scanner->dedicated_host = mgo.opt;
if (port != NULL) scanner->dedicated_port = atoi(port);
}
break;
case 'f': _dedicated_forks = true; break;
case 'n':
scanner->network_conn = mgo.opt; // optional IP parameter, NULL if unset
break;
case 'l':
debuglog_conn = mgo.opt;
break;
case 'p':
scanner->join_server_password = mgo.opt;
break;
case 'P':
scanner->join_company_password = mgo.opt;
break;
#endif /* ENABLE_NETWORK */
case 'r': ParseResolution(&resolution, mgo.opt); break;
case 't': scanner->startyear = atoi(mgo.opt); break;
case 'd': {
#if defined(WIN32)
CreateConsole();
#endif
if (mgo.opt != NULL) SetDebugString(mgo.opt);
break;
}
case 'e': _switch_mode = (_switch_mode == SM_LOAD_GAME || _switch_mode == SM_LOAD_SCENARIO ? SM_LOAD_SCENARIO : SM_EDITOR); break;
case 'g':
if (mgo.opt != NULL) {
_file_to_saveload.SetName(mgo.opt);
bool is_scenario = _switch_mode == SM_EDITOR || _switch_mode == SM_LOAD_SCENARIO;
_switch_mode = is_scenario ? SM_LOAD_SCENARIO : SM_LOAD_GAME;
_file_to_saveload.SetMode(SLO_LOAD, is_scenario ? FT_SCENARIO : FT_SAVEGAME, DFT_GAME_FILE);
/* if the file doesn't exist or it is not a valid savegame, let the saveload code show an error */
const char *t = strrchr(_file_to_saveload.name, '.');
if (t != NULL) {
FiosType ft = FiosGetSavegameListCallback(SLO_LOAD, _file_to_saveload.name, t, NULL, NULL);
if (ft != FIOS_TYPE_INVALID) _file_to_saveload.SetMode(ft);
}
break;
}
_switch_mode = SM_NEWGAME;
/* Give a random map if no seed has been given */
if (scanner->generation_seed == GENERATE_NEW_SEED) {
scanner->generation_seed = InteractiveRandom();
}
break;
case 'q': {
DeterminePaths(argv[0]);
if (StrEmpty(mgo.opt)) {
ret = 1;
goto exit_noshutdown;
}
char title[80];
title[0] = '\0';
FiosGetSavegameListCallback(SLO_LOAD, mgo.opt, strrchr(mgo.opt, '.'), title, lastof(title));
_load_check_data.Clear();
SaveOrLoadResult res = SaveOrLoad(mgo.opt, SLO_CHECK, DFT_GAME_FILE, SAVE_DIR, false);
if (res != SL_OK || _load_check_data.HasErrors()) {
fprintf(stderr, "Failed to open savegame\n");
if (_load_check_data.HasErrors()) {
char buf[256];
SetDParamStr(0, _load_check_data.error_data);
GetString(buf, _load_check_data.error, lastof(buf));
fprintf(stderr, "%s\n", buf);
}
goto exit_noshutdown;
}
WriteSavegameInfo(title);
goto exit_noshutdown;
}
case 'G': scanner->generation_seed = atoi(mgo.opt); break;
case 'c': free(_config_file); _config_file = stredup(mgo.opt); break;
case 'x': scanner->save_config = false; break;
case 'h':
i = -2; // Force printing of help.
break;
}
if (i == -2) break;
}
if (i == -2 || mgo.numleft > 0) {
/* Either the user typed '-h', he made an error, or he added unrecognized command line arguments.
* In all cases, print the help, and exit.
*
* The next two functions are needed to list the graphics sets. We can't do them earlier
* because then we cannot show it on the debug console as that hasn't been configured yet. */
DeterminePaths(argv[0]);
TarScanner::DoScan(TarScanner::BASESET);
BaseGraphics::FindSets();
BaseSounds::FindSets();
BaseMusic::FindSets();
ShowHelp();
goto exit_noshutdown;
}
DeterminePaths(argv[0]);
TarScanner::DoScan(TarScanner::BASESET);
#if defined(ENABLE_NETWORK)
if (dedicated) DEBUG(net, 0, "Starting dedicated version %s", _openttd_revision);
if (_dedicated_forks && !dedicated) _dedicated_forks = false;
#if defined(UNIX) && !defined(__MORPHOS__)
/* We must fork here, or we'll end up without some resources we need (like sockets) */
if (_dedicated_forks) DedicatedFork();
#endif
#endif
LoadFromConfig(true);
if (resolution.width != 0) _cur_resolution = resolution;
/*
* The width and height must be at least 1 pixel and width times
* height times bytes per pixel must still fit within a 32 bits
* integer, even for 32 bpp video modes. This way all internal
* drawing routines work correctly.
*/
_cur_resolution.width = ClampU(_cur_resolution.width, 1, UINT16_MAX / 2);
_cur_resolution.height = ClampU(_cur_resolution.height, 1, UINT16_MAX / 2);
/* Assume the cursor starts within the game as not all video drivers
* get an event that the cursor is within the window when it is opened.
* Saying the cursor is there makes no visible difference as it would
* just be out of the bounds of the window. */
_cursor.in_window = true;
/* enumerate language files */
InitializeLanguagePacks();
/* Initialize the regular font for FreeType */
InitFreeType(false);
/* This must be done early, since functions use the SetWindowDirty* calls */
InitWindowSystem();
BaseGraphics::FindSets();
if (graphics_set == NULL && BaseGraphics::ini_set != NULL) graphics_set = stredup(BaseGraphics::ini_set);
if (!BaseGraphics::SetSet(graphics_set)) {
if (!StrEmpty(graphics_set)) {
BaseGraphics::SetSet(NULL);
ErrorMessageData msg(STR_CONFIG_ERROR, STR_CONFIG_ERROR_INVALID_BASE_GRAPHICS_NOT_FOUND);
msg.SetDParamStr(0, graphics_set);
ScheduleErrorMessage(msg);
}
}
free(graphics_set);
/* Initialize game palette */
GfxInitPalettes();
DEBUG(misc, 1, "Loading blitter...");
if (blitter == NULL && _ini_blitter != NULL) blitter = stredup(_ini_blitter);
_blitter_autodetected = StrEmpty(blitter);
/* Activate the initial blitter.
* This is only some initial guess, after NewGRFs have been loaded SwitchNewGRFBlitter may switch to a different one.
* - Never guess anything, if the user specified a blitter. (_blitter_autodetected)
* - Use 32bpp blitter if baseset or 8bpp-support settings says so.
* - Use 8bpp blitter otherwise.
*/
if (!_blitter_autodetected ||
(_support8bpp != S8BPP_NONE && (BaseGraphics::GetUsedSet() == NULL || BaseGraphics::GetUsedSet()->blitter == BLT_8BPP)) ||
BlitterFactory::SelectBlitter("32bpp-anim") == NULL) {
if (BlitterFactory::SelectBlitter(blitter) == NULL) {
StrEmpty(blitter) ?
usererror("Failed to autoprobe blitter") :
usererror("Failed to select requested blitter '%s'; does it exist?", blitter);
}
}
free(blitter);
if (videodriver == NULL && _ini_videodriver != NULL) videodriver = stredup(_ini_videodriver);
DriverFactoryBase::SelectDriver(videodriver, Driver::DT_VIDEO);
free(videodriver);
InitializeSpriteSorter();
/* Initialize the zoom level of the screen to normal */
_screen.zoom = ZOOM_LVL_NORMAL;
NetworkStartUp(); // initialize network-core
#if defined(ENABLE_NETWORK)
if (debuglog_conn != NULL && _network_available) {
const char *not_used = NULL;
const char *port = NULL;
uint16 rport;
rport = NETWORK_DEFAULT_DEBUGLOG_PORT;
ParseConnectionString(¬_used, &port, debuglog_conn);
if (port != NULL) rport = atoi(port);
NetworkStartDebugLog(NetworkAddress(debuglog_conn, rport));
}
#endif /* ENABLE_NETWORK */
if (!HandleBootstrap()) {
ShutdownGame();
goto exit_bootstrap;
}
VideoDriver::GetInstance()->ClaimMousePointer();
/* initialize screenshot formats */
InitializeScreenshotFormats();
BaseSounds::FindSets();
if (sounds_set == NULL && BaseSounds::ini_set != NULL) sounds_set = stredup(BaseSounds::ini_set);
if (!BaseSounds::SetSet(sounds_set)) {
if (StrEmpty(sounds_set) || !BaseSounds::SetSet(NULL)) {
usererror("Failed to find a sounds set. Please acquire a sounds set for OpenTTD. See section 4.1 of README.md.");
} else {
ErrorMessageData msg(STR_CONFIG_ERROR, STR_CONFIG_ERROR_INVALID_BASE_SOUNDS_NOT_FOUND);
msg.SetDParamStr(0, sounds_set);
ScheduleErrorMessage(msg);
}
}
free(sounds_set);
BaseMusic::FindSets();
if (music_set == NULL && BaseMusic::ini_set != NULL) music_set = stredup(BaseMusic::ini_set);
if (!BaseMusic::SetSet(music_set)) {
if (StrEmpty(music_set) || !BaseMusic::SetSet(NULL)) {
usererror("Failed to find a music set. Please acquire a music set for OpenTTD. See section 4.1 of README.md.");
} else {
ErrorMessageData msg(STR_CONFIG_ERROR, STR_CONFIG_ERROR_INVALID_BASE_MUSIC_NOT_FOUND);
msg.SetDParamStr(0, music_set);
ScheduleErrorMessage(msg);
}
}
free(music_set);
if (sounddriver == NULL && _ini_sounddriver != NULL) sounddriver = stredup(_ini_sounddriver);
DriverFactoryBase::SelectDriver(sounddriver, Driver::DT_SOUND);
free(sounddriver);
if (musicdriver == NULL && _ini_musicdriver != NULL) musicdriver = stredup(_ini_musicdriver);
DriverFactoryBase::SelectDriver(musicdriver, Driver::DT_MUSIC);
free(musicdriver);
/* Take our initial lock on whatever we might want to do! */
_modal_progress_paint_mutex->BeginCritical();
_modal_progress_work_mutex->BeginCritical();
GenerateWorld(GWM_EMPTY, 64, 64); // Make the viewport initialization happy
WaitTillGeneratedWorld();
LoadIntroGame(false);
CheckForMissingGlyphs();
/* ScanNewGRFFiles now has control over the scanner. */
ScanNewGRFFiles(scanner);
scanner = NULL;
VideoDriver::GetInstance()->MainLoop();
WaitTillSaved();
/* only save config if we have to */
if (save_config) {
SaveToConfig();
SaveHotkeysToConfig();
WindowDesc::SaveToConfig();
SaveToHighScore();
}
/* Reset windowing system, stop drivers, free used memory, ... */
ShutdownGame();
goto exit_normal;
exit_noshutdown:
/* These three are normally freed before bootstrap. */
free(graphics_set);
free(videodriver);
free(blitter);
exit_bootstrap:
/* These are normally freed before exit, but after bootstrap. */
free(sounds_set);
free(music_set);
free(musicdriver);
free(sounddriver);
exit_normal:
free(BaseGraphics::ini_set);
free(BaseSounds::ini_set);
free(BaseMusic::ini_set);
free(_ini_musicdriver);
free(_ini_sounddriver);
free(_ini_videodriver);
free(_ini_blitter);
delete scanner;
#ifdef ENABLE_NETWORK
extern FILE *_log_fd;
if (_log_fd != NULL) {
fclose(_log_fd);
}
#endif /* ENABLE_NETWORK */
return ret;
}
int ttd_main(int argc, char *argv[])
{
int i;
const char *optformat;
char *musicdriver = NULL;
char *sounddriver = NULL;
char *videodriver = NULL;
char *blitter = NULL;
char *graphics_set = NULL;
char *sounds_set = NULL;
char *music_set = NULL;
Dimension resolution = {0, 0};
Year startyear = INVALID_YEAR;
uint generation_seed = GENERATE_NEW_SEED;
bool save_config = true;
#if defined(ENABLE_NETWORK)
bool dedicated = false;
bool network = false;
char *network_conn = NULL;
char *debuglog_conn = NULL;
char *dedicated_host = NULL;
uint16 dedicated_port = 0;
char *join_server_password = NULL;
char *join_company_password = NULL;
extern bool _dedicated_forks;
_dedicated_forks = false;
#endif /* ENABLE_NETWORK */
_game_mode = GM_MENU;
_switch_mode = SM_MENU;
_switch_mode_errorstr = INVALID_STRING_ID;
_config_file = NULL;
/* The last param of the following function means this:
* a letter means: it accepts that param (e.g.: -h)
* a ':' behind it means: it need a param (e.g.: -m<driver>)
* a '::' behind it means: it can optional have a param (e.g.: -d<debug>) */
optformat = "m:s:v:b:hD::n::ei::I:S:M:t:d::r:g::G:c:xl:p:P:"
#if !defined(__MORPHOS__) && !defined(__AMIGA__) && !defined(WIN32)
"f"
#endif
;
MyGetOptData mgo(argc - 1, argv + 1, optformat);
while ((i = MyGetOpt(&mgo)) != -1) {
switch (i) {
case 'I': free(graphics_set); graphics_set = strdup(mgo.opt); break;
case 'S': free(sounds_set); sounds_set = strdup(mgo.opt); break;
case 'M': free(music_set); music_set = strdup(mgo.opt); break;
case 'm': free(musicdriver); musicdriver = strdup(mgo.opt); break;
case 's': free(sounddriver); sounddriver = strdup(mgo.opt); break;
case 'v': free(videodriver); videodriver = strdup(mgo.opt); break;
case 'b': free(blitter); blitter = strdup(mgo.opt); break;
#if defined(ENABLE_NETWORK)
case 'D':
free(musicdriver);
free(sounddriver);
free(videodriver);
free(blitter);
musicdriver = strdup("null");
sounddriver = strdup("null");
videodriver = strdup("dedicated");
blitter = strdup("null");
dedicated = true;
SetDebugString("net=6");
if (mgo.opt != NULL) {
/* Use the existing method for parsing (openttd -n).
* However, we do ignore the #company part. */
const char *temp = NULL;
const char *port = NULL;
ParseConnectionString(&temp, &port, mgo.opt);
if (!StrEmpty(mgo.opt)) dedicated_host = mgo.opt;
if (port != NULL) dedicated_port = atoi(port);
}
break;
case 'f': _dedicated_forks = true; break;
case 'n':
network = true;
network_conn = mgo.opt; // optional IP parameter, NULL if unset
break;
case 'l':
debuglog_conn = mgo.opt;
break;
case 'p':
join_server_password = mgo.opt;
break;
case 'P':
join_company_password = mgo.opt;
break;
#endif /* ENABLE_NETWORK */
case 'r': ParseResolution(&resolution, mgo.opt); break;
case 't': startyear = atoi(mgo.opt); break;
case 'd': {
#if defined(WIN32)
CreateConsole();
#endif
if (mgo.opt != NULL) SetDebugString(mgo.opt);
break;
}
case 'e': _switch_mode = SM_EDITOR; break;
case 'i':
/* there is an argument, it is not empty, and it is exactly 1 char long */
if (!StrEmpty(mgo.opt) && mgo.opt[1] == '\0') {
_use_palette = (PaletteType)(mgo.opt[0] - '0');
if (_use_palette <= MAX_PAL) break;
}
usererror("Valid value for '-i' is 0, 1 or 2");
case 'g':
if (mgo.opt != NULL) {
strecpy(_file_to_saveload.name, mgo.opt, lastof(_file_to_saveload.name));
_switch_mode = SM_LOAD;
_file_to_saveload.mode = SL_LOAD;
/* if the file doesn't exist or it is not a valid savegame, let the saveload code show an error */
const char *t = strrchr(_file_to_saveload.name, '.');
if (t != NULL) {
FiosType ft = FiosGetSavegameListCallback(SLD_LOAD_GAME, _file_to_saveload.name, t, NULL, NULL);
if (ft != FIOS_TYPE_INVALID) SetFiosType(ft);
}
break;
}
_switch_mode = SM_NEWGAME;
/* Give a random map if no seed has been given */
if (generation_seed == GENERATE_NEW_SEED) {
generation_seed = InteractiveRandom();
}
break;
case 'G': generation_seed = atoi(mgo.opt); break;
case 'c': _config_file = strdup(mgo.opt); break;
case 'x': save_config = false; break;
case -2:
case 'h':
/* The next two functions are needed to list the graphics sets.
* We can't do them earlier because then we can't show it on
* the debug console as that hasn't been configured yet. */
DeterminePaths(argv[0]);
BaseGraphics::FindSets();
BaseSounds::FindSets();
BaseMusic::FindSets();
ShowHelp();
return 0;
}
}
#if defined(WINCE) && defined(_DEBUG)
/* Switch on debug lvl 4 for WinCE if Debug release, as you can't give params, and you most likely do want this information */
SetDebugString("4");
#endif
DeterminePaths(argv[0]);
BaseGraphics::FindSets();
BaseSounds::FindSets();
BaseMusic::FindSets();
#if defined(ENABLE_NETWORK) && defined(UNIX) && !defined(__MORPHOS__)
/* We must fork here, or we'll end up without some resources we need (like sockets) */
if (_dedicated_forks) DedicatedFork();
#endif
TarScanner::DoScan();
AI::Initialize();
LoadFromConfig();
AI::Uninitialize(true);
CheckConfig();
LoadFromHighScore();
LoadHotkeysFromConfig();
if (resolution.width != 0) { _cur_resolution = resolution; }
if (startyear != INVALID_YEAR) _settings_newgame.game_creation.starting_year = startyear;
if (generation_seed != GENERATE_NEW_SEED) _settings_newgame.game_creation.generation_seed = generation_seed;
/*
* The width and height must be at least 1 pixel and width times
* height times bytes per pixel must still fit within a 32 bits
* integer, even for 32 bpp video modes. This way all internal
* drawing routines work correctly.
*/
_cur_resolution.width = ClampU(_cur_resolution.width, 1, UINT16_MAX / 2);
_cur_resolution.height = ClampU(_cur_resolution.height, 1, UINT16_MAX / 2);
#if defined(ENABLE_NETWORK)
if (dedicated) DEBUG(net, 0, "Starting dedicated version %s", _openttd_revision);
if (dedicated_host) {
_network_bind_list.Clear();
*_network_bind_list.Append() = strdup(dedicated_host);
}
if (dedicated_port) _settings_client.network.server_port = dedicated_port;
if (_dedicated_forks && !dedicated) _dedicated_forks = false;
#endif /* ENABLE_NETWORK */
/* enumerate language files */
InitializeLanguagePacks();
/* initialize screenshot formats */
InitializeScreenshotFormats();
/* Initialize FreeType */
InitFreeType();
/* This must be done early, since functions use the SetWindowDirty* calls */
InitWindowSystem();
/* Look for the sounds before the graphics. Otherwise none would be set and
* the first initialisation of the video happens on the wrong data. Now it
* can do the first initialisation right. */
if (sounds_set == NULL && BaseSounds::ini_set != NULL) sounds_set = strdup(BaseSounds::ini_set);
if (!BaseSounds::SetSet(sounds_set)) {
StrEmpty(sounds_set) ?
usererror("Failed to find a sounds set. Please acquire a sounds set for OpenTTD. See section 4.1 of readme.txt.") :
usererror("Failed to select requested sounds set '%s'", sounds_set);
}
free(sounds_set);
if (graphics_set == NULL && BaseGraphics::ini_set != NULL) graphics_set = strdup(BaseGraphics::ini_set);
if (!BaseGraphics::SetSet(graphics_set)) {
StrEmpty(graphics_set) ?
usererror("Failed to find a graphics set. Please acquire a graphics set for OpenTTD. See section 4.1 of readme.txt.") :
usererror("Failed to select requested graphics set '%s'", graphics_set);
}
free(graphics_set);
if (music_set == NULL && BaseMusic::ini_set != NULL) music_set = strdup(BaseMusic::ini_set);
if (!BaseMusic::SetSet(music_set)) {
StrEmpty(music_set) ?
usererror("Failed to find a music set. Please acquire a music set for OpenTTD. See section 4.1 of readme.txt.") :
usererror("Failed to select requested music set '%s'", music_set);
}
free(music_set);
/* Initialize game palette */
GfxInitPalettes();
DEBUG(misc, 1, "Loading blitter...");
if (blitter == NULL && _ini_blitter != NULL) blitter = strdup(_ini_blitter);
if (BlitterFactoryBase::SelectBlitter(blitter) == NULL) {
StrEmpty(blitter) ?
usererror("Failed to autoprobe blitter") :
usererror("Failed to select requested blitter '%s'; does it exist?", blitter);
}
free(blitter);
DEBUG(driver, 1, "Loading drivers...");
if (sounddriver == NULL && _ini_sounddriver != NULL) sounddriver = strdup(_ini_sounddriver);
_sound_driver = (SoundDriver*)SoundDriverFactoryBase::SelectDriver(sounddriver, Driver::DT_SOUND);
if (_sound_driver == NULL) {
StrEmpty(sounddriver) ?
usererror("Failed to autoprobe sound driver") :
usererror("Failed to select requested sound driver '%s'", sounddriver);
}
free(sounddriver);
if (videodriver == NULL && _ini_videodriver != NULL) videodriver = strdup(_ini_videodriver);
_video_driver = (VideoDriver*)VideoDriverFactoryBase::SelectDriver(videodriver, Driver::DT_VIDEO);
if (_video_driver == NULL) {
StrEmpty(videodriver) ?
usererror("Failed to autoprobe video driver") :
usererror("Failed to select requested video driver '%s'", videodriver);
}
free(videodriver);
if (musicdriver == NULL && _ini_musicdriver != NULL) musicdriver = strdup(_ini_musicdriver);
_music_driver = (MusicDriver*)MusicDriverFactoryBase::SelectDriver(musicdriver, Driver::DT_MUSIC);
if (_music_driver == NULL) {
StrEmpty(musicdriver) ?
usererror("Failed to autoprobe music driver") :
usererror("Failed to select requested music driver '%s'", musicdriver);
}
free(musicdriver);
/* Initialize the zoom level of the screen to normal */
_screen.zoom = ZOOM_LVL_NORMAL;
/* restore saved music volume */
_music_driver->SetVolume(_msf.music_vol);
NetworkStartUp(); // initialize network-core
#if defined(ENABLE_NETWORK)
if (debuglog_conn != NULL && _network_available) {
const char *not_used = NULL;
const char *port = NULL;
uint16 rport;
rport = NETWORK_DEFAULT_DEBUGLOG_PORT;
ParseConnectionString(¬_used, &port, debuglog_conn);
if (port != NULL) rport = atoi(port);
NetworkStartDebugLog(NetworkAddress(debuglog_conn, rport));
}
#endif /* ENABLE_NETWORK */
ScanNewGRFFiles();
ResetGRFConfig(false);
/* Make sure _settings is filled with _settings_newgame if we switch to a game directly */
if (_switch_mode != SM_NONE) MakeNewgameSettingsLive();
/* initialize the ingame console */
IConsoleInit();
_cursor.in_window = true;
InitializeGUI();
IConsoleCmdExec("exec scripts/autoexec.scr 0");
/* Take our initial lock on whatever we might want to do! */
_genworld_paint_mutex->BeginCritical();
_genworld_mapgen_mutex->BeginCritical();
GenerateWorld(GWM_EMPTY, 64, 64); // Make the viewport initialization happy
WaitTillGeneratedWorld();
CheckForMissingGlyphsInLoadedLanguagePack();
#ifdef ENABLE_NETWORK
if (network && _network_available) {
if (network_conn != NULL) {
const char *port = NULL;
const char *company = NULL;
uint16 rport = NETWORK_DEFAULT_PORT;
CompanyID join_as = COMPANY_NEW_COMPANY;
ParseConnectionString(&company, &port, network_conn);
if (company != NULL) {
join_as = (CompanyID)atoi(company);
if (join_as != COMPANY_SPECTATOR) {
join_as--;
if (join_as >= MAX_COMPANIES) return false;
}
}
if (port != NULL) rport = atoi(port);
LoadIntroGame();
_switch_mode = SM_NONE;
NetworkClientConnectGame(NetworkAddress(network_conn, rport), join_as, join_server_password, join_company_password);
}
}
#endif /* ENABLE_NETWORK */
_video_driver->MainLoop();
WaitTillSaved();
/* only save config if we have to */
if (save_config) {
SaveToConfig();
SaveHotkeysToConfig();
SaveToHighScore();
}
/* Reset windowing system, stop drivers, free used memory, ... */
ShutdownGame();
free(const_cast<char *>(BaseGraphics::ini_set));
free(const_cast<char *>(BaseSounds::ini_set));
free(const_cast<char *>(BaseMusic::ini_set));
free(_ini_musicdriver);
free(_ini_sounddriver);
free(_ini_videodriver);
free(_ini_blitter);
return 0;
}
int CDECL main(int argc, char *argv[])
{
char pathbuf[MAX_PATH];
const char *src_dir = ".";
const char *dest_dir = NULL;
GetOptData mgo(argc - 1, argv + 1, _opts);
for (;;) {
int i = mgo.GetOpt();
if (i == -1) break;
switch (i) {
case 'v':
puts("$Revision$");
return 0;
case 'C':
printf("args\tflags\tcommand\treplacement\n");
for (const CmdStruct *cs = _cmd_structs; cs < endof(_cmd_structs); cs++) {
char flags;
switch (cs->value) {
case 0x200E: case 0x200F: // Implicit BIDI controls
case 0x202A: case 0x202B: case 0x202C: case 0x202D: case 0x202E: // Explicit BIDI controls
case 0xA0: // Non breaking space
case '\n': // Newlines may be added too
case '{': // This special
/* This command may be in the translation when it is not in base */
flags = 'i';
break;
default:
if (cs->proc == EmitGender) {
flags = 'g'; // Command needs number of parameters defined by number of genders
} else if (cs->proc == EmitPlural) {
flags = 'p'; // Command needs number of parameters defined by plural value
} else {
flags = '0'; // Command needs no parameters
}
}
printf("%i\t%c\t\"%s\"\t\"%s\"\n", cs->consumes, flags, cs->cmd, strstr(cs->cmd, "STRING") ? "STRING" : cs->cmd);
}
return 0;
case 'L':
printf("count\tdescription\tnames\n");
for (const PluralForm *pf = _plural_forms; pf < endof(_plural_forms); pf++) {
printf("%i\t\"%s\"\t%s\n", pf->plural_count, pf->description, pf->names);
}
return 0;
case 'P':
printf("name\tflags\tdefault\tdescription\n");
for (size_t i = 0; i < lengthof(_pragmas); i++) {
printf("\"%s\"\t%s\t\"%s\"\t\"%s\"\n",
_pragmas[i][0], _pragmas[i][1], _pragmas[i][2], _pragmas[i][3]);
}
return 0;
case 't':
_show_todo |= 1;
break;
case 'w':
_show_todo |= 2;
break;
case 'h':
puts(
"strgen - $Revision$\n"
" -v | --version print version information and exit\n"
" -t | --todo replace any untranslated strings with '<TODO>'\n"
" -w | --warning print a warning for any untranslated strings\n"
" -h | -? | --help print this help message and exit\n"
" -s | --source_dir search for english.txt in the specified directory\n"
" -d | --dest_dir put output file in the specified directory, create if needed\n"
" -export-commands export all commands and exit\n"
" -export-plurals export all plural forms and exit\n"
" -export-pragmas export all pragmas and exit\n"
" Run without parameters and strgen will search for english.txt and parse it,\n"
" creating strings.h. Passing an argument, strgen will translate that language\n"
" file using english.txt as a reference and output <language>.lng."
);
return 0;
case 's':
src_dir = replace_pathsep(mgo.opt);
break;
case 'd':
dest_dir = replace_pathsep(mgo.opt);
break;
case -2:
fprintf(stderr, "Invalid arguments\n");
return 0;
}
}
if (dest_dir == NULL) dest_dir = src_dir; // if dest_dir is not specified, it equals src_dir
try {
/* strgen has two modes of operation. If no (free) arguments are passed
* strgen generates strings.h to the destination directory. If it is supplied
* with a (free) parameter the program will translate that language to destination
* directory. As input english.txt is parsed from the source directory */
if (mgo.numleft == 0) {
mkpath(pathbuf, lengthof(pathbuf), src_dir, "english.txt");
/* parse master file */
StringData data(TAB_COUNT);
FileStringReader master_reader(data, pathbuf, true, false);
master_reader.ParseFile();
if (_errors != 0) return 1;
/* write strings.h */
ottd_mkdir(dest_dir);
mkpath(pathbuf, lengthof(pathbuf), dest_dir, "strings.h");
HeaderFileWriter writer(pathbuf);
writer.WriteHeader(data);
writer.Finalise(data);
} else if (mgo.numleft >= 1) {
char *r;
mkpath(pathbuf, lengthof(pathbuf), src_dir, "english.txt");
StringData data(TAB_COUNT);
/* parse master file and check if target file is correct */
FileStringReader master_reader(data, pathbuf, true, false);
master_reader.ParseFile();
for (int i = 0; i < mgo.numleft; i++) {
data.FreeTranslation();
const char *translation = replace_pathsep(mgo.argv[i]);
const char *file = strrchr(translation, PATHSEPCHAR);
FileStringReader translation_reader(data, translation, false, file == NULL || strcmp(file + 1, "english.txt") != 0);
translation_reader.ParseFile(); // target file
if (_errors != 0) return 1;
/* get the targetfile, strip any directories and append to destination path */
r = strrchr(mgo.argv[i], PATHSEPCHAR);
mkpath(pathbuf, lengthof(pathbuf), dest_dir, (r != NULL) ? &r[1] : mgo.argv[i]);
/* rename the .txt (input-extension) to .lng */
r = strrchr(pathbuf, '.');
if (r == NULL || strcmp(r, ".txt") != 0) r = strchr(pathbuf, '\0');
ttd_strlcpy(r, ".lng", (size_t)(r - pathbuf));
LanguageFileWriter writer(pathbuf);
writer.WriteLang(data);
writer.Finalise();
/* if showing warnings, print a summary of the language */
if ((_show_todo & 2) != 0) {
fprintf(stdout, "%d warnings and %d errors for %s\n", _warnings, _errors, pathbuf);
}
}
}
} catch (...) {
return 2;
}
return 0;
}
/**
* And the main program (what else?)
* @param argc Number of command-line arguments including the program name itself.
* @param argv Vector of the command-line arguments.
*/
int CDECL main(int argc, char *argv[])
{
const char *output_file = NULL;
const char *before_file = NULL;
const char *after_file = NULL;
GetOptData mgo(argc - 1, argv + 1, _opts);
for (;;) {
int i = mgo.GetOpt();
if (i == -1) break;
switch (i) {
case 'v':
puts("$Revision$");
return 0;
case 'h':
puts("settingsgen - $Revision$\n"
"Usage: settingsgen [options] ini-file...\n"
"with options:\n"
" -v, --version Print version information and exit\n"
" -h, -?, --help Print this help message and exit\n"
" -b FILE, --before FILE Copy FILE before all settings\n"
" -a FILE, --after FILE Copy FILE after all settings\n"
" -o FILE, --output FILE Write output to FILE\n");
return 0;
case 'o':
output_file = mgo.opt;
break;
case 'a':
after_file = mgo.opt;
break;
case 'b':
before_file = mgo.opt;
break;
case -2:
fprintf(stderr, "Invalid arguments\n");
return 1;
}
}
_stored_output.Clear();
for (int i = 0; i < mgo.numleft; i++) ProcessIniFile(mgo.argv[i]);
/* Write output. */
if (output_file == NULL) {
CopyFile(before_file, stdout);
_stored_output.Write(stdout);
CopyFile(after_file, stdout);
} else {
static const char * const tmp_output = "tmp2.xxx";
FILE *fp = fopen(tmp_output, "w");
if (fp == NULL) {
fprintf(stderr, "settingsgen: Warning: Cannot open file %s\n", tmp_output);
return 1;
}
CopyFile(before_file, fp);
_stored_output.Write(fp);
CopyFile(after_file, fp);
fclose(fp);
if (CompareFiles(tmp_output, output_file)) {
/* Files are equal. tmp2.xxx is not needed. */
unlink(tmp_output);
} else {
/* Rename tmp2.xxx to output file. */
#if defined(WIN32) || defined(WIN64)
unlink(output_file);
#endif
if (rename(tmp_output, output_file) == -1) error("rename() failed");
}
}
return 0;
}
