// options.cxx -- class to handle command line options // // Written by Curtis Olson, started April 1998. // // Copyright (C) 1998 Curtis L. Olson - http://www.flightgear.org/~curt // // 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 #include #include #include // rint() #include #include // atof(), atoi() #include // strcmp() #include #include STL_STRING #include #include #include #include // #include // #include // #include // #include // #include #include #include #include "globals.hxx" #include "fg_init.hxx" #include "fg_props.hxx" #include "options.hxx" #include "util.hxx" #include "viewmgr.hxx" SG_USING_STD(string); SG_USING_STD(sort); SG_USING_NAMESPACE(std); #define NEW_DEFAULT_MODEL_HZ 120 enum { FG_OPTIONS_OK = 0, FG_OPTIONS_HELP = 1, FG_OPTIONS_ERROR = 2, FG_OPTIONS_VERBOSE_HELP = 3, FG_OPTIONS_SHOW_AIRCRAFT = 4 }; 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 (deliberately out of range) fgSetDouble("/position/longitude-deg", 9999.0); fgSetDouble("/position/latitude-deg", 9999.0); fgSetDouble("/position/altitude-ft", -9999.0); // Orientation fgSetDouble("/orientation/heading-deg", 270); fgSetDouble("/orientation/roll-deg", 0); fgSetDouble("/orientation/pitch-deg", 0.424); // Velocities fgSetDouble("/velocities/uBody-fps", 0.0); fgSetDouble("/velocities/vBody-fps", 0.0); fgSetDouble("/velocities/wBody-fps", 0.0); fgSetDouble("/velocities/speed-north-fps", 0.0); fgSetDouble("/velocities/speed-east-fps", 0.0); fgSetDouble("/velocities/speed-down-fps", 0.0); fgSetDouble("/velocities/airspeed-kt", 0.0); fgSetDouble("/velocities/mach", 0.0); // Presets fgSetDouble("/sim/presets/longitude-deg", 9999.0); fgSetDouble("/sim/presets/latitude-deg", 9999.0); fgSetDouble("/sim/presets/altitude-ft", -9999.0); fgSetDouble("/sim/presets/heading-deg", 270); fgSetDouble("/sim/presets/roll-deg", 0); fgSetDouble("/sim/presets/pitch-deg", 0.424); fgSetString("/sim/presets/speed-set", "knots"); fgSetDouble("/sim/presets/airspeed-kt", 0.0); fgSetDouble("/sim/presets/mach", 0.0); fgSetDouble("/sim/presets/uBody-fps", 0.0); fgSetDouble("/sim/presets/vBody-fps", 0.0); fgSetDouble("/sim/presets/wBody-fps", 0.0); fgSetDouble("/sim/presets/speed-north-fps", 0.0); fgSetDouble("/sim/presets/speed-east-fps", 0.0); fgSetDouble("/sim/presets/speed-down-fps", 0.0); fgSetBool("/sim/presets/onground", true); fgSetBool("/sim/presets/trim", false); // 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); #if !defined(WIN32) fgSetString("/sim/startup/browser-app", "netscape"); #else fgSetString("/sim/startup/browser-app", "webrun.bat"); #endif fgSetString("/sim/logging/priority", "alert"); // Features fgSetBool("/sim/hud/antialiased", false); fgSetBool("/sim/hud/enable3d", true); fgSetBool("/sim/hud/visibility", false); fgSetBool("/sim/panel/visibility", true); fgSetBool("/sim/sound/pause", false); // Flight Model options fgSetString("/sim/flight-model", "jsb"); fgSetString("/sim/aero", "c172"); fgSetInt("/sim/model-hz", NEW_DEFAULT_MODEL_HZ); fgSetInt("/sim/speed-up", 1); // Rendering options fgSetString("/sim/rendering/fog", "nicest"); fgSetBool("/environment/clouds/status", true); 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); fgSetBool("/sim/rendering/horizon-effect", false); fgSetBool("/sim/rendering/enhanced-lighting", false); fgSetBool("/sim/rendering/distance-attenuation", false); fgSetBool("/sim/rendering/specular-highlight", true); fgSetInt("/sim/startup/xsize", 800); fgSetInt("/sim/startup/ysize", 600); fgSetInt("/sim/rendering/bits-per-pixel", 16); fgSetString("/sim/view-mode", "pilot"); fgSetDouble("/sim/current-view/heading-offset-deg", 0); // 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"); fgSetLong("/sim/time/cur-time-override", 0); // Freeze options fgSetBool("/sim/freeze/master", false); fgSetBool("/sim/freeze/position", false); fgSetBool("/sim/freeze/clock", false); fgSetBool("/sim/freeze/fuel", false); #ifdef FG_MPLAYER_AS fgSetString("/sim/multiplay/callsign", "callsign"); fgSetString("/sim/multiplay/rxhost", "0"); fgSetString("/sim/multiplay/txhost", "0"); fgSetInt("/sim/multiplay/rxport", 0); fgSetInt("/sim/multiplay/txport", 0); #endif } static bool parse_wind (const string &wind, double * min_hdg, double * max_hdg, double * speed, double * gust) { string::size_type pos = wind.find('@'); if (pos == string::npos) return false; string dir = wind.substr(0, pos); string spd = wind.substr(pos+1); pos = dir.find(':'); if (pos == string::npos) { *min_hdg = *max_hdg = atof(dir.c_str()); } else { *min_hdg = atof(dir.substr(0,pos).c_str()); *max_hdg = atof(dir.substr(pos+1).c_str()); } pos = spd.find(':'); if (pos == string::npos) { *speed = *gust = atof(spd.c_str()); } else { *speed = atof(spd.substr(0,pos).c_str()); *gust = atof(spd.substr(pos+1).c_str()); } return true; } // 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; } SG_LOG( SG_GENERAL, SG_INFO, " parse_time() = " << sign * result ); 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/current-view/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 add_channel( const string& type, const string& channel_str ) { SG_LOG(SG_GENERAL, SG_INFO, "Channel string = " << channel_str ); globals->get_channel_options_list()->push_back( type + "," + channel_str ); // cout << "here" << endl; return true; } // The parse wp and parse flight-plan options don't work anymore, because // the route manager and the airport subsystems have not yet been initialized // at this stage. // Parse --wp=ID[@alt] static void parse_wp( const string& arg ) { string_list *waypoints = globals->get_initial_waypoints(); if (!waypoints) { waypoints = new string_list; } waypoints->push_back(arg); globals->set_initial_waypoints(waypoints); } // Parse --flight-plan=[file] static bool parse_flightplan(const string& arg) { string_list *waypoints = globals->get_initial_waypoints(); if (!waypoints) waypoints = new string_list; 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; } waypoints->push_back(line); } globals->set_initial_waypoints(waypoints); return true; } static int fgOptLanguage( const char *arg ) { globals->set_locale( fgInitLocale( arg ) ); return FG_OPTIONS_OK; } static void clearLocation () { fgSetString("/sim/presets/airport-id", ""); fgSetString("/sim/presets/vor-id", ""); fgSetString("/sim/presets/ndb-id", ""); fgSetString("/sim/presets/fix", ""); } static int fgOptVOR( const char * arg ) { clearLocation(); fgSetString("/sim/presets/vor-id", arg); return FG_OPTIONS_OK; } static int fgOptNDB( const char * arg ) { clearLocation(); fgSetString("/sim/presets/ndb-id", arg); return FG_OPTIONS_OK; } static int fgOptFIX( const char * arg ) { clearLocation(); fgSetString("/sim/presets/fix", arg); return FG_OPTIONS_OK; } static int fgOptLon( const char *arg ) { clearLocation(); fgSetDouble("/sim/presets/longitude-deg", parse_degree( arg )); fgSetDouble("/position/longitude-deg", parse_degree( arg )); return FG_OPTIONS_OK; } static int fgOptLat( const char *arg ) { clearLocation(); fgSetDouble("/sim/presets/latitude-deg", parse_degree( arg )); fgSetDouble("/position/latitude-deg", parse_degree( arg )); return FG_OPTIONS_OK; } static int fgOptAltitude( const char *arg ) { fgSetBool("/sim/presets/onground", false); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/altitude-ft", atof( arg )); else fgSetDouble("/sim/presets/altitude-ft", atof( arg ) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptUBody( const char *arg ) { fgSetString("/sim/presets/speed-set", "UVW"); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/uBody-fps", atof( arg )); else fgSetDouble("/sim/presets/uBody-fps", atof( arg ) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptVBody( const char *arg ) { fgSetString("/sim/presets/speed-set", "UVW"); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/vBody-fps", atof( arg )); else fgSetDouble("/sim/presets/vBody-fps", atof( arg ) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptWBody( const char *arg ) { fgSetString("/sim/presets/speed-set", "UVW"); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/wBody-fps", atof(arg)); else fgSetDouble("/sim/presets/wBody-fps", atof(arg) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptVNorth( const char *arg ) { fgSetString("/sim/presets/speed-set", "NED"); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/speed-north-fps", atof( arg )); else fgSetDouble("/sim/presets/speed-north-fps", atof( arg ) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptVEast( const char *arg ) { fgSetString("/sim/presets/speed-set", "NED"); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/speed-east-fps", atof(arg)); else fgSetDouble("/sim/presets/speed-east-fps", atof(arg) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptVDown( const char *arg ) { fgSetString("/sim/presets/speed-set", "NED"); if ( !strcmp(fgGetString("/sim/startup/units"), "feet") ) fgSetDouble("/sim/presets/speed-down-fps", atof(arg)); else fgSetDouble("/sim/presets/speed-down-fps", atof(arg) * SG_METER_TO_FEET); return FG_OPTIONS_OK; } static int fgOptVc( const char *arg ) { // fgSetString("/sim/presets/speed-set", "knots"); // fgSetDouble("/velocities/airspeed-kt", atof(arg.substr(5))); fgSetString("/sim/presets/speed-set", "knots"); fgSetDouble("/sim/presets/airspeed-kt", atof(arg)); return FG_OPTIONS_OK; } static int fgOptMach( const char *arg ) { fgSetString("/sim/presets/speed-set", "mach"); fgSetDouble("/sim/presets/mach", atof(arg)); return FG_OPTIONS_OK; } static int fgOptRoc( const char *arg ) { fgSetDouble("/velocities/vertical-speed-fps", atof(arg)/60); return FG_OPTIONS_OK; } static int fgOptFgRoot( const char *arg ) { globals->set_fg_root(arg); return FG_OPTIONS_OK; } static int fgOptFgScenery( const char *arg ) { globals->set_fg_scenery(arg); return FG_OPTIONS_OK; } static int fgOptFov( const char *arg ) { parse_fov( arg ); return FG_OPTIONS_OK; } static int fgOptGeometry( const char *arg ) { bool geometry_ok = true; int xsize = 0, ysize = 0; string geometry = arg; 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); } return FG_OPTIONS_OK; } static int fgOptBpp( const char *arg ) { string bits_per_pix = arg; 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); } return FG_OPTIONS_OK; } static int fgOptTimeOffset( const char *arg ) { fgSetInt("/sim/startup/time-offset", parse_time_offset( arg )); fgSetString("/sim/startup/time-offset-type", "system-offset"); return FG_OPTIONS_OK; } static int fgOptStartDateSys( const char *arg ) { fgSetInt("/sim/startup/time-offset", parse_date( arg ) ); fgSetString("/sim/startup/time-offset-type", "system"); return FG_OPTIONS_OK; } static int fgOptStartDateLat( const char *arg ) { fgSetInt("/sim/startup/time-offset", parse_date( arg ) ); fgSetString("/sim/startup/time-offset-type", "latitude"); return FG_OPTIONS_OK; } static int fgOptStartDateGmt( const char *arg ) { fgSetInt("/sim/startup/time-offset", parse_date( arg ) ); fgSetString("/sim/startup/time-offset-type", "gmt"); return FG_OPTIONS_OK; } static int fgSetupProxy( const char *arg ) { string options = arg; string host, port, auth; unsigned int pos; host = port = auth = ""; if ((pos = options.find("@")) != string::npos) auth = options.substr(0, pos++); else pos = 0; host = options.substr(pos, options.size()); if ((pos = host.find(":")) != string::npos) { port = host.substr(++pos, host.size()); host.erase(--pos, host.size()); } fgSetString("/sim/presets/proxy/host", host.c_str()); fgSetString("/sim/presets/proxy/port", port.c_str()); fgSetString("/sim/presets/proxy/authentication", auth.c_str()); return FG_OPTIONS_OK; } static int fgOptTraceRead( const char *arg ) { string name = arg; SG_LOG(SG_GENERAL, SG_INFO, "Tracing reads for property " << name); fgGetNode(name.c_str(), true) ->setAttribute(SGPropertyNode::TRACE_READ, true); return FG_OPTIONS_OK; } static int fgOptLogLevel( const char *arg ) { fgSetString("/sim/logging/classes", "all"); fgSetString("/sim/logging/priority", arg); string priority = arg; logbuf::set_log_classes(SG_ALL); if (priority == "bulk") { logbuf::set_log_priority(SG_BULK); } else if (priority == "debug") { logbuf::set_log_priority(SG_DEBUG); } else if (priority == "info") { logbuf::set_log_priority(SG_INFO); } else if (priority == "warn") { logbuf::set_log_priority(SG_WARN); } else if (priority == "alert") { logbuf::set_log_priority(SG_ALERT); } else { SG_LOG(SG_GENERAL, SG_WARN, "Unknown logging priority " << priority); } SG_LOG(SG_GENERAL, SG_DEBUG, "Logging priority is " << priority); return FG_OPTIONS_OK; } static int fgOptTraceWrite( const char *arg ) { string name = arg; SG_LOG(SG_GENERAL, SG_INFO, "Tracing writes for property " << name); fgGetNode(name.c_str(), true) ->setAttribute(SGPropertyNode::TRACE_WRITE, true); return FG_OPTIONS_OK; } static int fgOptViewOffset( const char *arg ) { // $$$ begin - added VS Renganathan, 14 Oct 2K // for multi-window outside window imagery string woffset = arg; double default_view_offset = 0.0; if ( woffset == "LEFT" ) { default_view_offset = SGD_PI * 0.25; } else if ( woffset == "RIGHT" ) { default_view_offset = SGD_PI * 1.75; } else if ( woffset == "CENTER" ) { default_view_offset = 0.00; } else { default_view_offset = atof( woffset.c_str() ) * SGD_DEGREES_TO_RADIANS; } /* apparently not used (CLO, 11 Jun 2002) FGViewer *pilot_view = (FGViewer *)globals->get_viewmgr()->get_view( 0 ); */ // this will work without calls to the viewer... fgSetDouble( "/sim/current-view/heading-offset-deg", default_view_offset * SGD_RADIANS_TO_DEGREES ); // $$$ end - added VS Renganathan, 14 Oct 2K return FG_OPTIONS_OK; } static int fgOptVisibilityMeters( const char *arg ) { double visibility = atof( arg ); fgDefaultWeatherValue("visibility-m", visibility); return FG_OPTIONS_OK; } static int fgOptVisibilityMiles( const char *arg ) { double visibility = atof( arg ) * 5280.0 * SG_FEET_TO_METER; fgDefaultWeatherValue("visibility-m", visibility); return FG_OPTIONS_OK; } static int fgOptRandomWind( const char *arg ) { double min_hdg = sg_random() * 360.0; double max_hdg = min_hdg + (20 - sqrt(sg_random() * 400)); double speed = sg_random() * sg_random() * 40; double gust = speed + (10 - sqrt(sg_random() * 100)); fgSetupWind(min_hdg, max_hdg, speed, gust); return FG_OPTIONS_OK; } static int fgOptWind( const char *arg ) { double min_hdg, max_hdg, speed, gust; if (!parse_wind( arg, &min_hdg, &max_hdg, &speed, &gust)) { SG_LOG( SG_GENERAL, SG_ALERT, "bad wind value " << arg ); return FG_OPTIONS_ERROR; } fgSetupWind(min_hdg, max_hdg, speed, gust); return FG_OPTIONS_OK; } static int fgOptTurbulence( const char *arg ) { fgDefaultWeatherValue("turbulence/magnitude-norm", atof(arg)); return FG_OPTIONS_OK; } static int fgOptCeiling( const char *arg ) { double elevation, thickness; string spec = arg; string::size_type pos = spec.find(':'); if (pos == string::npos) { elevation = atof(spec.c_str()); thickness = 2000; } else { elevation = atof(spec.substr(0, pos).c_str()); thickness = atof(spec.substr(pos + 1).c_str()); } fgSetDouble("/environment/clouds/layer[0]/elevation-ft", elevation); fgSetDouble("/environment/clouds/layer[0]/thickness-ft", thickness); fgSetString("/environment/clouds/layer[0]/coverage", "overcast"); return FG_OPTIONS_OK; } static int fgOptWp( const char *arg ) { parse_wp( arg ); return FG_OPTIONS_OK; } static int fgOptFlightPlan( const char *arg ) { parse_flightplan ( arg ); return FG_OPTIONS_OK; } static int fgOptConfig( const char *arg ) { string file = arg; try { readProperties(file, globals->get_props()); } catch (const sg_exception &e) { string message = "Error loading config file: "; message += e.getFormattedMessage(); SG_LOG(SG_INPUT, SG_ALERT, message); exit(2); } return FG_OPTIONS_OK; } static bool parse_colon (const string &s, double * val1, double * val2) { string::size_type pos = s.find(':'); if (pos == string::npos) { *val2 = atof(s); return false; } else { *val1 = atof(s.substr(0, pos).c_str()); *val2 = atof(s.substr(pos+1).c_str()); return true; } } static int fgOptFailure( const char * arg ) { string a = arg; if (a == "pitot") { fgSetBool("/systems/pitot/serviceable", false); } else if (a == "static") { fgSetBool("/systems/static/serviceable", false); } else if (a == "vacuum") { fgSetBool("/systems/vacuum/serviceable", false); } else if (a == "electrical") { fgSetBool("/systems/electrical/serviceable", false); } else { SG_LOG(SG_INPUT, SG_ALERT, "Unknown failure mode: " << a); return FG_OPTIONS_ERROR; } return FG_OPTIONS_OK; } static int fgOptNAV1( const char * arg ) { double radial, freq; if (parse_colon(arg, &radial, &freq)) fgSetDouble("/radios/nav[0]/radials/selected-deg", radial); fgSetDouble("/radios/nav[0]/frequencies/selected-mhz", freq); return FG_OPTIONS_OK; } static int fgOptNAV2( const char * arg ) { double radial, freq; if (parse_colon(arg, &radial, &freq)) fgSetDouble("/radios/nav[1]/radials/selected-deg", radial); fgSetDouble("/radios/nav[1]/frequencies/selected-mhz", freq); return FG_OPTIONS_OK; } static int fgOptADF( const char * arg ) { double rot, freq; if (parse_colon(arg, &rot, &freq)) fgSetDouble("/instrumentation/adf/rotation-deg", rot); fgSetDouble("/instrumentation/adf/frequencies/selected-khz", freq); return FG_OPTIONS_OK; } static int fgOptDME( const char *arg ) { string opt = arg; if (opt == "nav1") { fgSetInt("/instrumentation/dme/switch-position", 1); fgSetString("/instrumentation/dme/frequencies/source", "/radios/nav[0]/frequencies/selected-mhz"); } else if (opt == "nav2") { fgSetInt("/instrumentation/dme/switch-position", 3); fgSetString("/instrumentation/dme/frequencies/source", "/radios/nav[1]/frequencies/selected-mhz"); } else { fgSetInt("/instrumentation/dme/switch-position", 2); fgSetString("/instrumentation/dme/frequencies/source", "/instrumentation/dme/frequencies/selected-mhz"); fgSetString("/instrumentation/dme/frequencies/selected-mhz", arg); } return FG_OPTIONS_OK; } static map fgOptionMap; /* option has_param type property b_param s_param func where: option : name of the option has_param : option is --name=value if true or --name if false type : OPTION_BOOL - property is a boolean OPTION_STRING - property is a string OPTION_DOUBLE - property is a double OPTION_INT - property is an integer OPTION_CHANNEL - name of option is the name of a channel OPTION_FUNC - the option trigger a function b_param : if type==OPTION_BOOL, value set to the property (has_param is false for boolean) s_param : if type==OPTION_STRING, value set to the property if has_param is false func : function called if type==OPTION_FUNC. if has_param is true, the value is passed to the function as a string, otherwise, 0 is passed. For OPTION_DOUBLE and OPTION_INT, the parameter value is converted into a double or an integer and set to the property. For OPTION_CHANNEL, add_channel is called with the parameter value as the argument. */ enum OptionType { OPTION_BOOL, OPTION_STRING, OPTION_DOUBLE, OPTION_INT, OPTION_CHANNEL, OPTION_FUNC }; struct OptionDesc { char *option; bool has_param; enum OptionType type; char *property; bool b_param; char *s_param; int (*func)( const char * ); } fgOptionArray[] = { {"language", true, OPTION_FUNC, "", false, "", fgOptLanguage }, {"disable-game-mode", false, OPTION_BOOL, "/sim/startup/game-mode", false, "", 0 }, {"enable-game-mode", false, OPTION_BOOL, "/sim/startup/game-mode", true, "", 0 }, {"disable-splash-screen", false, OPTION_BOOL, "/sim/startup/splash-screen", false, "", 0 }, {"enable-splash-screen", false, OPTION_BOOL, "/sim/startup/splash-screen", true, "", 0 }, {"disable-intro-music", false, OPTION_BOOL, "/sim/startup/intro-music", false, "", 0 }, {"enable-intro-music", false, OPTION_BOOL, "/sim/startup/intro-music", true, "", 0 }, {"disable-mouse-pointer", false, OPTION_STRING, "/sim/startup/mouse-pointer", false, "disabled", 0 }, {"enable-mouse-pointer", false, OPTION_STRING, "/sim/startup/mouse-pointer", false, "enabled", 0 }, {"disable-random-objects", false, OPTION_BOOL, "/sim/rendering/random-objects", false, "", 0 }, {"enable-random-objects", false, OPTION_BOOL, "/sim/rendering/random-objects", true, "", 0 }, {"disable-real-weather-fetch", false, OPTION_BOOL, "/environment/params/real-world-weather-fetch", false, "", 0 }, {"enable-real-weather-fetch", false, OPTION_BOOL, "/environment/params/real-world-weather-fetch", true, "", 0 }, {"disable-ai-models", false, OPTION_BOOL, "/sim/ai/enabled", false, "", 0 }, {"enable-ai-models", false, OPTION_BOOL, "/sim/ai/enabled", true, "", 0 }, {"disable-freeze", false, OPTION_BOOL, "/sim/freeze/master", false, "", 0 }, {"enable-freeze", false, OPTION_BOOL, "/sim/freeze/master", true, "", 0 }, {"disable-fuel-freeze", false, OPTION_BOOL, "/sim/freeze/fuel", false, "", 0 }, {"enable-fuel-freeze", false, OPTION_BOOL, "/sim/freeze/fuel", true, "", 0 }, {"disable-clock-freeze", false, OPTION_BOOL, "/sim/freeze/clock", false, "", 0 }, {"enable-clock-freeze", false, OPTION_BOOL, "/sim/freeze/clock", true, "", 0 }, {"disable-hud-3d", false, OPTION_BOOL, "/sim/hud/enable3d", false, "", 0 }, {"enable-hud-3d", false, OPTION_BOOL, "/sim/hud/enable3d", true, "", 0 }, {"disable-anti-alias-hud", false, OPTION_BOOL, "/sim/hud/antialiased", false, "", 0 }, {"enable-anti-alias-hud", false, OPTION_BOOL, "/sim/hud/antialiased", true, "", 0 }, {"control", true, OPTION_STRING, "/sim/control-mode", false, "", 0 }, {"disable-auto-coordination", false, OPTION_BOOL, "/sim/auto-coordination", false, "", 0 }, {"enable-auto-coordination", false, OPTION_BOOL, "/sim/auto-coordination", true, "", 0 }, {"browser-app", true, OPTION_STRING, "/sim/startup/browser-app", false, "", 0 }, {"disable-hud", false, OPTION_BOOL, "/sim/hud/visibility", false, "", 0 }, {"enable-hud", false, OPTION_BOOL, "/sim/hud/visibility", true, "", 0 }, {"disable-panel", false, OPTION_BOOL, "/sim/panel/visibility", false, "", 0 }, {"enable-panel", false, OPTION_BOOL, "/sim/panel/visibility", true, "", 0 }, {"disable-sound", false, OPTION_BOOL, "/sim/sound/pause", true, "", 0 }, {"enable-sound", false, OPTION_BOOL, "/sim/sound/pause", false, "", 0 }, {"airport", true, OPTION_STRING, "/sim/presets/airport-id", false, "", 0 }, {"airport-id", true, OPTION_STRING, "/sim/presets/airport-id", false, "", 0 }, {"runway", true, OPTION_STRING, "/sim/presets/runway", false, "", 0 }, {"vor", true, OPTION_FUNC, "", false, "", fgOptVOR }, {"ndb", true, OPTION_FUNC, "", false, "", fgOptNDB }, {"fix", true, OPTION_FUNC, "", false, "", fgOptFIX }, {"offset-distance", true, OPTION_DOUBLE, "/sim/presets/offset-distance", false, "", 0 }, {"offset-azimuth", true, OPTION_DOUBLE, "/sim/presets/offset-azimuth", false, "", 0 }, {"lon", true, OPTION_FUNC, "", false, "", fgOptLon }, {"lat", true, OPTION_FUNC, "", false, "", fgOptLat }, {"altitude", true, OPTION_FUNC, "", false, "", fgOptAltitude }, {"uBody", true, OPTION_FUNC, "", false, "", fgOptUBody }, {"vBody", true, OPTION_FUNC, "", false, "", fgOptVBody }, {"wBody", true, OPTION_FUNC, "", false, "", fgOptWBody }, {"vNorth", true, OPTION_FUNC, "", false, "", fgOptVNorth }, {"vEast", true, OPTION_FUNC, "", false, "", fgOptVEast }, {"vDown", true, OPTION_FUNC, "", false, "", fgOptVDown }, {"vc", true, OPTION_FUNC, "", false, "", fgOptVc }, {"mach", true, OPTION_FUNC, "", false, "", fgOptMach }, {"heading", true, OPTION_DOUBLE, "/sim/presets/heading-deg", false, "", 0 }, {"roll", true, OPTION_DOUBLE, "/sim/presets/roll-deg", false, "", 0 }, {"pitch", true, OPTION_DOUBLE, "/sim/presets/pitch-deg", false, "", 0 }, {"glideslope", true, OPTION_DOUBLE, "/sim/presets/glideslope-deg", false, "", 0 }, {"roc", true, OPTION_FUNC, "", false, "", fgOptRoc }, {"fg-root", true, OPTION_FUNC, "", false, "", fgOptFgRoot }, {"fg-scenery", true, OPTION_FUNC, "", false, "", fgOptFgScenery }, {"fdm", true, OPTION_STRING, "/sim/flight-model", false, "", 0 }, {"aero", true, OPTION_STRING, "/sim/aero", false, "", 0 }, {"aircraft-dir", true, OPTION_STRING, "/sim/aircraft-dir", false, "", 0 }, {"model-hz", true, OPTION_INT, "/sim/model-hz", false, "", 0 }, {"speed", true, OPTION_INT, "/sim/speed-up", false, "", 0 }, {"trim", false, OPTION_BOOL, "/sim/presets/trim", true, "", 0 }, {"notrim", false, OPTION_BOOL, "/sim/presets/trim", false, "", 0 }, {"on-ground", false, OPTION_BOOL, "/sim/presets/onground", true, "", 0 }, {"in-air", false, OPTION_BOOL, "/sim/presets/onground", false, "", 0 }, {"fog-disable", false, OPTION_STRING, "/sim/rendering/fog", false, "disabled", 0 }, {"fog-fastest", false, OPTION_STRING, "/sim/rendering/fog", false, "fastest", 0 }, {"fog-nicest", false, OPTION_STRING, "/sim/rendering/fog", false, "nicest", 0 }, {"disable-horizon-effect", false, OPTION_BOOL, "/sim/rendering/horizon-effect", false, "", 0 }, {"enable-horizon-effect", false, OPTION_BOOL, "/sim/rendering/horizon-effect", true, "", 0 }, {"disable-enhanced-lighting", false, OPTION_BOOL, "/sim/rendering/enhanced-lighting", false, "", 0 }, {"enable-enhanced-lighting", false, OPTION_BOOL, "/sim/rendering/enhanced-lighting", true, "", 0 }, {"disable-distance-attenuation", false, OPTION_BOOL, "/sim/rendering/distance-attenuation", false, "", 0 }, {"enable-distance-attenuation", false, OPTION_BOOL, "/sim/rendering/distance-attenuation", true, "", 0 }, {"disable-specular-highlight", false, OPTION_BOOL, "/sim/rendering/specular-highlight", false, "", 0 }, {"enable-specular-highlight", false, OPTION_BOOL, "/sim/rendering/specular-highlight", true, "", 0 }, {"disable-clouds", false, OPTION_BOOL, "/environment/clouds/status", false, "", 0 }, {"enable-clouds", false, OPTION_BOOL, "/environment/clouds/status", true, "", 0 }, #ifdef FG_USE_CLOUDS_3D {"disable-clouds3d", false, OPTION_BOOL, "/sim/rendering/clouds3d", false, "", 0 }, {"enable-clouds3d", false, OPTION_BOOL, "/sim/rendering/clouds3d", true, "", 0 }, #endif {"fov", true, OPTION_FUNC, "", false, "", fgOptFov }, {"disable-fullscreen", false, OPTION_BOOL, "/sim/startup/fullscreen", false, "", 0 }, {"enable-fullscreen", false, OPTION_BOOL, "/sim/startup/fullscreen", true, "", 0 }, {"shading-flat", false, OPTION_BOOL, "/sim/rendering/shading", false, "", 0 }, {"shading-smooth", false, OPTION_BOOL, "/sim/rendering/shading", true, "", 0 }, {"disable-skyblend", false, OPTION_BOOL, "/sim/rendering/skyblend", false, "", 0 }, {"enable-skyblend", false, OPTION_BOOL, "/sim/rendering/skyblend", true, "", 0 }, {"disable-textures", false, OPTION_BOOL, "/sim/rendering/textures", false, "", 0 }, {"enable-textures", false, OPTION_BOOL, "/sim/rendering/textures", true, "", 0 }, {"disable-wireframe", false, OPTION_BOOL, "/sim/rendering/wireframe", false, "", 0 }, {"enable-wireframe", false, OPTION_BOOL, "/sim/rendering/wireframe", true, "", 0 }, {"geometry", true, OPTION_FUNC, "", false, "", fgOptGeometry }, {"bpp", true, OPTION_FUNC, "", false, "", fgOptBpp }, {"units-feet", false, OPTION_STRING, "/sim/startup/units", false, "feet", 0 }, {"units-meters", false, OPTION_STRING, "/sim/startup/units", false, "meters", 0 }, {"timeofday", true, OPTION_STRING, "/sim/startup/time-offset-type", false, "noon", 0 }, {"time-offset", true, OPTION_FUNC, "", false, "", fgOptTimeOffset }, {"time-match-real", false, OPTION_STRING, "/sim/startup/time-offset-type", false, "system-offset", 0 }, {"time-match-local", false, OPTION_STRING, "/sim/startup/time-offset-type", false, "latitude-offset", 0 }, {"start-date-sys", true, OPTION_FUNC, "", false, "", fgOptStartDateSys }, {"start-date-lat", true, OPTION_FUNC, "", false, "", fgOptStartDateLat }, {"start-date-gmt", true, OPTION_FUNC, "", false, "", fgOptStartDateGmt }, {"hud-tris", false, OPTION_STRING, "/sim/hud/frame-stat-type", false, "tris", 0 }, {"hud-culled", false, OPTION_STRING, "/sim/hud/frame-stat-type", false, "culled", 0 }, {"atcsim", true, OPTION_CHANNEL, "", false, "dummy", 0 }, {"atlas", true, OPTION_CHANNEL, "", false, "", 0 }, {"httpd", true, OPTION_CHANNEL, "", false, "", 0 }, #ifdef FG_JPEG_SERVER {"jpg-httpd", true, OPTION_CHANNEL, "", false, "", 0 }, #endif {"native", true, OPTION_CHANNEL, "", false, "", 0 }, {"native-ctrls", true, OPTION_CHANNEL, "", false, "", 0 }, {"native-fdm", true, OPTION_CHANNEL, "", false, "", 0 }, {"native-gui", true, OPTION_CHANNEL, "", false, "", 0 }, {"opengc", true, OPTION_CHANNEL, "", false, "", 0 }, {"garmin", true, OPTION_CHANNEL, "", false, "", 0 }, {"nmea", true, OPTION_CHANNEL, "", false, "", 0 }, {"generic", true, OPTION_CHANNEL, "", false, "", 0 }, {"props", true, OPTION_CHANNEL, "", false, "", 0 }, {"telnet", true, OPTION_CHANNEL, "", false, "", 0 }, {"pve", true, OPTION_CHANNEL, "", false, "", 0 }, {"ray", true, OPTION_CHANNEL, "", false, "", 0 }, {"rul", true, OPTION_CHANNEL, "", false, "", 0 }, {"joyclient", true, OPTION_CHANNEL, "", false, "", 0 }, {"jsclient", true, OPTION_CHANNEL, "", false, "", 0 }, {"proxy", true, OPTION_FUNC, "", false, "", fgSetupProxy }, #ifdef FG_MPLAYER_AS {"callsign", true, OPTION_STRING, "sim/multiplay/callsign", false, "", 0 }, {"multiplay", true, OPTION_CHANNEL, "", false, "", 0 }, #endif {"trace-read", true, OPTION_FUNC, "", false, "", fgOptTraceRead }, {"trace-write", true, OPTION_FUNC, "", false, "", fgOptTraceWrite }, {"log-level", true, OPTION_FUNC, "", false, "", fgOptLogLevel }, {"view-offset", true, OPTION_FUNC, "", false, "", fgOptViewOffset }, {"visibility", true, OPTION_FUNC, "", false, "", fgOptVisibilityMeters }, {"visibility-miles", true, OPTION_FUNC, "", false, "", fgOptVisibilityMiles }, {"random-wind", false, OPTION_FUNC, "", false, "", fgOptRandomWind }, {"wind", true, OPTION_FUNC, "", false, "", fgOptWind }, {"turbulence", true, OPTION_FUNC, "", false, "", fgOptTurbulence }, {"ceiling", true, OPTION_FUNC, "", false, "", fgOptCeiling }, {"wp", true, OPTION_FUNC, "", false, "", fgOptWp }, {"flight-plan", true, OPTION_FUNC, "", false, "", fgOptFlightPlan }, {"config", true, OPTION_FUNC, "", false, "", fgOptConfig }, {"aircraft", true, OPTION_STRING, "/sim/aircraft", false, "", 0 }, {"failure", true, OPTION_FUNC, "", false, "", fgOptFailure }, {"com1", true, OPTION_DOUBLE, "/radios/comm[0]/frequencies/selected-mhz", false, "", 0 }, {"com2", true, OPTION_DOUBLE, "/radios/comm[1]/frequencies/selected-mhz", false, "", 0 }, {"nav1", true, OPTION_FUNC, "", false, "", fgOptNAV1 }, {"nav2", true, OPTION_FUNC, "", false, "", fgOptNAV2 }, {"adf", true, OPTION_FUNC, "", false, "", fgOptADF }, {"dme", true, OPTION_FUNC, "", false, "", fgOptDME }, {"min-status", true, OPTION_STRING, "/sim/aircraft-min-status", false, "all", 0 }, {0} }; // Parse a single option static int parse_option (const string& arg) { if ( fgOptionMap.size() == 0 ) { size_t i = 0; OptionDesc *pt = &fgOptionArray[ 0 ]; while ( pt->option != 0 ) { fgOptionMap[ pt->option ] = i; i += 1; pt += 1; } } // General Options if ( (arg == "--help") || (arg == "-h") ) { // help/usage request return(FG_OPTIONS_HELP); } else if ( (arg == "--verbose") || (arg == "-v") ) { // verbose help/usage request return(FG_OPTIONS_VERBOSE_HELP); } else if ( arg.find( "--show-aircraft") == 0) { return(FG_OPTIONS_SHOW_AIRCRAFT); } else if ( arg.find( "--prop:" ) == 0 ) { string assign = arg.substr(7); string::size_type 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.c_str()); // SG_LOG(SG_GENERAL, SG_INFO, "Setting default value of property " // << name << " to \"" << value << '"'); } else if ( arg.find( "--" ) == 0 ) { size_t pos = arg.find( '=' ); string arg_name; if ( pos == string::npos ) { arg_name = arg.substr( 2 ); } else { arg_name = arg.substr( 2, pos - 2 ); } map::iterator it = fgOptionMap.find( arg_name ); if ( it != fgOptionMap.end() ) { OptionDesc *pt = &fgOptionArray[ it->second ]; switch ( pt->type ) { case OPTION_BOOL: fgSetBool( pt->property, pt->b_param ); break; case OPTION_STRING: if ( pt->has_param && pos != string::npos ) { fgSetString( pt->property, arg.substr( pos + 1 ).c_str() ); } else if ( !pt->has_param && pos == string::npos ) { fgSetString( pt->property, pt->s_param ); } else if ( pt->has_param ) { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' needs a parameter" ); return FG_OPTIONS_ERROR; } else { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' does not have a parameter" ); return FG_OPTIONS_ERROR; } break; case OPTION_DOUBLE: if ( pos != string::npos ) { fgSetDouble( pt->property, atof( arg.substr( pos + 1 ) ) ); } else { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' needs a parameter" ); return FG_OPTIONS_ERROR; } break; case OPTION_INT: if ( pos != string::npos ) { fgSetInt( pt->property, atoi( arg.substr( pos + 1 ) ) ); } else { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' needs a parameter" ); return FG_OPTIONS_ERROR; } break; case OPTION_CHANNEL: if ( pt->has_param && pos != string::npos ) { add_channel( pt->option, arg.substr( pos + 1 ) ); } else if ( !pt->has_param && pos == string::npos ) { add_channel( pt->option, pt->s_param ); } else if ( pt->has_param ) { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' needs a parameter" ); return FG_OPTIONS_ERROR; } else { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' does not have a parameter" ); return FG_OPTIONS_ERROR; } break; case OPTION_FUNC: if ( pt->has_param && pos != string::npos ) { return pt->func( arg.substr( pos + 1 ).c_str() ); } else if ( !pt->has_param && pos == string::npos ) { return pt->func( 0 ); } else if ( pt->has_param ) { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' needs a parameter" ); return FG_OPTIONS_ERROR; } else { SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << arg << "' does not have a parameter" ); return FG_OPTIONS_ERROR; } break; } } else { SG_LOG( SG_GENERAL, SG_ALERT, "Unknown option '" << arg << "'" ); return FG_OPTIONS_ERROR; } } else { SG_LOG( SG_GENERAL, SG_ALERT, "Unknown option '" << arg << "'" ); return FG_OPTIONS_ERROR; } return FG_OPTIONS_OK; } // Parse the command line options void fgParseArgs (int argc, char **argv) { bool in_options = true; bool verbose = false; bool help = false; SG_LOG(SG_GENERAL, SG_INFO, "Processing command line arguments"); for (int i = 1; i < argc; i++) { string arg = argv[i]; if (in_options && (arg.find('-') == 0)) { if (arg == "--") { in_options = false; } else { int result = parse_option(arg); if ((result == FG_OPTIONS_HELP) || (result == FG_OPTIONS_ERROR)) help = true; else if (result == FG_OPTIONS_VERBOSE_HELP) verbose = true; else if (result == FG_OPTIONS_SHOW_AIRCRAFT) { fgOptLogLevel( "alert" ); SGPath path( globals->get_fg_root() ); path.append("Aircraft"); fgShowAircraft(path, true); exit(0); } } } else { in_options = false; SG_LOG(SG_GENERAL, SG_INFO, "Reading command-line property file " << arg); readProperties(arg, globals->get_props()); } } if (help) { fgOptLogLevel( "alert" ); fgUsage(verbose); exit(0); } SG_LOG(SG_GENERAL, SG_INFO, "Finished command line arguments"); } // 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 ) { cerr << endl << "Config file parse error: " << path << " '" << line << "'" << endl; fgUsage(); exit(-1); } in >> skipcomment; } } // Print usage message void fgUsage (bool verbose) { SGPropertyNode *locale = globals->get_locale(); SGPropertyNode options_root; SG_LOG( SG_GENERAL, SG_ALERT, "" ); // To popup the console on Windows cout << endl; try { fgLoadProps("options.xml", &options_root); } catch (const sg_exception &ex) { cout << "Unable to read the help file." << endl; cout << "Make sure the file options.xml is located in the FlightGear base directory," << endl; cout << "and the location of the base directory is specified by setting $FG_ROOT or" << endl; cout << "by adding --fg-root=path as a program argument." << endl; exit(-1); } SGPropertyNode *options = options_root.getNode("options"); if (!options) { SG_LOG( SG_GENERAL, SG_ALERT, "Error reading options.xml: directive not found." ); exit(-1); } SGPropertyNode *usage = locale->getNode(options->getStringValue("usage")); if (usage) { cout << "Usage: " << usage->getStringValue() << endl; } vectorsection = options->getChildren("section"); for (unsigned int j = 0; j < section.size(); j++) { string msg = ""; vectoroption = section[j]->getChildren("option"); for (unsigned int k = 0; k < option.size(); k++) { SGPropertyNode *name = option[k]->getNode("name"); SGPropertyNode *short_name = option[k]->getNode("short"); SGPropertyNode *key = option[k]->getNode("key"); SGPropertyNode *arg = option[k]->getNode("arg"); bool brief = option[k]->getNode("brief"); if ((brief || verbose) && name) { string tmp = name->getStringValue(); if (key){ tmp.append(":"); tmp.append(key->getStringValue()); } if (arg) { tmp.append("="); tmp.append(arg->getStringValue()); } if (short_name) { tmp.append(", -"); tmp.append(short_name->getStringValue()); } char cstr[96]; if (tmp.size() <= 25) { snprintf(cstr, 96, " --%-27s", tmp.c_str()); } else { snprintf(cstr, 96, "\n --%s\n%32c", tmp.c_str(), ' '); } // There may be more than one tag assosiated // with one option msg += cstr; vectordesc = option[k]->getChildren("description"); if (desc.size() > 0) { for ( unsigned int l = 0; l < desc.size(); l++) { // There may be more than one translation line. string t = desc[l]->getStringValue(); SGPropertyNode *n = locale->getNode("strings"); vectortrans_desc = n->getChildren(t.substr(8).c_str()); for ( unsigned int m = 0; m < trans_desc.size(); m++ ) { string t_str = trans_desc[m]->getStringValue(); if ((m > 0) || ((l > 0) && m == 0)) { snprintf(cstr, 96, "%32c", ' '); msg += cstr; } // If the string is too large to fit on the screen, // then split it up in several pieces. while ( t_str.size() > 47 ) { unsigned int m = t_str.rfind(' ', 47); msg += t_str.substr(0, m); snprintf(cstr, 96, "\n%32c", ' '); msg += cstr; t_str.erase(t_str.begin(), t_str.begin() + m + 1); } msg += t_str + '\n'; } } } } } SGPropertyNode *name = locale->getNode(section[j]->getStringValue("name")); if (!msg.empty() && name) { cout << endl << name->getStringValue() << ":" << endl; cout << msg; msg.erase(); } } if ( !verbose ) { cout << endl; cout << "For a complete list of options use --help --verbose" << endl; } #ifdef _MSC_VER cout << "Hit a key to continue..." << endl; cin.get(); #endif } // A simple function to return an integer depending on the position // of the status string within the array in order to determine the hierarchy. unsigned int getNumMaturity(const char * str) { // changes should also be reflected in $FG_ROOT/data/options.xml & // $FG_ROOT/data/Translations/string-default.xml const char levels[][20]= {"alpha","beta","early-production","production",0}; for (unsigned int i=0; i<(sizeof(levels)/sizeof(levels[0])-1);i++) if (strcmp(str,levels[i])==0) return i; return 0; }; static void fgSearchAircraft(const SGPath &path, string_list &aircraft, bool recursive) { ulDirEnt* dire; ulDir *dirp = ulOpenDir(path.str().c_str()); if (dirp == NULL) { cerr << "Unable to open aircraft directory." << endl; exit(-1); } while ((dire = ulReadDir(dirp)) != NULL) { char *ptr; if (dire->d_isdir) { if (recursive && strcmp("CVS", dire->d_name) && strcmp(".", dire->d_name) && strcmp("..", dire->d_name)) { SGPath next = path; next.append(dire->d_name); fgSearchAircraft(next, aircraft, true); } } else if ((ptr = strstr(dire->d_name, "-set.xml")) && (ptr[8] == '\0')) { SGPath afile = path; afile.append(dire->d_name); *ptr = '\0'; SGPropertyNode root; try { readProperties(afile.str(), &root); } catch (...) { continue; } SGPropertyNode *desc = NULL; SGPropertyNode *status = NULL; SGPropertyNode *node = root.getNode("sim"); if (node) { desc = node->getNode("description"); // if a status tag is found, read it in if (node->hasValue("status")) status = node->getNode("status"); } char cstr[96]; //additionally display status information where it is available if (strlen(dire->d_name) <= 27) { snprintf(cstr, 96, " %-27s %s", dire->d_name, (desc) ? desc->getStringValue() : ""); } else { snprintf(cstr, 96, " %-27s\n%32c%s", dire->d_name, ' ', (desc) ? desc->getStringValue() : ""); } SGPropertyNode * required_status = fgGetNode ("/sim/aircraft-min-status", true); // If the node holds the value "all", then there wasn't any status // level specified, so we simply go ahead and output ALL aircraft if (strcmp(required_status->getStringValue(),"all")==0) { aircraft.push_back(cstr); } else { // If the node doesn't hold "all" as its value, then we are supposed // to show only aircraft meeting specific status (development status) // requirements: if (node->hasValue("status")) { //Compare (minimally) required status level with actual aircraft status: if ( getNumMaturity(status->getStringValue() ) >= getNumMaturity(required_status->getStringValue() ) ) aircraft.push_back(cstr); } } } } ulCloseDir(dirp); } /* * Search in the current directory, and in on directory deeper * for -set.xml configuration files and show the aircaft name * and the contents of the tag in a sorted manner. * * @parampath the directory to search for configuration files * @param recursive defines whether the directory should be searched recursively */ void fgShowAircraft(const SGPath &path, bool recursive) { string_list aircraft; fgSearchAircraft( path, aircraft, recursive ); sort(aircraft.begin(), aircraft.end()); SG_LOG( SG_GENERAL, SG_ALERT, "" ); // To popup the console on Windows cout << "Available aircraft:" << endl; for ( unsigned int i = 0; i < aircraft.size(); i++ ) { cout << aircraft[i] << endl; } #ifdef _MSC_VER cout << "Hit a key to continue..." << endl; cin.get(); #endif }