// options.cxx -- class to handle command line options // // Written by Curtis Olson, started April 1998. // // Copyright (C) 1998 Curtis L. Olson - curt@me.umn.edu // // This program 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; either version 2 of the // License, or (at your option) any later version. // // This program 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 this program; if not, write to the Free Software // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. // // $Id$ #ifdef HAVE_CONFIG_H # include #endif #include /* normans fix */ #if defined(FX) && defined(XMESA) bool global_fullscreen = true; #endif #include // rint() #include #include // atof(), atoi() #include #include STL_STRING #include // #include // #include // #include // #include // #include #ifdef FG_NETWORK_OLK # include #endif #include "globals.hxx" #include "fg_init.hxx" #include "fg_props.hxx" #include "options.hxx" SG_USING_STD(string); SG_USING_NAMESPACE(std); #define NEW_DEFAULT_MODEL_HZ 120 enum { FG_OPTIONS_OK = 0, FG_OPTIONS_HELP = 1, FG_OPTIONS_ERROR = 2 }; static double atof( const string& str ) { #ifdef __MWERKS__ // -dw- if ::atof is called, then we get an infinite loop return std::atof( str.c_str() ); #else return ::atof( str.c_str() ); #endif } static int atoi( const string& str ) { #ifdef __MWERKS__ // -dw- if ::atoi is called, then we get an infinite loop return std::atoi( str.c_str() ); #else return ::atoi( str.c_str() ); #endif } /** * Set a few fail-safe default property values. * * These should all be set in $FG_ROOT/preferences.xml, but just * in case, we provide some initial sane values here. This method * should be invoked *before* reading any init files. */ void fgSetDefaults () { // set a possibly independent location for scenery data char *envp = ::getenv( "FG_SCENERY" ); if ( envp != NULL ) { // fg_root could be anywhere, so default to environmental // variable $FG_ROOT if it is set. globals->set_fg_scenery(envp); } else { // Otherwise, default to Scenery being in $FG_ROOT/Scenery globals->set_fg_scenery(""); } // Position (Globe, AZ) fgSetDouble("/position/longitude", -110.6642444); fgSetDouble("/position/latitude", 33.3528917); fgSetDouble("/position/altitude", -9999.0); // Orientation fgSetDouble("/orientation/heading", 270); fgSetDouble("/orientation/roll", 0); fgSetDouble("/orientation/pitch", 0.424); // Velocities fgSetString("/sim/startup/speed-set", "knots"); fgSetDouble("/velocities/uBody", 0.0); fgSetDouble("/velocities/vBody", 0.0); fgSetDouble("/velocities/wBody", 0.0); fgSetDouble("/velocities/speed-north", 0.0); fgSetDouble("/velocities/speed-east", 0.0); fgSetDouble("/velocities/speed-down", 0.0); fgSetDouble("/velocities/airspeed", 0.0); fgSetDouble("/velocities/mach", 0.0); // Miscellaneous fgSetBool("/sim/startup/game-mode", false); fgSetBool("/sim/startup/splash-screen", true); fgSetBool("/sim/startup/intro-music", true); // we want mouse-pointer to have an undefined value if nothing is // specified so we can do the right thing for voodoo-1/2 cards. // fgSetString("/sim/startup/mouse-pointer", "disabled"); fgSetString("/sim/control-mode", "joystick"); fgSetBool("/sim/auto-coordination", false); // Features fgSetBool("/sim/hud/visibility", false); fgSetBool("/sim/panel/visibility", true); fgSetBool("/sim/sound", true); fgSetBool("/sim/hud/antialiased", false); // Flight Model options fgSetString("/sim/flight-model", "larcsim"); fgSetString("/sim/aircraft", "c172"); fgSetInt("/sim/model-hz", NEW_DEFAULT_MODEL_HZ); fgSetInt("/sim/speed-up", 1); fgSetBool("/sim/startup/trim", false); fgSetBool("/sim/startup/onground", true); // Rendering options fgSetString("/sim/rendering/fog", "nicest"); fgSetBool("/environment/clouds/status", true); fgSetDouble("/environment/clouds/altitude", 5000); fgSetBool("/sim/startup/fullscreen", false); fgSetBool("/sim/rendering/shading", true); fgSetBool("/sim/rendering/skyblend", true); fgSetBool("/sim/rendering/textures", true); fgSetBool("/sim/rendering/wireframe", false); fgSetInt("/sim/startup/xsize", 800); fgSetInt("/sim/startup/ysize", 600); fgSetInt("/sim/rendering/bits-per-pixel", 16); fgSetString("/sim/view-mode", "pilot"); fgSetDouble("/sim/view/offset", 0); fgSetDouble("/environment/visibility", 20000); // HUD options fgSetString("/sim/startup/units", "feet"); fgSetString("/sim/hud/frame-stat-type", "tris"); // Time options fgSetInt("/sim/startup/time-offset", 0); fgSetString("/sim/startup/time-offset-type", "system-offset"); fgSetBool("/sim/networking/network-olk", false); fgSetString("/sim/networking/call-sign", "Johnny"); } // parse a time string ([+/-]%f[:%f[:%f]]) into hours static double parse_time(const string& time_in) { char *time_str, num[256]; double hours, minutes, seconds; double result = 0.0; int sign = 1; int i; time_str = (char *)time_in.c_str(); // printf("parse_time(): %s\n", time_str); // check for sign if ( strlen(time_str) ) { if ( time_str[0] == '+' ) { sign = 1; time_str++; } else if ( time_str[0] == '-' ) { sign = -1; time_str++; } } // printf("sign = %d\n", sign); // get hours if ( strlen(time_str) ) { i = 0; while ( (time_str[0] != ':') && (time_str[0] != '\0') ) { num[i] = time_str[0]; time_str++; i++; } if ( time_str[0] == ':' ) { time_str++; } num[i] = '\0'; hours = atof(num); // printf("hours = %.2lf\n", hours); result += hours; } // get minutes if ( strlen(time_str) ) { i = 0; while ( (time_str[0] != ':') && (time_str[0] != '\0') ) { num[i] = time_str[0]; time_str++; i++; } if ( time_str[0] == ':' ) { time_str++; } num[i] = '\0'; minutes = atof(num); // printf("minutes = %.2lf\n", minutes); result += minutes / 60.0; } // get seconds if ( strlen(time_str) ) { i = 0; while ( (time_str[0] != ':') && (time_str[0] != '\0') ) { num[i] = time_str[0]; time_str++; i++; } num[i] = '\0'; seconds = atof(num); // printf("seconds = %.2lf\n", seconds); result += seconds / 3600.0; } return(sign * result); } // parse a date string (yyyy:mm:dd:hh:mm:ss) into a time_t (seconds) static long int parse_date( const string& date) { struct tm gmt; char * date_str, num[256]; int i; // initialize to zero gmt.tm_sec = 0; gmt.tm_min = 0; gmt.tm_hour = 0; gmt.tm_mday = 0; gmt.tm_mon = 0; gmt.tm_year = 0; gmt.tm_isdst = 0; // ignore daylight savings time for the moment date_str = (char *)date.c_str(); // get year if ( strlen(date_str) ) { i = 0; while ( (date_str[0] != ':') && (date_str[0] != '\0') ) { num[i] = date_str[0]; date_str++; i++; } if ( date_str[0] == ':' ) { date_str++; } num[i] = '\0'; gmt.tm_year = atoi(num) - 1900; } // get month if ( strlen(date_str) ) { i = 0; while ( (date_str[0] != ':') && (date_str[0] != '\0') ) { num[i] = date_str[0]; date_str++; i++; } if ( date_str[0] == ':' ) { date_str++; } num[i] = '\0'; gmt.tm_mon = atoi(num) -1; } // get day if ( strlen(date_str) ) { i = 0; while ( (date_str[0] != ':') && (date_str[0] != '\0') ) { num[i] = date_str[0]; date_str++; i++; } if ( date_str[0] == ':' ) { date_str++; } num[i] = '\0'; gmt.tm_mday = atoi(num); } // get hour if ( strlen(date_str) ) { i = 0; while ( (date_str[0] != ':') && (date_str[0] != '\0') ) { num[i] = date_str[0]; date_str++; i++; } if ( date_str[0] == ':' ) { date_str++; } num[i] = '\0'; gmt.tm_hour = atoi(num); } // get minute if ( strlen(date_str) ) { i = 0; while ( (date_str[0] != ':') && (date_str[0] != '\0') ) { num[i] = date_str[0]; date_str++; i++; } if ( date_str[0] == ':' ) { date_str++; } num[i] = '\0'; gmt.tm_min = atoi(num); } // get second if ( strlen(date_str) ) { i = 0; while ( (date_str[0] != ':') && (date_str[0] != '\0') ) { num[i] = date_str[0]; date_str++; i++; } if ( date_str[0] == ':' ) { date_str++; } num[i] = '\0'; gmt.tm_sec = atoi(num); } time_t theTime = sgTimeGetGMT( gmt.tm_year, gmt.tm_mon, gmt.tm_mday, gmt.tm_hour, gmt.tm_min, gmt.tm_sec ); //printf ("Date is %s\n", ctime(&theTime)); //printf ("in seconds that is %d\n", theTime); //exit(1); return (theTime); } // parse angle in the form of [+/-]ddd:mm:ss into degrees static double parse_degree( const string& degree_str) { double result = parse_time( degree_str ); // printf("Degree = %.4f\n", result); return(result); } // parse time offset string into seconds static int parse_time_offset( const string& time_str) { int result; // printf("time offset = %s\n", time_str); #ifdef HAVE_RINT result = (int)rint(parse_time(time_str) * 3600.0); #else result = (int)(parse_time(time_str) * 3600.0); #endif // printf("parse_time_offset(): %d\n", result); return( result ); } // Parse --fov=x.xx type option static double parse_fov( const string& arg ) { double fov = atof(arg); if ( fov < FG_FOV_MIN ) { fov = FG_FOV_MIN; } if ( fov > FG_FOV_MAX ) { fov = FG_FOV_MAX; } fgSetDouble("/sim/field-of-view", fov); // printf("parse_fov(): result = %.4f\n", fov); return fov; } // Parse I/O channel option // // Format is "--protocol=medium,direction,hz,medium_options,..." // // protocol = { native, nmea, garmin, fgfs, rul, pve, etc. } // medium = { serial, socket, file, etc. } // direction = { in, out, bi } // hz = number of times to process channel per second (floating // point values are ok. // // Serial example "--nmea=serial,dir,hz,device,baud" where // // device = OS device name of serial line to be open()'ed // baud = {300, 1200, 2400, ..., 230400} // // Socket exacmple "--native=socket,dir,hz,machine,port,style" where // // machine = machine name or ip address if client (leave empty if server) // port = port, leave empty to let system choose // style = tcp or udp // // File example "--garmin=file,dir,hz,filename" where // // filename = file system file name static bool parse_channel( const string& type, const string& channel_str ) { // cout << "Channel string = " << channel_str << endl; globals->get_channel_options_list()->push_back( type + "," + channel_str ); return true; } // Parse --wp=ID[@alt] static bool parse_wp( const string& arg ) { string id, alt_str; double alt = 0.0; unsigned int pos = arg.find( "@" ); if ( pos != string::npos ) { id = arg.substr( 0, pos ); alt_str = arg.substr( pos + 1 ); // cout << "id str = " << id << " alt str = " << alt_str << endl; alt = atof( alt_str.c_str() ); if ( fgGetString("/sim/startup/units") == "feet" ) { alt *= SG_FEET_TO_METER; } } else { id = arg; } FGAirport a; if ( fgFindAirportID( id, &a ) ) { SGWayPoint wp( a.longitude, a.latitude, alt, SGWayPoint::WGS84, id ); globals->get_route()->add_waypoint( wp ); return true; } else { return false; } } // Parse --flight-plan=[file] static bool parse_flightplan(const string& arg) { sg_gzifstream in(arg.c_str()); if ( !in.is_open() ) { return false; } while ( true ) { string line; #if defined( macintosh ) getline( in, line, '\r' ); #else getline( in, line, '\n' ); #endif // catch extraneous (DOS) line ending character if ( line[line.length() - 1] < 32 ) { line = line.substr( 0, line.length()-1 ); } if ( in.eof() ) { break; } parse_wp(line); } return true; } // Parse a single option static int parse_option (const string& arg) { // General Options if ( (arg == "--help") || (arg == "-h") ) { // help/usage request return(FG_OPTIONS_HELP); } else if ( arg == "--disable-game-mode") { fgSetBool("/sim/startup/game-mode", false); } else if ( arg == "--enable-game-mode" ) { fgSetBool("/sim/startup/game-mode", true); } else if ( arg == "--disable-splash-screen" ) { fgSetBool("/sim/startup/splash-screen", false); } else if ( arg == "--enable-splash-screen" ) { fgSetBool("/sim/startup/splash-screen", true); } else if ( arg == "--disable-intro-music" ) { fgSetBool("/sim/startup/intro-music", false); } else if ( arg == "--enable-intro-music" ) { fgSetBool("/sim/startup/intro-music", true); } else if ( arg == "--disable-mouse-pointer" ) { fgSetString("/sim/startup/mouse-pointer", "disabled"); } else if ( arg == "--enable-mouse-pointer" ) { fgSetString("/sim/startup/mouse-pointer", "enabled"); } else if ( arg == "--disable-freeze" ) { globals->set_freeze(false); } else if ( arg == "--enable-freeze" ) { globals->set_freeze(true); } else if ( arg == "--disable-anti-alias-hud" ) { fgSetBool("/sim/hud/antialiased", false); } else if ( arg == "--enable-anti-alias-hud" ) { fgSetBool("/sim/hud/antialiased", true); } else if ( arg.find( "--control=") == 0 ) { fgSetString("/sim/control-mode", arg.substr(10)); } else if ( arg == "--disable-auto-coordination" ) { fgSetBool("/sim/auto-coordination", false); } else if ( arg == "--enable-auto-coordination" ) { fgSetBool("/sim/auto-coordination", true); } else if ( arg == "--disable-hud" ) { fgSetBool("/sim/hud/visibility", false); } else if ( arg == "--enable-hud" ) { fgSetBool("/sim/hud/visibility", true); } else if ( arg == "--disable-panel" ) { fgSetBool("/sim/panel/visibility", false); } else if ( arg == "--enable-panel" ) { fgSetBool("/sim/panel/visibility", true); } else if ( arg == "--disable-sound" ) { fgSetBool("/sim/sound", false); } else if ( arg == "--enable-sound" ) { fgSetBool("/sim/sound", true); } else if ( arg.find( "--airport-id=") == 0 ) { // NB: changed property name!!! fgSetString("/sim/startup/airport-id", arg.substr(13)); } else if ( arg.find( "--offset-distance=") == 0 ) { fgSetDouble("/sim/startup/offset-distance", atof(arg.substr(18))); } else if ( arg.find( "--offset-azimuth=") == 0 ) { fgSetDouble("/sim/startup/offset-azimuth", atof(arg.substr(17))); } else if ( arg.find( "--lon=" ) == 0 ) { fgSetDouble("/position/longitude", parse_degree(arg.substr(6))); fgSetString("/sim/startup/airport-id", ""); } else if ( arg.find( "--lat=" ) == 0 ) { fgSetDouble("/position/latitude", parse_degree(arg.substr(6))); fgSetString("/sim/startup/airport-id", ""); } else if ( arg.find( "--altitude=" ) == 0 ) { fgSetBool("/sim/startup/onground", false); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/position/altitude", atof(arg.substr(11))); else fgSetDouble("/position/altitude", atof(arg.substr(11)) * SG_METER_TO_FEET); } else if ( arg.find( "--uBody=" ) == 0 ) { fgSetString("/sim/startup/speed-set", "UVW"); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/velocities/uBody", atof(arg.substr(8))); else fgSetDouble("/velocities/uBody", atof(arg.substr(8)) * SG_METER_TO_FEET); } else if ( arg.find( "--vBody=" ) == 0 ) { fgSetString("/sim/startup/speed-set", "UVW"); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/velocities/vBody", atof(arg.substr(8))); else fgSetDouble("/velocities/vBody", atof(arg.substr(8)) * SG_METER_TO_FEET); } else if ( arg.find( "--wBody=" ) == 0 ) { fgSetString("/sim/startup/speed-set", "UVW"); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/velocities/wBody", atof(arg.substr(8))); else fgSetDouble("/velocities/wBody", atof(arg.substr(8)) * SG_METER_TO_FEET); } else if ( arg.find( "--vNorth=" ) == 0 ) { fgSetString("/sim/startup/speed-set", "NED"); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/velocities/speed-north", atof(arg.substr(9))); else fgSetDouble("/velocities/speed-north", atof(arg.substr(9)) * SG_METER_TO_FEET); } else if ( arg.find( "--vEast=" ) == 0 ) { fgSetString("/sim/startup/speed-set", "NED"); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/velocities/speed-east", atof(arg.substr(8))); else fgSetDouble("/velocities/speed-east", atof(arg.substr(8)) * SG_METER_TO_FEET); } else if ( arg.find( "--vDown=" ) == 0 ) { fgSetString("/sim/startup/speed-set", "NED"); if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/velocities/speed-down", atof(arg.substr(8))); else fgSetDouble("/velocities/speed-down", atof(arg.substr(8)) * SG_METER_TO_FEET); } else if ( arg.find( "--vc=" ) == 0) { fgSetString("/sim/startup/speed-set", "knots"); fgSetDouble("/velocities/airspeed", atof(arg.substr(5))); } else if ( arg.find( "--mach=" ) == 0) { fgSetString("/sim/startup/speed-set", "mach"); fgSetDouble("/velocities/mach", atof(arg.substr(7))); } else if ( arg.find( "--heading=" ) == 0 ) { fgSetDouble("/orientation/heading", atof(arg.substr(10))); } else if ( arg.find( "--roll=" ) == 0 ) { fgSetDouble("/orientation/roll", atof(arg.substr(7))); } else if ( arg.find( "--pitch=" ) == 0 ) { fgSetDouble("/orientation/pitch", atof(arg.substr(8))); } else if ( arg.find( "--fg-root=" ) == 0 ) { globals->set_fg_root(arg.substr( 10 )); } else if ( arg.find( "--fg-scenery=" ) == 0 ) { globals->set_fg_scenery(arg.substr( 13 )); } else if ( arg.find( "--fdm=" ) == 0 ) { fgSetString("/sim/flight-model", arg.substr(6)); } else if ( arg.find( "--aircraft=" ) == 0 ) { fgSetString("/sim/aircraft", arg.substr(11)); } else if ( arg.find( "--aircraft-dir=" ) == 0 ) { fgSetString("/sim/aircraft-dir", arg.substr(15)); } else if ( arg.find( "--model-hz=" ) == 0 ) { fgSetInt("/sim/model-hz", atoi(arg.substr(11))); } else if ( arg.find( "--speed=" ) == 0 ) { fgSetInt("/sim/speed-up", atoi(arg.substr(8))); } else if ( arg.find( "--trim") == 0) { fgSetBool("/sim/startup/trim", true); } else if ( arg.find( "--notrim") == 0) { fgSetBool("/sim/startup/trim", false); } else if ( arg.find( "--on-ground") == 0) { fgSetBool("/sim/startup/onground", true); } else if ( arg.find( "--in-air") == 0) { fgSetBool("/sim/startup/onground", false); } else if ( arg == "--fog-disable" ) { fgSetString("/sim/rendering/fog", "disabled"); } else if ( arg == "--fog-fastest" ) { fgSetString("/sim/rendering/fog", "fastest"); } else if ( arg == "--fog-nicest" ) { fgSetString("/sim/fog", "nicest"); } else if ( arg == "--disable-clouds" ) { fgSetBool("/environment/clouds/status", false); } else if ( arg == "--enable-clouds" ) { fgSetBool("/environment/clouds/status", true); } else if ( arg.find( "--clouds-asl=" ) == 0 ) { // FIXME: check units if ( fgGetString("/sim/startup/units") == "feet" ) fgSetDouble("/environment/clouds/altitude", atof(arg.substr(13)) * SG_FEET_TO_METER); else fgSetDouble("/environment/clouds/altitude", atof(arg.substr(13))); } else if ( arg.find( "--fov=" ) == 0 ) { parse_fov( arg.substr(6) ); } else if ( arg == "--disable-fullscreen" ) { fgSetBool("/sim/startup/fullscreen", false); } else if ( arg== "--enable-fullscreen") { fgSetBool("/sim/startup/fullscreen", true); } else if ( arg == "--shading-flat") { fgSetBool("/sim/rendering/shading", false); } else if ( arg == "--shading-smooth") { fgSetBool("/sim/rendering/shading", true); } else if ( arg == "--disable-skyblend") { fgSetBool("/sim/rendering/skyblend", false); } else if ( arg== "--enable-skyblend" ) { fgSetBool("/sim/rendering/skyblend", true); } else if ( arg == "--disable-textures" ) { fgSetBool("/sim/rendering/textures", false); } else if ( arg == "--enable-textures" ) { fgSetBool("/sim/rendering/textures", true); } else if ( arg == "--disable-wireframe" ) { fgSetBool("/sim/rendering/wireframe", false); } else if ( arg == "--enable-wireframe" ) { fgSetBool("/sim/rendering/wireframe", true); } else if ( arg.find( "--geometry=" ) == 0 ) { bool geometry_ok = true; int xsize = 0, ysize = 0; string geometry = arg.substr( 11 ); string::size_type i = geometry.find('x'); if (i != string::npos) { xsize = atoi(geometry.substr(0, i)); ysize = atoi(geometry.substr(i+1)); } else { geometry_ok = false; } if ( xsize <= 0 || ysize <= 0 ) { xsize = 640; ysize = 480; geometry_ok = false; } if ( !geometry_ok ) { SG_LOG( SG_GENERAL, SG_ALERT, "Unknown geometry: " << geometry ); SG_LOG( SG_GENERAL, SG_ALERT, "Setting geometry to " << xsize << 'x' << ysize << '\n'); } else { SG_LOG( SG_GENERAL, SG_INFO, "Setting geometry to " << xsize << 'x' << ysize << '\n'); fgSetInt("/sim/startup/xsize", xsize); fgSetInt("/sim/startup/ysize", ysize); } } else if ( arg.find( "--bpp=" ) == 0 ) { string bits_per_pix = arg.substr( 6 ); if ( bits_per_pix == "16" ) { fgSetInt("/sim/rendering/bits-per-pixel", 16); } else if ( bits_per_pix == "24" ) { fgSetInt("/sim/rendering/bits-per-pixel", 24); } else if ( bits_per_pix == "32" ) { fgSetInt("/sim/rendering/bits-per-pixel", 32); } else { SG_LOG(SG_GENERAL, SG_ALERT, "Unsupported bpp " << bits_per_pix); } } else if ( arg == "--units-feet" ) { fgSetString("/sim/startup/units", "feet"); } else if ( arg == "--units-meters" ) { fgSetString("/sim/startup/units", "meters"); } else if ( arg.find( "--time-offset" ) == 0 ) { fgSetInt("/sim/startup/time-offset", parse_time_offset( (arg.substr(14)) )); } else if ( arg.find( "--time-match-real") == 0 ) { fgSetString("/sim/startup/time-offset-type", "system-offset"); } else if ( arg.find( "--time-match-local") == 0 ) { fgSetString("/sim/startup/time-offset-type", "latitude-offset"); } else if ( arg.find( "--start-date-sys=") == 0 ) { fgSetInt("/sim/startup/time-offset", parse_date((arg.substr(17)))); fgSetString("/sim/startup/time-offset-type", "system"); } else if ( arg.find( "--start-date-lat=") == 0 ) { fgSetInt("/sim/startup/time-offset", parse_date((arg.substr(17)))); fgSetString("/sim/startup/time-offset-type", "latitude"); } else if ( arg.find( "--start-date-gmt=") == 0 ) { fgSetInt("/sim/startup/time-offset", parse_date((arg.substr(17)))); fgSetString("/sim/startup/time-offset-type", "gmt"); } else if ( arg == "--hud-tris" ) { fgSetString("/sim/hud/frame-stat-type", "tris"); } else if ( arg == "--hud-culled" ) { fgSetString("/sim/hud/frame-stat-type", "culled"); } else if ( arg.find( "--atlas=" ) == 0 ) { parse_channel( "atlas", arg.substr(8) ); } else if ( arg.find( "--native=" ) == 0 ) { parse_channel( "native", arg.substr(9) ); } else if ( arg.find( "--garmin=" ) == 0 ) { parse_channel( "garmin", arg.substr(9) ); } else if ( arg.find( "--nmea=" ) == 0 ) { parse_channel( "nmea", arg.substr(7) ); } else if ( arg.find( "--props=" ) == 0 ) { parse_channel( "props", arg.substr(8) ); } else if ( arg.find( "--pve=" ) == 0 ) { parse_channel( "pve", arg.substr(6) ); } else if ( arg.find( "--ray=" ) == 0 ) { parse_channel( "ray", arg.substr(6) ); } else if ( arg.find( "--rul=" ) == 0 ) { parse_channel( "rul", arg.substr(6) ); } else if ( arg.find( "--joyclient=" ) == 0 ) { parse_channel( "joyclient", arg.substr(12) ); #ifdef FG_NETWORK_OLK } else if ( arg == "--disable-network-olk" ) { fgSetBool("/sim/networking/olk", false); } else if ( arg== "--enable-network-olk") { fgSetBool("/sim/networking/olk", true); } else if ( arg == "--net-hud" ) { fgSetBool("/sim/hud/net-display", true); net_hud_display = 1; // FIXME } else if ( arg.find( "--net-id=") == 0 ) { fgSetString("sim/networking/call-sign", arg.substr(9)); #endif } else if ( arg.find( "--prop:" ) == 0 ) { string assign = arg.substr(7); unsigned int pos = assign.find('='); if ( pos == arg.npos || pos == 0 ) { SG_LOG( SG_GENERAL, SG_ALERT, "Bad property assignment: " << arg ); return FG_OPTIONS_ERROR; } string name = assign.substr(0, pos); string value = assign.substr(pos + 1); fgSetString(name.c_str(), value); // SG_LOG(SG_GENERAL, SG_INFO, "Setting default value of property " // << name << " to \"" << value << '"'); // $$$ begin - added VS Renganathan, 14 Oct 2K // for multi-window outside window imagery } else if ( arg.find( "--view-offset=" ) == 0 ) { string woffset = arg.substr( 14 ); double default_view_offset = 0.0; if ( woffset == "LEFT" ) { default_view_offset = SGD_PI * 0.25; } else if ( woffset == "RIGHT" ) { default_view_offset = SGD_PI * 1.75; } else if ( woffset == "CENTER" ) { default_view_offset = 0.00; } else { default_view_offset = atof( woffset.c_str() ) * SGD_DEGREES_TO_RADIANS; } FGViewerRPH *pilot_view = (FGViewerRPH *)globals->get_viewmgr()->get_view( 0 ); pilot_view->set_view_offset( default_view_offset ); pilot_view->set_goal_view_offset( default_view_offset ); fgSetDouble("/sim/view/offset", default_view_offset); // $$$ end - added VS Renganathan, 14 Oct 2K } else if ( arg.find( "--visibility=" ) == 0 ) { fgSetDouble("/environment/visibility", atof(arg.substr(13))); } else if ( arg.find( "--visibility-miles=" ) == 0 ) { double visibility = atof(arg.substr(19)) * 5280.0 * SG_FEET_TO_METER; fgSetDouble("/environment/visibility", visibility); } else if ( arg.find( "--wind=" ) == 0 ) { string val = arg.substr(7); unsigned int pos = val.find('@'); if ( pos == string::npos ) { SG_LOG( SG_GENERAL, SG_ALERT, "bad wind value " << val ); return FG_OPTIONS_ERROR; } double dir = atof(val.substr(0,pos).c_str()); double speed = atof(val.substr(pos+1).c_str()); SG_LOG(SG_GENERAL, SG_INFO, "WIND: " << dir << '@' << speed << " knots" << endl); // convert to fps speed *= SG_NM_TO_METER * SG_METER_TO_FEET * (1.0/3600); dir += 180; if (dir >= 360) dir -= 360; dir *= SGD_DEGREES_TO_RADIANS; fgSetDouble("/environment/wind-north", speed * cos(dir)); fgSetDouble("/environment/wind-east", speed * sin(dir)); } else if ( arg.find( "--wp=" ) == 0 ) { parse_wp( arg.substr( 5 ) ); } else if ( arg.find( "--flight-plan=") == 0) { parse_flightplan ( arg.substr (14) ); } else if ( arg.find( "--config=" ) == 0 ) { string file = arg.substr(9); if (!readProperties(file, globals->get_props())) { SG_LOG(SG_IO, SG_ALERT, "--config: failed to read properties from " << file); return FG_OPTIONS_ERROR; } } else { SG_LOG( SG_GENERAL, SG_ALERT, "Unknown option '" << arg << "'" ); return FG_OPTIONS_ERROR; } return FG_OPTIONS_OK; } // Scan the command line options for an fg_root definition and set // just that. string fgScanForRoot (int argc, char **argv) { int i = 1; SG_LOG(SG_GENERAL, SG_INFO, "Scanning for root: command line"); while ( i < argc ) { SG_LOG( SG_GENERAL, SG_DEBUG, "argv[" << i << "] = " << argv[i] ); string arg = argv[i]; if ( arg.find( "--fg-root=" ) == 0 ) { return arg.substr( 10 ); } i++; } return ""; } // Scan the config file for an fg_root definition and set just that. string fgScanForRoot (const string& path) { sg_gzifstream in( path ); if ( !in.is_open() ) return ""; SG_LOG( SG_GENERAL, SG_INFO, "Scanning for root: " << path ); in >> skipcomment; #ifndef __MWERKS__ while ( ! in.eof() ) { #else char c = '\0'; while ( in.get(c) && c != '\0' ) { in.putback(c); #endif string line; #if defined( macintosh ) getline( in, line, '\r' ); #else getline( in, line, '\n' ); #endif // catch extraneous (DOS) line ending character if ( line[line.length() - 1] < 32 ) { line = line.substr( 0, line.length()-1 ); } if ( line.find( "--fg-root=" ) == 0 ) { return line.substr( 10 ); } in >> skipcomment; } return ""; } // Parse the command line options void fgParseOptions (int argc, char **argv) { int i = 1; int result; SG_LOG(SG_GENERAL, SG_INFO, "Processing command line arguments"); while ( i < argc ) { SG_LOG( SG_GENERAL, SG_DEBUG, "argv[" << i << "] = " << argv[i] ); result = parse_option(argv[i]); if ( (result == FG_OPTIONS_HELP) || (result == FG_OPTIONS_ERROR) ) { fgUsage(); exit(-1); } i++; } } // Parse config file options void fgParseOptions (const string& path) { sg_gzifstream in( path ); if ( !in.is_open() ) { return; } SG_LOG( SG_GENERAL, SG_INFO, "Processing config file: " << path ); in >> skipcomment; #ifndef __MWERKS__ while ( ! in.eof() ) { #else char c = '\0'; while ( in.get(c) && c != '\0' ) { in.putback(c); #endif string line; #if defined( macintosh ) getline( in, line, '\r' ); #else getline( in, line, '\n' ); #endif // catch extraneous (DOS) line ending character if ( line[line.length() - 1] < 32 ) { line = line.substr( 0, line.length()-1 ); } if ( parse_option( line ) == FG_OPTIONS_ERROR ) { SG_LOG( SG_GENERAL, SG_ALERT, "Config file parse error: " << path << " '" << line << "'" ); fgUsage(); exit(-1); } in >> skipcomment; } } // Print usage message void fgUsage () { cout << "Usage: fgfs [ options ... ]" << endl; cout << endl; cout << "General Options:" << endl; cout << "\t--help -h: print usage" << endl; cout << "\t--fg-root=path: specify the root path for all the data files" << endl; cout << "\t--fg-scenery=path: specify the base path for all the scenery" << " data." << endl << "\t\tdefaults to $FG_ROOT/Scenery" << endl; cout << "\t--disable-game-mode: disable full-screen game mode" << endl; cout << "\t--enable-game-mode: enable full-screen game mode" << endl; cout << "\t--disable-splash-screen: disable splash screen" << endl; cout << "\t--enable-splash-screen: enable splash screen" << endl; cout << "\t--disable-intro-music: disable introduction music" << endl; cout << "\t--enable-intro-music: enable introduction music" << endl; cout << "\t--disable-mouse-pointer: disable extra mouse pointer" << endl; cout << "\t--enable-mouse-pointer: enable extra mouse pointer (i.e. for" << endl; cout << "\t\tfull screen voodoo/voodoo-II based cards.)" << endl; cout << "\t--disable-freeze: start out in an running state" << endl; cout << "\t--enable-freeze: start out in a frozen state" << endl; cout << "\t--control=mode: primary control mode " << "(joystick, keyboard, mouse)" << endl; cout << "\t--prop:name=value: set property to " << endl; cout << "\t--config=path: load additional properties from path" << endl; cout << endl; cout << "Features:" << endl; cout << "\t--disable-hud: disable heads up display" << endl; cout << "\t--enable-hud: enable heads up display" << endl; cout << "\t--disable-panel: disable instrument panel" << endl; cout << "\t--enable-panel: enable instrumetn panel" << endl; cout << "\t--disable-sound: disable sound effects" << endl; cout << "\t--enable-sound: enable sound effects" << endl; cout << "\t--disable-anti-alias-hud: disable anti aliased hud" << endl; cout << "\t--enable-anti-alias-hud: enable anti aliased hud" << endl; cout << endl; cout << "Flight Model:" << endl; cout << "\t--fdm=abcd: selects the core flight model code." << endl; cout << "\t\tcan be one of jsb, larcsim, magic, external, balloon, or ada" << endl; cout << "\t--aircraft=abcd: aircraft model to load" << endl; cout << "\t--model-hz=n: run the FDM this rate (iterations per second)" << endl; cout << "\t--speed=n: run the FDM this much faster than real time" << endl; cout << "\t--notrim: Do NOT attempt to trim the model when initializing JSBsim" << endl; cout << "\t--on-ground: Start up at ground level (default)" << endl; cout << "\t--in-air: Start up in air (implied by specifying an initial" << " altitude above ground level." << endl; cout << "\t--wind=DIR@SPEED: specify wind coming from DIR (degrees) at SPEED (knots)" << endl; cout << endl; //(UIUC) cout <<"Aircraft model directory:" << endl; cout <<"\t--aircraft-dir= path is relative to the path of the executable" << endl; cout << endl; cout << "Initial Position and Orientation:" << endl; cout << "\t--airport-id=ABCD: specify starting postion by airport id" << endl; cout << "\t--offset-distance: specify distance to threshhold" << " (NM)" << endl; cout << "\t--offset-azimuth: specify heading to threshhold (deg) " << endl; cout << "\t--lon=degrees: starting longitude in degrees (west = -)" << endl; cout << "\t--lat=degrees: starting latitude in degrees (south = -)" << endl; cout << "\t--altitude=feet: starting altitude in feet" << endl; cout << "\t\t(unless --units-meters specified" << endl; cout << "\t--heading=degrees: heading (yaw) angle in degress (Psi)" << endl; cout << "\t--roll=degrees: roll angle in degrees (Phi)" << endl; cout << "\t--pitch=degrees: pitch angle in degrees (Theta)" << endl; cout << "\t--uBody=feet per second: velocity along the body X axis" << endl; cout << "\t--vBody=feet per second: velocity along the body Y axis" << endl; cout << "\t--wBody=feet per second: velocity along the body Z axis" << endl; cout << "\t\t(unless --units-meters specified" << endl; cout << "\t--vc= initial airspeed in knots (--fdm=jsb only)" << endl; cout << "\t--mach= initial mach number (--fdm=jsb only)" << endl; cout << endl; cout << "Rendering Options:" << endl; cout << "\t--fog-disable: disable fog/haze" << endl; cout << "\t--fog-fastest: enable fastest fog/haze" << endl; cout << "\t--fog-nicest: enable nicest fog/haze" << endl; cout << "\t--enable-clouds: enable demo cloud layer" << endl; cout << "\t--disable-clouds: disable demo cloud layer" << endl; cout << "\t--clouds-asl=xxx: specify altitude of cloud layer above sea level" << endl; cout << "\t--fov=xx.x: specify initial field of view angle in degrees" << endl; cout << "\t--disable-fullscreen: disable fullscreen mode" << endl; cout << "\t--enable-fullscreen: enable fullscreen mode" << endl; cout << "\t--shading-flat: enable flat shading" << endl; cout << "\t--shading-smooth: enable smooth shading" << endl; cout << "\t--disable-skyblend: disable sky blending" << endl; cout << "\t--enable-skyblend: enable sky blending" << endl; cout << "\t--disable-textures: disable textures" << endl; cout << "\t--enable-textures: enable textures" << endl; cout << "\t--disable-wireframe: disable wireframe drawing mode" << endl; cout << "\t--enable-wireframe: enable wireframe drawing mode" << endl; cout << "\t--geometry=WWWxHHH: window geometry: 640x480, 800x600, etc." << endl; cout << "\t--view-offset=xxx: set the default forward view direction" << endl; cout << "\t\tas an offset from straight ahead. Allowable values are" << endl; cout << "\t\tLEFT, RIGHT, CENTER, or a specific number of degrees" << endl; cout << "\t--visibility=xxx: specify initial visibility in meters" << endl; cout << "\t--visibility-miles=xxx: specify initial visibility in miles" << endl; cout << endl; cout << "Scenery Options:" << endl; cout << "\t--tile-radius=n: specify tile radius, must be 1 - 4" << endl; cout << endl; cout << "Hud Options:" << endl; cout << "\t--units-feet: Hud displays units in feet" << endl; cout << "\t--units-meters: Hud displays units in meters" << endl; cout << "\t--hud-tris: Hud displays number of triangles rendered" << endl; cout << "\t--hud-culled: Hud displays percentage of triangles culled" << endl; cout << endl; cout << "Time Options:" << endl; cout << "\t--time-offset=[+-]hh:mm:ss: add this time offset" << endl; cout << "\t--time-match-real: Synchronize real-world and FlightGear" << endl << "\t\ttime. Can be used in combination with --time-offset." << endl; cout << "\t--time-match-local:Synchronize local real-world and " << endl << "\t\tFlightGear time" << endl; cout << "\t--start-date-sys=yyyy:mm:dd:hh:mm:ss: specify a starting" << endl << "\t\tdate/time. Uses your system time " << endl; cout << "\t--start-date-gmt=yyyy:mm:dd:hh:mm:ss: specify a starting" << endl << "\t\tdate/time. Uses Greenwich Mean Time" << endl; cout << "\t--start-date-lat=yyyy:mm:dd:hh:mm:ss: specify a starting" << endl << "\t\tdate/time. Uses Local Aircraft Time" << endl; #ifdef FG_NETWORK_OLK cout << endl; cout << "Network Options:" << endl; cout << "\t--enable-network-olk: enable Multipilot mode" << endl; cout << "\t--disable-network-olk: disable Multipilot mode (default)" << endl; cout << "\t--net-hud: Hud displays network info" << endl; cout << "\t--net-id=name: specify your own callsign" << endl; #endif cout << endl; cout << "Route/Way Point Options:" << endl; cout << "\t--wp=ID[@alt]: specify a waypoint for the GC autopilot" << endl; cout << "\t\tYou can specify multiple waypoints (a route) with multiple" << endl; cout << "\t\tinstances of --wp=" << endl; cout << "\t--flight-plan=[file]: Read all waypoints from [file]" <