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flightgear/src/Main/options.cxx

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// 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
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// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
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#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
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#include <simgear/compiler.h>
#include <simgear/structure/exception.hxx>
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#include <simgear/debug/logstream.hxx>
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#include <simgear/timing/sg_time.hxx>
#include <simgear/misc/sg_dir.hxx>
#include <3rdparty/cjson/cJSON.h>
#include <cmath> // rint()
#include <cstdio>
#include <cstdlib> // atof(), atoi()
#include <cstring> // strcmp()
#include <algorithm>
#include <map>
#include <iostream>
#include <string>
#include <sstream>
#include <simgear/math/sg_random.h>
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#include <simgear/props/props_io.hxx>
#include <simgear/io/iostreams/sgstream.hxx>
#include <simgear/misc/sg_path.hxx>
#include <simgear/misc/sg_dir.hxx>
#include <simgear/scene/material/mat.hxx>
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#include <simgear/sound/soundmgr.hxx>
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#include <simgear/misc/strutils.hxx>
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#include <Autopilot/route_mgr.hxx>
#include <Aircraft/replay.hxx>
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#include <Aircraft/initialstate.hxx>
#include <GUI/gui.h>
#include <GUI/MessageBox.hxx>
#if defined(HAVE_QT)
#include <GUI/QtLauncher.hxx>
#include <GUI/SetupRootDialog.hxx>
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#endif
#include <AIModel/AIManager.hxx>
Improved infrastructure for add-ons: C++ classes, metadata file, Nasal interface This commit adds C++ classes for add-on management, most notably AddonManager, Addon and AddonVersion. The AddonManager is used to register add-ons. It relies on an std::map<std::string, AddonRef> to hold the metadata of each registered add-on (keys of the std::map are add-on identifiers, and AddonRef is currently SGSharedPtr<Addon>). Accessor methods are available for: - retrieving the list of registered or loaded add-ons (terminology explained in $FG_ROOT/Docs/README.add-ons); - checking if a particular add-on has already been registered or loaded; - for each add-on, obtaining an Addon instance which can be queried for its name, id, version, base path, the minimum and maximum FlightGear versions it requires, its base node in the Property Tree, its order in the load sequence, short and long description strings, home page, etc. The most important metadata is made accessible in the Property Tree under /addons/by-id/<addon-id> and the property /addons/by-id/<addon-id>/loaded can be checked or listened to, in order to determine when a particular add-on is loaded. There is also a Nasal interface to access add-on metadata in a convenient way. In order to provide this metadata, each add-on must from now on have in its base directory a file called 'addon-metadata.xml'. All this is documented in much more detail in $FG_ROOT/Docs/README.add-ons. Mailing-list discussion: https://sourceforge.net/p/flightgear/mailman/message/36146017/
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#include <Add-ons/AddonManager.hxx>
#include <Main/locale.hxx>
#include <Navaids/NavDataCache.hxx>
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#include "globals.hxx"
#include "fg_init.hxx"
#include "fg_props.hxx"
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#include "options.hxx"
#include "util.hxx"
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#include "main.hxx"
#include "locale.hxx"
#include <Viewer/view.hxx>
#include <Viewer/viewmgr.hxx>
#include <Environment/presets.hxx>
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#include <Network/http/httpd.hxx>
#include "AircraftDirVisitorBase.hxx"
#include <osg/Version>
#include <Include/version.h>
#include <Include/build.h>
#include <simgear/version.h>
using std::string;
using std::sort;
using std::cout;
using std::cerr;
using std::endl;
using std::vector;
using std::cin;
using namespace flightgear;
#define NEW_DEFAULT_MODEL_HZ 120
static flightgear::Options* shared_instance = nullptr;
static double
atof( const string& str )
{
return ::atof( str.c_str() );
}
static int
atoi( const string& str )
{
return ::atoi( str.c_str() );
}
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static int fgSetupProxy( const char *arg );
/**
* Set a few fail-safe default property values.
*
* These should all be set in $FG_ROOT/defaults.xml, but just
* in case, we provide some initial sane values here. This method
* should be invoked *before* reading any init files.
*/
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void fgSetDefaults ()
{
// Position (deliberately out of range)
fgSetDouble("/position/longitude-deg", 9999.0);
fgSetDouble("/position/latitude-deg", 9999.0);
** Properties Renamed - /autopilot/locks/nav1 => /autopilot/locks/nav[0] - /autopilot/settings/altitude += "-ft" - /autopilot/settings/climb-rate += "-fpm" - /autopilot/settings/heading-bug += "-deg" - /consumables/fuel/tank1/level => /consumables/fuel/tank[0]/level-gal_us - /consumables/fuel/tank2/level => /consumables/fuel/tank[1]/level-gal_us - /engines/engine0/cht => /engines/engine[0]/cht-degf - /engines/engine0/egt => /engines/engine[0]/egt-degf - /engines/engine0/fuel-flow => /engines/engine[0]/fuel-flow-gph - /engines/engine0/mp => /engines/engine[0]/mp-osi - /engines/engine0/rpm => /engines/engine[0]/rpm - /environment/clouds/altitude += "-ft" - /environment/magnetic-dip += "-deg" - /environment/magnetic-varation += "-deg" - /environment/visibility += "-m" - /environment/wind-down += "-fps" - /environment/wind-east += "-fps" - /environment/wind-north += "-fps" - /orientation/heading += "-deg" - /orientation/heading-magnetic += "-deg" - /orientation/pitch += "-deg" - /orientation/roll += "-deg" - /position/altitude += "-ft" - /position/altitude-agl += "-ft" - /position/latitude += "-deg" - /position/longitude += "-deg" - /radios/adf/frequencies/selected += "-khz" - /radios/adf/frequencies/standby += "-khz" - /radios/adf/rotation += "-deg" - /radios/nav1/* => /radios/nav[0]/* - /radios/nav2/* => /radios/nav[1]/* - /radios/nav[*]/dme/distance += "-nm" - /radios/nav[*]/frequencies/selected += "-mhz" - /radios/nav[*]/frequencies/standby += "-mhz" - /radios/nav[*]/radials/actual += "-deg" - /radios/nav[*]/radials/selected += "-deg" - /sim/view/goal-offset += "-deg" - /sim/view/offset += "-deg" - /steam/adf += "-deg" - /steam/airspeed += "-kt" - /steam/altitude += "-ft" - /steam/gyro-compass += "-deg" - /steam/gyro-compass-error += "-deg" - /steam/mag-compass += "-deg" - /steam/vertical-speed += "-fpm" - /velocities/airspeed += "-kt" - /velocities/side-slip += "-rad" - /velocities/speed-down += "-fps" - /velocities/speed-east += "-fps" - /velocities/speed-north += "-fps" - /velocities/uBody += "-fps" - /velocities/vBody += "-fps" - /velocities/wBody += "-fps" - /velocities/vertical-speed += "-fps"
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fgSetDouble("/position/altitude-ft", -9999.0);
// Orientation
fgSetDouble("/orientation/heading-deg", 9999.0);
fgSetDouble("/orientation/roll-deg", 0.0);
fgSetDouble("/orientation/pitch-deg", 0.424);
// Velocities
** Properties Renamed - /autopilot/locks/nav1 => /autopilot/locks/nav[0] - /autopilot/settings/altitude += "-ft" - /autopilot/settings/climb-rate += "-fpm" - /autopilot/settings/heading-bug += "-deg" - /consumables/fuel/tank1/level => /consumables/fuel/tank[0]/level-gal_us - /consumables/fuel/tank2/level => /consumables/fuel/tank[1]/level-gal_us - /engines/engine0/cht => /engines/engine[0]/cht-degf - /engines/engine0/egt => /engines/engine[0]/egt-degf - /engines/engine0/fuel-flow => /engines/engine[0]/fuel-flow-gph - /engines/engine0/mp => /engines/engine[0]/mp-osi - /engines/engine0/rpm => /engines/engine[0]/rpm - /environment/clouds/altitude += "-ft" - /environment/magnetic-dip += "-deg" - /environment/magnetic-varation += "-deg" - /environment/visibility += "-m" - /environment/wind-down += "-fps" - /environment/wind-east += "-fps" - /environment/wind-north += "-fps" - /orientation/heading += "-deg" - /orientation/heading-magnetic += "-deg" - /orientation/pitch += "-deg" - /orientation/roll += "-deg" - /position/altitude += "-ft" - /position/altitude-agl += "-ft" - /position/latitude += "-deg" - /position/longitude += "-deg" - /radios/adf/frequencies/selected += "-khz" - /radios/adf/frequencies/standby += "-khz" - /radios/adf/rotation += "-deg" - /radios/nav1/* => /radios/nav[0]/* - /radios/nav2/* => /radios/nav[1]/* - /radios/nav[*]/dme/distance += "-nm" - /radios/nav[*]/frequencies/selected += "-mhz" - /radios/nav[*]/frequencies/standby += "-mhz" - /radios/nav[*]/radials/actual += "-deg" - /radios/nav[*]/radials/selected += "-deg" - /sim/view/goal-offset += "-deg" - /sim/view/offset += "-deg" - /steam/adf += "-deg" - /steam/airspeed += "-kt" - /steam/altitude += "-ft" - /steam/gyro-compass += "-deg" - /steam/gyro-compass-error += "-deg" - /steam/mag-compass += "-deg" - /steam/vertical-speed += "-fpm" - /velocities/airspeed += "-kt" - /velocities/side-slip += "-rad" - /velocities/speed-down += "-fps" - /velocities/speed-east += "-fps" - /velocities/speed-north += "-fps" - /velocities/uBody += "-fps" - /velocities/vBody += "-fps" - /velocities/wBody += "-fps" - /velocities/vertical-speed += "-fps"
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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", 9999.0);
fgSetDouble("/sim/presets/roll-deg", 0.0);
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);
fgSetDouble("/sim/presets/offset-distance-nm", 0.0);
fgSetBool("/sim/presets/runway-requested", false);
fgSetBool("/sim/presets/onground", true);
fgSetBool("/sim/presets/trim", false);
// Miscellaneous
fgSetBool("/sim/startup/splash-screen", 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");
fgSetBool("/controls/flight/auto-coordination", false);
fgSetString("/sim/logging/priority", "alert");
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// Features
fgSetBool("/sim/hud/color/antialiased", false);
fgSetBool("/sim/hud/enable3d[1]", true);
fgSetBool("/sim/hud/visibility[1]", false);
fgSetBool("/sim/panel/visibility", true);
fgSetBool("/sim/sound/enabled", true);
fgSetBool("/sim/sound/working", true);
fgSetBool("/sim/fgcom/enabled", false);
// Flight Model options
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fgSetString("/sim/flight-model", "jsb");
fgSetString("/sim/aero", "c172");
fgSetInt("/sim/model-hz", NEW_DEFAULT_MODEL_HZ);
fgSetDouble("/sim/speed-up", 1.0);
// Scenery
fgSetString("/sim/scenery/engine", "tilecache");
// ( scenery = pagedLOD )
fgSetString("/sim/scenery/lod-levels", "1 3 5 7 9");
fgSetString("/sim/scenery/lod-res", "1");
fgSetString("/sim/scenery/lod-texturing", "bluemarble");
// Rendering options
fgSetString("/sim/rendering/fog", "nicest");
fgSetBool("/environment/clouds/status", true);
fgSetBool("/sim/startup/fullscreen", false);
fgSetBool("/sim/rendering/shading", true);
fgTie( "/sim/rendering/filtering", SGGetTextureFilter, SGSetTextureFilter, false);
fgSetInt("/sim/rendering/filtering", 1);
fgSetBool("/sim/rendering/wireframe", false);
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fgSetBool("/sim/rendering/horizon-effect", false);
fgSetBool("/sim/rendering/distance-attenuation", false);
fgSetBool("/sim/rendering/specular-highlight", true);
fgSetString("/sim/rendering/materials-file", "materials.xml");
fgSetInt("/sim/startup/xsize", 1024);
fgSetInt("/sim/startup/ysize", 768);
fgSetInt("/sim/rendering/bits-per-pixel", 32);
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);
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fgSetBool("/sim/freeze/fuel", false);
fgSetString("/sim/multiplay/callsign", "callsign");
fgSetString("/sim/multiplay/rxhost", "");
fgSetString("/sim/multiplay/txhost", "");
fgSetInt("/sim/multiplay/rxport", 0);
fgSetInt("/sim/multiplay/txport", 0);
SGPropertyNode* v = globals->get_props()->getNode("/sim/version", true);
v->setValueReadOnly("flightgear", FLIGHTGEAR_VERSION);
v->setValueReadOnly("simgear", SG_STRINGIZE(SIMGEAR_VERSION));
v->setValueReadOnly("openscenegraph", osgGetVersion());
#if OSG_VERSION_LESS_THAN(3,5,2)
v->setValueReadOnly("openscenegraph-thread-safe-reference-counting",
osg::Referenced::getThreadSafeReferenceCounting());
#endif
v->setValueReadOnly("revision", REVISION);
v->setValueReadOnly("build-number", JENKINS_BUILD_NUMBER);
v->setValueReadOnly("build-id", JENKINS_BUILD_ID);
v->setValueReadOnly("hla-support", bool(FG_HAVE_HLA));
v->setValueReadOnly("build-type", FG_BUILD_TYPE);
#ifdef ENABLE_COMPOSITOR
static constexpr bool compositor_support = true;
#else
static constexpr bool compositor_support = false;
#endif
v->setValueReadOnly("compositor-support", compositor_support);
char* envp = ::getenv( "http_proxy" );
if( envp != nullptr )
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fgSetupProxy( envp );
}
///////////////////////////////////////////////////////////////////////////////
// helper object to implement the --show-aircraft command.
// resides here so we can share the fgFindAircraftInDir template above,
// and hence ensure this command lists exectly the same aircraft as the normal
// loading path.
class ShowAircraft : public AircraftDirVistorBase
{
public:
ShowAircraft()
{
_minStatus = getNumMaturity(fgGetString("/sim/aircraft-min-status", "all"));
}
void show(const vector<SGPath> & path_list)
{
for (vector<SGPath>::const_iterator p = path_list.begin();
p != path_list.end(); ++p)
visitDir(*p, 0);
simgear::requestConsole(); // ensure console is shown on Windows
std::sort(_aircraft.begin(), _aircraft.end(), ciLessLibC());
cout << "Available aircraft:" << endl;
for ( unsigned int i = 0; i < _aircraft.size(); i++ ) {
cout << _aircraft[i] << endl;
}
}
private:
virtual VisitResult visit(const SGPath& path)
{
SGPropertyNode root;
try {
readProperties(path, &root);
} catch (sg_exception& ) {
return VISIT_CONTINUE;
}
int maturity = 0;
string descStr(" ");
descStr += path.file();
// trim common suffix from file names
int nPos = descStr.rfind("-set.xml");
if (nPos == (int)(descStr.size() - 8)) {
descStr.resize(nPos);
}
SGPropertyNode *node = root.getNode("sim");
if (node) {
SGPropertyNode* desc = node->getNode("description");
// if a status tag is found, read it in
if (node->hasValue("status")) {
maturity = getNumMaturity(node->getStringValue("status"));
}
if (desc) {
if (descStr.size() <= 27+3) {
descStr.append(29+3-descStr.size(), ' ');
} else {
descStr += '\n';
descStr.append( 32, ' ');
}
descStr += desc->getStringValue();
}
} // of have 'sim' node
if (maturity >= _minStatus) {
_aircraft.push_back(descStr);
}
return VISIT_CONTINUE;
}
int getNumMaturity(const char * str)
{
// Changes should also be reflected in $FG_ROOT/options.xml
const char* levels[] = {"alpha","beta","early-production","production"};
if (!strcmp(str, "all")) {
return 0;
}
for (size_t i=0; i<(sizeof(levels)/sizeof(levels[0]));i++)
if (strcmp(str,levels[i])==0)
return i;
return 0;
}
// recommended in Meyers, Effective STL when internationalization and embedded
// NULLs aren't an issue. Much faster than the STL or Boost lex versions.
struct ciLessLibC : public std::binary_function<string, string, bool>
{
bool operator()(const std::string &lhs, const std::string &rhs) const
{
return strcasecmp(lhs.c_str(), rhs.c_str()) < 0 ? 1 : 0;
}
};
int _minStatus;
string_list _aircraft;
};
/*
* Search in the current directory, and in on directory deeper
* for <aircraft>-set.xml configuration files and show the aircaft name
* and the contents of the<description> tag in a sorted manner.
*
* @parampath the directory to search for configuration files
*/
void fgShowAircraft(const vector<SGPath> &path_list)
{
ShowAircraft s;
s.show(path_list);
#ifdef _MSC_VER
cout << "Hit a key to continue..." << endl;
std::cin.get();
#endif
}
static bool
parse_wind (const string &wind, double * min_hdg, double * max_hdg,
double * speed, double * gust)
{
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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;
}
static bool
parseIntValue(char** ppParserPos, int* pValue,int min, int max, const char* field, const char* argument)
{
if ( !strlen(*ppParserPos) )
return true;
char num[256];
int i = 0;
while ( isdigit((*ppParserPos)[0]) && (i<255) )
{
num[i] = (*ppParserPos)[0];
(*ppParserPos)++;
i++;
}
num[i] = '\0';
switch ((*ppParserPos)[0])
{
case 0:
break;
case ':':
(*ppParserPos)++;
break;
default:
SG_LOG(SG_GENERAL, SG_ALERT, "Illegal character in time string for " << field << ": '" <<
(*ppParserPos)[0] << "'.");
// invalid field - skip rest of string to avoid further errors
while ((*ppParserPos)[0])
(*ppParserPos)++;
return false;
}
if (i<=0)
return true;
int value = atoi(num);
if ((value < min)||(value > max))
{
SG_LOG(SG_GENERAL, SG_ALERT, "Invalid " << field << " in '" << argument <<
"'. Valid range is " << min << "-" << max << ".");
return false;
}
else
{
*pValue = value;
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, const char* timeType)
{
struct tm gmt,*pCurrentTime;
int year,month,day,hour,minute,second;
char *argument, *date_str;
SGTime CurrentTime;
CurrentTime.update(SGGeod(),0,0);
// FIXME This should obtain system/aircraft/GMT time depending on timeType
pCurrentTime = CurrentTime.getGmt();
// initialize all fields with current time
year = pCurrentTime->tm_year + 1900;
month = pCurrentTime->tm_mon + 1;
day = pCurrentTime->tm_mday;
hour = pCurrentTime->tm_hour;
minute = pCurrentTime->tm_min;
second = pCurrentTime->tm_sec;
argument = (char *)date.c_str();
date_str = argument;
// start with parsing year
if (!strlen(date_str) ||
!parseIntValue(&date_str,&year,0,9999,"year",argument))
{
return -1;
}
if (year < 1970)
{
SG_LOG(SG_GENERAL, SG_ALERT, "Invalid year '" << year << "'. Use 1970 or later.");
return -1;
}
parseIntValue(&date_str, &month, 1, 12, "month", argument);
parseIntValue(&date_str, &day, 1, 31, "day", argument);
parseIntValue(&date_str, &hour, 0, 23, "hour", argument);
parseIntValue(&date_str, &minute, 0, 59, "minute", argument);
parseIntValue(&date_str, &second, 0, 59, "second", argument);
gmt.tm_sec = second;
gmt.tm_min = minute;
gmt.tm_hour = hour;
gmt.tm_mday = day;
gmt.tm_mon = month - 1;
gmt.tm_year = year -1900;
gmt.tm_isdst = 0; // ignore daylight savings time for the moment
2000-07-07 23:56:43 +00:00
time_t theTime = sgTimeGetGMT( gmt.tm_year, gmt.tm_mon, gmt.tm_mday,
gmt.tm_hour, gmt.tm_min, gmt.tm_sec );
SG_LOG(SG_GENERAL, SG_INFO, "Configuring startup time to " << ctime(&theTime));
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 long int
parse_time_offset( const string& time_str) {
long int result;
// printf("time offset = %s\n", time_str);
1998-04-26 05:01:19 +00:00
#ifdef HAVE_RINT
result = (int)rint(parse_time(time_str) * 3600.0);
1998-04-26 05:01:19 +00:00
#else
result = (int)(parse_time(time_str) * 3600.0);
1998-04-26 05:01:19 +00:00
#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/view[0]/config/default-field-of-view-deg", fov);
// printf("parse_fov(): result = %.4f\n", fov);
return fov;
}
1999-11-19 02:10:24 +00:00
// Parse I/O channel option
//
1999-11-19 02:10:24 +00:00
// Format is "--protocol=medium,direction,hz,medium_options,..."
//
// protocol = { native, nmea, garmin, AV400, AV400Sim, fgfs, rul, pve, etc. }
1999-11-19 02:10:24 +00:00
// 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
//
1999-11-19 02:10:24 +00:00
// device = OS device name of serial line to be open()'ed
// baud = {300, 1200, 2400, ..., 230400}
1999-11-19 02:10:24 +00:00
//
// Socket example "--native=socket,dir,hz,machine,port,style" where
//
1999-11-20 15:40:15 +00:00
// machine = machine name or ip address if client (leave empty if server)
1999-11-19 02:10:24 +00:00
// port = port, leave empty to let system choose
// style = tcp or udp
1999-11-19 02:10:24 +00:00
//
// File example "--garmin=file,dir,hz,filename" where
//
1999-11-19 02:10:24 +00:00
// filename = file system file name
static bool
add_channel( const string& type, const string& channel_str ) {
// This check is necessary to prevent fgviewer from segfaulting when given
// weird options. (It doesn't run the full initialization)
if(!globals->get_channel_options_list())
{
SG_LOG(SG_GENERAL, SG_ALERT, "Option " << type << "=" << channel_str
<< " ignored.");
return false;
}
SG_LOG(SG_GENERAL, SG_INFO, "Channel string = " << channel_str );
globals->get_channel_options_list()->push_back( type + "," + channel_str );
return true;
}
static void
clearLocation ()
{
fgSetString("/sim/presets/airport-id", "");
fgSetString("/sim/presets/vor-id", "");
fgSetString("/sim/presets/ndb-id", "");
Mathias Frhlich: I have introduced the posibility to start directly on the carrier. With that patch you will have a --carrrier=id argument where id can either be the pennant number configured in the nimitz scenario or the carriers name also configured in the carriers scenario. Additionaly you can use --parkpos=id to select different positions on the carrier. They are also configured in the scenario file. That includes the switch of the whole FGInterface class to make use of the groundcache. That means that an aircraft no longer uses the current elevation value from the scenery class. It rather has its own local cache of the aircrafts environment which is setup in the common_init method of FGInterface and updated either manually by calling FGInterface::get_groundlevel_m(lat, lon, alt_m); or implicitly by calling the above method in the FGInterface::_updateGeo*Position(lat, lon, alt); methods. A call get_groundlevel_m rebuilds the groundcache if the request is outside the range of the cache. Note that for the real usage of the groundcache including the correct information about the movement of objects and the velocity information, you still need to set up the groundcache in the usual way like YASim and JSBSim currently does. If you use the native interface, you will get only static objects correctly. But for FDM's only using one single ground level for a whole step this is IMO sufficient. The AIManager gets a way to return the location of a object which is placed wrt an AI Object. At the moment it only honours AICarriers for that. That method is a static one, which loads the scenario file for that reason and throws it away afterwards. This looked like the aprioriate way, because the AIManager is initialized much later in flightgears bootstrap, and I did not find an easy way to reorder that for my needs. Since this additional load is very small and does only happen if such a relative location is required, I think that this is ok. Note that moving on the carrier will only work correctly for JSBSim and YASim, but you should now be able to start and move on every not itself moving object with any FDM.
2005-07-03 09:39:14 +00:00
fgSetString("/sim/presets/carrier", "");
fgSetString("/sim/presets/parkpos", "");
fgSetString("/sim/presets/fix", "");
}
/*
Using --addon=/foo/bar does:
- register the add-on with the AddonManager (enabling, among other things,
add-on-specific resources for simgear::ResourceManager);
- load /foo/bar/addon-config.xml into the Global Property Tree;
- add /foo/bar to the list of aircraft paths to provide read access:
- set various properties related to the add-on under /addons;
- load /foo/bar/addon-main.nas into namespace __addon[ADDON_ID]__
(see $FG_ROOT/Nasal/addons.nas);
- call the main() function defined in that file.
For more details, see $FG_ROOT/Docs/README.add-ons.
*/
static int
fgOptAddon(const char *arg)
{
const SGPath addonPath = SGPath::fromUtf8(arg);
const auto& addonManager = addons::AddonManager::instance();
Improved infrastructure for add-ons: C++ classes, metadata file, Nasal interface This commit adds C++ classes for add-on management, most notably AddonManager, Addon and AddonVersion. The AddonManager is used to register add-ons. It relies on an std::map<std::string, AddonRef> to hold the metadata of each registered add-on (keys of the std::map are add-on identifiers, and AddonRef is currently SGSharedPtr<Addon>). Accessor methods are available for: - retrieving the list of registered or loaded add-ons (terminology explained in $FG_ROOT/Docs/README.add-ons); - checking if a particular add-on has already been registered or loaded; - for each add-on, obtaining an Addon instance which can be queried for its name, id, version, base path, the minimum and maximum FlightGear versions it requires, its base node in the Property Tree, its order in the load sequence, short and long description strings, home page, etc. The most important metadata is made accessible in the Property Tree under /addons/by-id/<addon-id> and the property /addons/by-id/<addon-id>/loaded can be checked or listened to, in order to determine when a particular add-on is loaded. There is also a Nasal interface to access add-on metadata in a convenient way. In order to provide this metadata, each add-on must from now on have in its base directory a file called 'addon-metadata.xml'. All this is documented in much more detail in $FG_ROOT/Docs/README.add-ons. Mailing-list discussion: https://sourceforge.net/p/flightgear/mailman/message/36146017/
2017-11-06 12:58:14 +00:00
try {
addonManager->registerAddon(addonPath);
} catch (const sg_exception &e) {
string msg = "Error registering an add-on: " + e.getFormattedMessage();
SG_LOG(SG_GENERAL, SG_ALERT, msg);
flightgear::fatalMessageBoxThenExit(
Improved infrastructure for add-ons: C++ classes, metadata file, Nasal interface This commit adds C++ classes for add-on management, most notably AddonManager, Addon and AddonVersion. The AddonManager is used to register add-ons. It relies on an std::map<std::string, AddonRef> to hold the metadata of each registered add-on (keys of the std::map are add-on identifiers, and AddonRef is currently SGSharedPtr<Addon>). Accessor methods are available for: - retrieving the list of registered or loaded add-ons (terminology explained in $FG_ROOT/Docs/README.add-ons); - checking if a particular add-on has already been registered or loaded; - for each add-on, obtaining an Addon instance which can be queried for its name, id, version, base path, the minimum and maximum FlightGear versions it requires, its base node in the Property Tree, its order in the load sequence, short and long description strings, home page, etc. The most important metadata is made accessible in the Property Tree under /addons/by-id/<addon-id> and the property /addons/by-id/<addon-id>/loaded can be checked or listened to, in order to determine when a particular add-on is loaded. There is also a Nasal interface to access add-on metadata in a convenient way. In order to provide this metadata, each add-on must from now on have in its base directory a file called 'addon-metadata.xml'. All this is documented in much more detail in $FG_ROOT/Docs/README.add-ons. Mailing-list discussion: https://sourceforge.net/p/flightgear/mailman/message/36146017/
2017-11-06 12:58:14 +00:00
"FlightGear", "Unable to register an add-on.", msg);
}
return FG_OPTIONS_OK;
}
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;
}
Mathias Frhlich: I have introduced the posibility to start directly on the carrier. With that patch you will have a --carrrier=id argument where id can either be the pennant number configured in the nimitz scenario or the carriers name also configured in the carriers scenario. Additionaly you can use --parkpos=id to select different positions on the carrier. They are also configured in the scenario file. That includes the switch of the whole FGInterface class to make use of the groundcache. That means that an aircraft no longer uses the current elevation value from the scenery class. It rather has its own local cache of the aircrafts environment which is setup in the common_init method of FGInterface and updated either manually by calling FGInterface::get_groundlevel_m(lat, lon, alt_m); or implicitly by calling the above method in the FGInterface::_updateGeo*Position(lat, lon, alt); methods. A call get_groundlevel_m rebuilds the groundcache if the request is outside the range of the cache. Note that for the real usage of the groundcache including the correct information about the movement of objects and the velocity information, you still need to set up the groundcache in the usual way like YASim and JSBSim currently does. If you use the native interface, you will get only static objects correctly. But for FDM's only using one single ground level for a whole step this is IMO sufficient. The AIManager gets a way to return the location of a object which is placed wrt an AI Object. At the moment it only honours AICarriers for that. That method is a static one, which loads the scenario file for that reason and throws it away afterwards. This looked like the aprioriate way, because the AIManager is initialized much later in flightgears bootstrap, and I did not find an easy way to reorder that for my needs. Since this additional load is very small and does only happen if such a relative location is required, I think that this is ok. Note that moving on the carrier will only work correctly for JSBSim and YASim, but you should now be able to start and move on every not itself moving object with any FDM.
2005-07-03 09:39:14 +00:00
static int
fgOptCarrier( const char * arg )
{
clearLocation();
fgSetString("/sim/presets/carrier", arg);
return FG_OPTIONS_OK;
}
static int
fgOptParkpos( const char * arg )
{
fgSetString("/sim/presets/parkpos", arg);
fgSetBool("/sim/presets/parking-requested", true);
Mathias Frhlich: I have introduced the posibility to start directly on the carrier. With that patch you will have a --carrrier=id argument where id can either be the pennant number configured in the nimitz scenario or the carriers name also configured in the carriers scenario. Additionaly you can use --parkpos=id to select different positions on the carrier. They are also configured in the scenario file. That includes the switch of the whole FGInterface class to make use of the groundcache. That means that an aircraft no longer uses the current elevation value from the scenery class. It rather has its own local cache of the aircrafts environment which is setup in the common_init method of FGInterface and updated either manually by calling FGInterface::get_groundlevel_m(lat, lon, alt_m); or implicitly by calling the above method in the FGInterface::_updateGeo*Position(lat, lon, alt); methods. A call get_groundlevel_m rebuilds the groundcache if the request is outside the range of the cache. Note that for the real usage of the groundcache including the correct information about the movement of objects and the velocity information, you still need to set up the groundcache in the usual way like YASim and JSBSim currently does. If you use the native interface, you will get only static objects correctly. But for FDM's only using one single ground level for a whole step this is IMO sufficient. The AIManager gets a way to return the location of a object which is placed wrt an AI Object. At the moment it only honours AICarriers for that. That method is a static one, which loads the scenario file for that reason and throws it away afterwards. This looked like the aprioriate way, because the AIManager is initialized much later in flightgears bootstrap, and I did not find an easy way to reorder that for my needs. Since this additional load is very small and does only happen if such a relative location is required, I think that this is ok. Note that moving on the carrier will only work correctly for JSBSim and YASim, but you should now be able to start and move on every not itself moving object with any FDM.
2005-07-03 09:39:14 +00:00
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("/sim/presets/vertical-speed-fps", atof(arg)/60);
return FG_OPTIONS_OK;
}
static int
fgOptFgScenery( const char *arg )
{
globals->append_fg_scenery(SGPath::pathsFromUtf8(arg));
return FG_OPTIONS_OK;
}
static int
fgOptEnhancedLighting( const char *arg )
{
SG_LOG(SG_ALL,SG_ALERT,
"the options --enable-enhanced-lighting and "
"--disable-enhanced-lighting are no longer supported and will be "
"removed in a future FlightGear version! Please do not use them");
return FG_OPTIONS_EXIT;
}
static int
fgOptAllowNasalRead( const char *arg )
{
PathList paths = SGPath::pathsFromUtf8(arg);
if(paths.size() == 0) {
SG_LOG(SG_GENERAL, SG_WARN, "--allow-nasal-read requires a list of directories to allow");
}
for( PathList::const_iterator it = paths.begin(); it != paths.end(); ++it ) {
globals->append_read_allowed_paths(*it);
}
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 )
{
fgSetLong("/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 )
{
long int theTime = parse_date( arg, "system" );
if (theTime>=0)
{
fgSetLong("/sim/startup/time-offset", theTime);
fgSetString("/sim/startup/time-offset-type", "system");
}
return FG_OPTIONS_OK;
}
static int
fgOptStartDateLat( const char *arg )
{
long int theTime = parse_date( arg, "latitude" );
if (theTime>=0)
{
fgSetLong("/sim/startup/time-offset", theTime);
fgSetString("/sim/startup/time-offset-type", "latitude");
}
return FG_OPTIONS_OK;
}
static int
fgOptStartDateGmt( const char *arg )
{
long int theTime = parse_date( arg, "gmt" );
if (theTime>=0)
{
fgSetLong("/sim/startup/time-offset", theTime);
fgSetString("/sim/startup/time-offset-type", "gmt");
}
return FG_OPTIONS_OK;
}
static int
fgOptJpgHttpd( const char * arg )
{
SG_LOG(SG_ALL,SG_ALERT,
"the option --jpg-httpd is no longer supported! Please use --httpd instead."
" URL for the screenshot within the new httpd is http://YourFgServer:xxxx/screenshot");
return FG_OPTIONS_EXIT;
}
2014-03-03 20:59:16 +00:00
static int
fgOptHttpd( const char * arg )
{
// port may be any valid address:port notation
// like 127.0.0.1:8080
// or just the port 8080
string port = simgear::strutils::strip(string(arg));
if( port.empty() ) return FG_OPTIONS_ERROR;
fgSetString( string(flightgear::http::PROPERTY_ROOT).append("/options/listening-port").c_str(), port );
2014-03-03 20:59:16 +00:00
return FG_OPTIONS_OK;
}
static int
fgSetupProxy( const char *arg )
{
2011-02-20 16:14:30 +00:00
string options = simgear::strutils::strip( arg );
string host, port, auth;
2006-12-17 18:32:56 +00:00
string::size_type pos;
2011-02-20 16:14:30 +00:00
// this is NURLP - NURLP is not an url parser
if( simgear::strutils::starts_with( options, "http://" ) )
options = options.substr( 7 );
if( simgear::strutils::ends_with( options, "/" ) )
options = options.substr( 0, options.length() - 1 );
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/priority", arg);
setLoggingPriority(arg);
return FG_OPTIONS_OK;
}
static int
fgOptLogClasses( const char *arg )
{
fgSetString("/sim/logging/classes", arg);
setLoggingClasses (arg);
return FG_OPTIONS_OK;
}
static int
fgOptLogDir(const char* arg)
{
SGPath dirPath;
if (!strcmp(arg, "desktop")) {
dirPath = SGPath::desktop();
} else {
dirPath = SGPath::fromUtf8(arg);
}
if (!dirPath.isDir()) {
SG_LOG(SG_GENERAL, SG_ALERT, "cannot find logging location " << dirPath);
return FG_OPTIONS_ERROR;
}
if (!dirPath.canWrite()) {
SG_LOG(SG_GENERAL, SG_ALERT, "cannot write to logging location " << dirPath);
return FG_OPTIONS_ERROR;
}
// generate the log file name
SGPath logFile;
{
char fileNameBuffer[100];
time_t now;
time(&now);
strftime(fileNameBuffer, 99, "FlightGear_%F", localtime(&now));
unsigned int logsTodayCount = 0;
while (true) {
std::ostringstream os;
os << fileNameBuffer << "_" << logsTodayCount++ << ".log";
logFile = dirPath / os.str();
if (!logFile.exists()) {
break;
}
}
}
sglog().logToFile(logFile, sglog().get_log_classes(), sglog().get_log_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 )
{
Environment::Presets::VisibilitySingleton::instance()->preset( atof( arg ) );
return FG_OPTIONS_OK;
}
static int
fgOptVisibilityMiles( const char *arg )
{
Environment::Presets::VisibilitySingleton::instance()->preset( atof( arg ) * 5280.0 * SG_FEET_TO_METER );
return FG_OPTIONS_OK;
}
static int
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fgOptMetar(const char *arg)
{
// The given METAR string cannot be effective without disabling
// real weather fetching.
fgSetBool("/environment/realwx/enabled", false);
// The user-supplied METAR string
fgSetString("/environment/metar/data", arg);
return FG_OPTIONS_OK;
}
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static int
fgOptConsole(const char *arg)
{
static bool already_done = false;
if (!already_done)
{
already_done = true;
simgear::requestConsole();
}
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));
Environment::Presets::WindSingleton::instance()->preset(min_hdg, max_hdg, speed, gust);
return FG_OPTIONS_OK;
}
static int
fgOptWind( const char *arg )
{
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double min_hdg = 0.0, max_hdg = 0.0, speed = 0.0, gust = 0.0;
if (!parse_wind( arg, &min_hdg, &max_hdg, &speed, &gust)) {
SG_LOG( SG_GENERAL, SG_ALERT, "bad wind value " << arg );
return FG_OPTIONS_ERROR;
}
Environment::Presets::WindSingleton::instance()->preset(min_hdg, max_hdg, speed, gust);
return FG_OPTIONS_OK;
}
static int
fgOptTurbulence( const char *arg )
{
Environment::Presets::TurbulenceSingleton::instance()->preset( 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());
}
Environment::Presets::CeilingSingleton::instance()->preset( elevation, thickness );
return FG_OPTIONS_OK;
}
static int
fgOptWp( const char *arg )
{
string_list *waypoints = globals->get_initial_waypoints();
if (!waypoints) {
waypoints = new string_list;
globals->set_initial_waypoints(waypoints);
}
waypoints->push_back(arg);
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;
}
}
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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("/instrumentation/nav[0]/radials/selected-deg", radial);
fgSetDouble("/instrumentation/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("/instrumentation/nav[1]/radials/selected-deg", radial);
fgSetDouble("/instrumentation/nav[1]/frequencies/selected-mhz", freq);
return FG_OPTIONS_OK;
}
static int
fgOptADF( const char * arg )
{
SG_LOG(SG_ALL,SG_ALERT,
"the option --adf is no longer supported! Please use --adf1 "
"instead.");
return FG_OPTIONS_EXIT;
}
static int
fgOptADF1( const char * arg )
{
double rot, freq;
if (parse_colon(arg, &rot, &freq))
fgSetDouble("/instrumentation/adf[0]/rotation-deg", rot);
fgSetDouble("/instrumentation/adf[0]/frequencies/selected-khz", freq);
return FG_OPTIONS_OK;
}
static int
fgOptADF2( const char * arg )
{
double rot, freq;
if (parse_colon(arg, &rot, &freq))
fgSetDouble("/instrumentation/adf[1]/rotation-deg", rot);
fgSetDouble("/instrumentation/adf[1]/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",
"/instrumentation/nav[0]/frequencies/selected-mhz");
} else if (opt == "nav2") {
fgSetInt("/instrumentation/dme/switch-position", 3);
fgSetString("/instrumentation/dme/frequencies/source",
"/instrumentation/nav[1]/frequencies/selected-mhz");
} else {
double frequency = atof(arg);
if (frequency==0.0)
{
SG_LOG(SG_INPUT, SG_ALERT, "Invalid DME frequency: '" << arg << "'.");
return FG_OPTIONS_ERROR;
}
fgSetInt("/instrumentation/dme/switch-position", 2);
fgSetString("/instrumentation/dme/frequencies/source",
"/instrumentation/dme/frequencies/selected-mhz");
fgSetDouble("/instrumentation/dme/frequencies/selected-mhz", frequency);
}
return FG_OPTIONS_OK;
}
static int
fgOptLivery( const char *arg )
{
string opt = arg;
string livery_path = "livery/" + opt;
fgSetString("/sim/model/texture-path", livery_path.c_str() );
return FG_OPTIONS_OK;
}
static int
fgOptScenario( const char *arg )
{
SGPath path(arg);
std::string name(arg);
if (path.exists()) {
if (path.isRelative()) {
// make absolute
path = simgear::Dir::current().path() / arg;
}
// create description node
auto n = FGAIManager::registerScenarioFile(globals->get_props(), path);
if (!n) {
SG_LOG(SG_GENERAL, SG_WARN, "failed to read scenario file at:" << path);
return FG_OPTIONS_ERROR;
}
// also set the /sim/ai/scenario entry so we load it on startup
name = path.file_base();
}
// add the 'load it' node
SGPropertyNode_ptr ai_node = fgGetNode( "/sim/ai", true );
ai_node->addChild("scenario")->setStringValue(name);
return FG_OPTIONS_OK;
}
static int
fgOptAirport( const char *arg )
{
fgSetString("/sim/presets/airport-id", arg );
fgSetBool("/sim/presets/airport-requested", true );
return FG_OPTIONS_OK;
}
static int
fgOptRunway( const char *arg )
{
fgSetString("/sim/presets/runway", arg );
fgSetBool("/sim/presets/runway-requested", true );
return FG_OPTIONS_OK;
}
static int
fgOptCallSign(const char * arg)
{
int i;
char callsign[11];
strncpy(callsign,arg,10);
callsign[10]=0;
for (i=0;callsign[i];i++)
{
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char c = callsign[i];
if (c >= 'A' && c <= 'Z') continue;
if (c >= 'a' && c <= 'z') continue;
if (c >= '0' && c <= '9') continue;
if (c == '-' || c == '_') continue;
// convert any other illegal characters
callsign[i]='-';
}
fgSetString("sim/multiplay/callsign", callsign );
return FG_OPTIONS_OK;
}
static int
fgOptIgnoreAutosave(const char* arg)
{
fgSetBool("/sim/startup/ignore-autosave", true);
// don't overwrite autosave on exit
fgSetBool("/sim/startup/save-on-exit", false);
return FG_OPTIONS_OK;
}
static int
fgOptEnableFreeze(const char* arg)
{
fgSetBool("/sim/freeze/master", true);
fgSetBool("/sim/freeze/clock", true);
return FG_OPTIONS_OK;
}
static int
fgOptDisableFreeze(const char* arg)
{
fgSetBool("/sim/freeze/master", false);
fgSetBool("/sim/freeze/clock", false);
return FG_OPTIONS_OK;
}
// Set a property for the --prop: option. Syntax: --prop:[<type>:]<name>=<value>
// <type> can be "double" etc. but also only the first letter "d".
// Examples: --prop:alpha=1 --prop:bool:beta=true --prop:d:gamma=0.123
static int
fgOptSetProperty(const char* raw)
{
string arg(raw);
string::size_type pos = arg.find('=');
if (pos == arg.npos || pos == 0 || pos + 1 == arg.size())
return FG_OPTIONS_ERROR;
string name = arg.substr(0, pos);
string value = arg.substr(pos + 1);
string type;
pos = name.find(':');
if (pos != name.npos && pos != 0 && pos + 1 != name.size()) {
type = name.substr(0, pos);
name = name.substr(pos + 1);
}
SGPropertyNode *n = fgGetNode(name.c_str(), true);
bool writable = n->getAttribute(SGPropertyNode::WRITE);
if (!writable)
n->setAttribute(SGPropertyNode::WRITE, true);
bool ret = false;
if (type.empty())
ret = n->setUnspecifiedValue(value.c_str());
else if (type == "s" || type == "string")
ret = n->setStringValue(value.c_str());
else if (type == "d" || type == "double")
ret = n->setDoubleValue(strtod(value.c_str(), 0));
else if (type == "f" || type == "float")
ret = n->setFloatValue(atof(value.c_str()));
else if (type == "l" || type == "long")
ret = n->setLongValue(strtol(value.c_str(), 0, 0));
else if (type == "i" || type == "int")
ret = n->setIntValue(atoi(value.c_str()));
else if (type == "b" || type == "bool")
ret = n->setBoolValue(value == "true" || atoi(value.c_str()) != 0);
if (!writable)
n->setAttribute(SGPropertyNode::WRITE, false);
return ret ? FG_OPTIONS_OK : FG_OPTIONS_ERROR;
}
static int
fgOptLoadTape(const char* arg)
{
// load a flight recorder tape but wait until the fdm is initialized
class DelayedTapeLoader : SGPropertyChangeListener {
public:
DelayedTapeLoader( const char * tape ) :
_tape(SGPath::fromUtf8(tape))
{
SGPropertyNode_ptr n = fgGetNode("/sim/signals/fdm-initialized", true);
n->addChangeListener( this );
}
virtual ~ DelayedTapeLoader() {}
virtual void valueChanged(SGPropertyNode * node)
{
node->removeChangeListener( this );
// tell the replay subsystem to load the tape
FGReplay* replay = globals->get_subsystem<FGReplay>();
SGPropertyNode_ptr arg = new SGPropertyNode();
arg->setStringValue("tape", _tape.utf8Str() );
arg->setBoolValue( "same-aircraft", 0 );
replay->loadTape(arg);
delete this; // commence suicide
}
private:
SGPath _tape;
};
new DelayedTapeLoader(arg);
return FG_OPTIONS_OK;
}
/*
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,
s_param 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 = 0, OPTION_STRING, OPTION_DOUBLE, OPTION_INT, OPTION_CHANNEL, OPTION_FUNC, OPTION_IGNORE };
const int OPTION_MULTI = 1 << 17;
struct OptionDesc {
const char *option;
bool has_param;
int type;
const char *property;
bool b_param;
const char *s_param;
int (*func)( const char * );
} fgOptionArray[] = {
{"language", true, OPTION_IGNORE, "", false, "", 0 },
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{"console", false, OPTION_FUNC, "", false, "", fgOptConsole },
{"launcher", false, OPTION_IGNORE, "", false, "", 0 },
2018-02-03 13:44:26 +00:00
{"allow-nasal-from-sockets", false, OPTION_IGNORE, "", false, "", 0 },
{"disable-rembrandt", false, OPTION_BOOL, "/sim/rendering/rembrandt/enabled", false, "", 0 },
{"enable-rembrandt", false, OPTION_BOOL, "/sim/rendering/rembrandt/enabled", true, "", 0 },
{"renderer", true, OPTION_STRING, "/sim/rendering/rembrandt/renderer", false, "", 0 },
{"compositor", true, OPTION_STRING, "/sim/rendering/default-compositor", false, "", 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-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-random-vegetation", false, OPTION_BOOL, "/sim/rendering/random-vegetation", false, "", 0 },
{"enable-random-vegetation", false, OPTION_BOOL, "/sim/rendering/random-vegetation", true, "", 0 },
{"disable-random-buildings", false, OPTION_BOOL, "/sim/rendering/random-buildings", false, "", 0 },
{"enable-random-buildings", false, OPTION_BOOL, "/sim/rendering/random-buildings", true, "", 0 },
{"disable-real-weather-fetch", false, OPTION_BOOL, "/environment/realwx/enabled", false, "", 0 },
{"enable-real-weather-fetch", false, OPTION_BOOL, "/environment/realwx/enabled", true, "", 0 },
{"metar", true, OPTION_FUNC, "", false, "", fgOptMetar },
{"disable-ai-models", false, OPTION_BOOL, "/sim/ai/enabled", false, "", 0 },
{"enable-ai-models", false, OPTION_BOOL, "/sim/ai/enabled", true, "", 0 },
{"disable-ai-traffic", false, OPTION_BOOL, "/sim/traffic-manager/enabled", false, "", 0 },
{"enable-ai-traffic", false, OPTION_BOOL, "/sim/traffic-manager/enabled", true, "", 0 },
{"disable-freeze", false, OPTION_FUNC, "", false, "", fgOptDisableFreeze },
{"enable-freeze", false, OPTION_FUNC, "", true, "", fgOptEnableFreeze },
{"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[1]", false, "", 0 },
{"enable-hud-3d", false, OPTION_BOOL, "/sim/hud/enable3d[1]", true, "", 0 },
{"disable-anti-alias-hud", false, OPTION_BOOL, "/sim/hud/color/antialiased", false, "", 0 },
{"enable-anti-alias-hud", false, OPTION_BOOL, "/sim/hud/color/antialiased", true, "", 0 },
{"disable-auto-coordination", false, OPTION_BOOL, "/controls/flight/auto-coordination", false, "", 0 },
{"enable-auto-coordination", false, OPTION_BOOL, "/controls/flight/auto-coordination", true, "", 0 },
{"browser-app", true, OPTION_STRING, "/sim/startup/browser-app", false, "", 0 },
{"disable-hud", false, OPTION_BOOL, "/sim/hud/visibility[1]", false, "", 0 },
{"enable-hud", false, OPTION_BOOL, "/sim/hud/visibility[1]", 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/working", false, "", 0 },
{"enable-sound", false, OPTION_BOOL, "/sim/sound/working", true, "", 0 },
{"sound-device", true, OPTION_STRING, "/sim/sound/device-name", false, "", 0 },
{"airport", true, OPTION_FUNC, "", false, "", fgOptAirport },
{"runway", true, OPTION_FUNC, "", false, "", fgOptRunway },
{"vor", true, OPTION_FUNC, "", false, "", fgOptVOR },
{"vor-frequency", true, OPTION_DOUBLE, "/sim/presets/vor-freq", false, "", fgOptVOR },
{"ndb", true, OPTION_FUNC, "", false, "", fgOptNDB },
{"ndb-frequency", true, OPTION_DOUBLE, "/sim/presets/ndb-freq", false, "", fgOptVOR },
Mathias Frhlich: I have introduced the posibility to start directly on the carrier. With that patch you will have a --carrrier=id argument where id can either be the pennant number configured in the nimitz scenario or the carriers name also configured in the carriers scenario. Additionaly you can use --parkpos=id to select different positions on the carrier. They are also configured in the scenario file. That includes the switch of the whole FGInterface class to make use of the groundcache. That means that an aircraft no longer uses the current elevation value from the scenery class. It rather has its own local cache of the aircrafts environment which is setup in the common_init method of FGInterface and updated either manually by calling FGInterface::get_groundlevel_m(lat, lon, alt_m); or implicitly by calling the above method in the FGInterface::_updateGeo*Position(lat, lon, alt); methods. A call get_groundlevel_m rebuilds the groundcache if the request is outside the range of the cache. Note that for the real usage of the groundcache including the correct information about the movement of objects and the velocity information, you still need to set up the groundcache in the usual way like YASim and JSBSim currently does. If you use the native interface, you will get only static objects correctly. But for FDM's only using one single ground level for a whole step this is IMO sufficient. The AIManager gets a way to return the location of a object which is placed wrt an AI Object. At the moment it only honours AICarriers for that. That method is a static one, which loads the scenario file for that reason and throws it away afterwards. This looked like the aprioriate way, because the AIManager is initialized much later in flightgears bootstrap, and I did not find an easy way to reorder that for my needs. Since this additional load is very small and does only happen if such a relative location is required, I think that this is ok. Note that moving on the carrier will only work correctly for JSBSim and YASim, but you should now be able to start and move on every not itself moving object with any FDM.
2005-07-03 09:39:14 +00:00
{"carrier", true, OPTION_FUNC, "", false, "", fgOptCarrier },
{"parkpos", true, OPTION_FUNC, "", false, "", fgOptParkpos },
{"fix", true, OPTION_FUNC, "", false, "", fgOptFIX },
{"offset-distance", true, OPTION_DOUBLE, "/sim/presets/offset-distance-nm", false, "", 0 },
{"offset-azimuth", true, OPTION_DOUBLE, "/sim/presets/offset-azimuth-deg", 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_IGNORE, "", false, "", 0 },
{"fg-scenery", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptFgScenery },
{"terrain-engine", true, OPTION_STRING, "/sim/scenery/engine", false, "tilecache", 0 },
{"lod-levels", true, OPTION_STRING, "/sim/scenery/lod-levels", false, "1 3 5 7", 0 },
{"lod-res", true, OPTION_STRING, "/sim/scenery/lod-res", false, "1", 0 },
{"lod-texturing", true, OPTION_STRING, "/sim/scenery/lod-texturing", false, "bluemarble", 0 },
{"lod-range-mult", true, OPTION_STRING, "/sim/scenery/lod-range-mult", false, "2", 0 },
{"fg-aircraft", true, OPTION_IGNORE | OPTION_MULTI, "", false, "", 0 },
{"fdm", true, OPTION_STRING, "/sim/flight-model", false, "", 0 },
{"aero", true, OPTION_STRING, "/sim/aero", false, "", 0 },
{"aircraft-dir", true, OPTION_IGNORE, "", false, "", 0 },
2016-06-17 16:53:35 +00:00
{"state", true, OPTION_IGNORE, "", false, "", 0 },
{"model-hz", true, OPTION_INT, "/sim/model-hz", false, "", 0 },
{"max-fps", true, OPTION_DOUBLE, "/sim/frame-rate-throttle-hz", false, "", 0 },
{"speed", true, OPTION_DOUBLE, "/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 },
2003-06-22 09:45:43 +00:00
{"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_FUNC, "", false, "", fgOptEnhancedLighting },
{"enable-enhanced-lighting", false, OPTION_FUNC, "", false, "", fgOptEnhancedLighting },
2003-06-22 09:45:43 +00:00
{"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 },
2005-06-25 11:21:18 +00:00
{"disable-clouds3d", false, OPTION_BOOL, "/sim/rendering/clouds3d-enable", false, "", 0 },
{"enable-clouds3d", false, OPTION_BOOL, "/sim/rendering/clouds3d-enable", true, "", 0 },
{"fov", true, OPTION_FUNC, "", false, "", fgOptFov },
{"aspect-ratio-multiplier", true, OPTION_DOUBLE, "/sim/current-view/aspect-ratio-multiplier", false, "", 0 },
{"disable-fullscreen", false, OPTION_BOOL, "/sim/startup/fullscreen", false, "", 0 },
{"enable-fullscreen", false, OPTION_BOOL, "/sim/startup/fullscreen", true, "", 0 },
{"disable-save-on-exit", false, OPTION_BOOL, "/sim/startup/save-on-exit", false, "", 0 },
{"enable-save-on-exit", false, OPTION_BOOL, "/sim/startup/save-on-exit", true, "", 0 },
{"read-only", false, OPTION_BOOL, "/sim/fghome-readonly", true, "", 0 },
{"ignore-autosave", false, OPTION_FUNC, "", false, "", fgOptIgnoreAutosave },
{"restore-defaults", false, OPTION_BOOL, "/sim/startup/restore-defaults", true, "", 0 },
{"shading-flat", false, OPTION_BOOL, "/sim/rendering/shading", false, "", 0 },
{"shading-smooth", false, OPTION_BOOL, "/sim/rendering/shading", true, "", 0 },
{"texture-filtering", false, OPTION_INT, "/sim/rendering/filtering", 1, "", 0 },
{"disable-wireframe", false, OPTION_BOOL, "/sim/rendering/wireframe", false, "", 0 },
{"enable-wireframe", false, OPTION_BOOL, "/sim/rendering/wireframe", true, "", 0 },
{"materials-file", true, OPTION_STRING, "/sim/rendering/materials-file", false, "", 0 },
{"disable-terrasync", false, OPTION_BOOL, "/sim/terrasync/enabled", false, "", 0 },
{"enable-terrasync", false, OPTION_BOOL, "/sim/terrasync/enabled", true, "", 0 },
{"terrasync-dir", true, OPTION_IGNORE, "", false, "", 0 },
{"download-dir", true, OPTION_IGNORE, "", false, "", 0 },
{"texture-cache-dir", true, OPTION_IGNORE, "", false, "", 0 },
{"enable-texture-cache", false, OPTION_BOOL, "/sim/rendering/texture-cache/cache-enabled", true, "", 0 },
{"disable-texture-cache", false, OPTION_BOOL, "/sim/rendering/texture-cache/cache-enabled", false, "", 0 },
{"allow-nasal-read", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptAllowNasalRead },
{"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 },
{"season", true, OPTION_STRING, "/sim/startup/season", false, "summer", 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 | OPTION_MULTI, "", false, "", 0 },
2014-03-03 20:59:16 +00:00
{"httpd", true, OPTION_FUNC , "", false, "", fgOptHttpd },
{"jpg-httpd", true, OPTION_FUNC, "", false, "", fgOptJpgHttpd },
{"native", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"native-ctrls", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"native-fdm", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"native-gui", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"opengc", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"AV400", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"AV400Sim", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"AV400WSimA", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"AV400WSimB", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"flarm", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"garmin", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"igc", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"nmea", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"generic", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"props", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
{"telnet", true, OPTION_CHANNEL | OPTION_MULTI, "", 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 },
{"callsign", true, OPTION_FUNC, "", false, "", fgOptCallSign},
{"multiplay", true, OPTION_CHANNEL | OPTION_MULTI, "", false, "", 0 },
#if FG_HAVE_HLA
{"hla", true, OPTION_CHANNEL, "", false, "", 0 },
{"hla-local", true, OPTION_CHANNEL, "", false, "", 0 },
#endif
{"trace-read", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptTraceRead },
{"trace-write", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptTraceWrite },
{"log-level", true, OPTION_FUNC, "", false, "", fgOptLogLevel },
{"log-class", true, OPTION_FUNC, "", false, "", fgOptLogClasses },
{"log-dir", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptLogDir },
{"view-offset", true, OPTION_FUNC | OPTION_MULTI, "", 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 | OPTION_MULTI, "", false, "", fgOptWind },
{"turbulence", true, OPTION_FUNC, "", false, "", fgOptTurbulence },
{"ceiling", true, OPTION_FUNC, "", false, "", fgOptCeiling },
{"wp", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptWp },
{"flight-plan", true, OPTION_STRING, "/autopilot/route-manager/file-path", false, "", NULL },
{"config", true, OPTION_IGNORE | OPTION_MULTI, "", false, "", 0 },
{"addon", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptAddon },
{"aircraft", true, OPTION_STRING, "/sim/aircraft", false, "", 0 },
{"vehicle", true, OPTION_STRING, "/sim/aircraft", false, "", 0 },
{"failure", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptFailure },
#ifdef ENABLE_IAX
{"enable-fgcom", false, OPTION_BOOL, "/sim/fgcom/enabled", true, "", 0 },
{"disable-fgcom", false, OPTION_BOOL, "/sim/fgcom/enabled", false, "", 0 },
#endif
{"com1", true, OPTION_DOUBLE, "/instrumentation/comm[0]/frequencies/selected-mhz", false, "", 0 },
{"com2", true, OPTION_DOUBLE, "/instrumentation/comm[1]/frequencies/selected-mhz", false, "", 0 },
{"nav1", true, OPTION_FUNC, "", false, "", fgOptNAV1 },
{"nav2", true, OPTION_FUNC, "", false, "", fgOptNAV2 },
{"adf", /*legacy*/ true, OPTION_FUNC, "", false, "", fgOptADF },
{"adf1", true, OPTION_FUNC, "", false, "", fgOptADF1 },
{"adf2", true, OPTION_FUNC, "", false, "", fgOptADF2 },
{"dme", true, OPTION_FUNC, "", false, "", fgOptDME },
{"min-status", true, OPTION_STRING, "/sim/aircraft-min-status", false, "all", 0 },
{"livery", true, OPTION_FUNC, "", false, "", fgOptLivery },
{"ai-scenario", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptScenario },
{"parking-id", true, OPTION_FUNC, "", false, "", fgOptParkpos },
{"version", false, OPTION_IGNORE, "", false, "", 0 },
{"json-report", false, OPTION_IGNORE, "", false, "", 0 },
{"enable-fpe", false, OPTION_IGNORE, "", false, "", 0},
{"fgviewer", false, OPTION_IGNORE, "", false, "", 0},
{"no-default-config", false, OPTION_IGNORE, "", false, "", 0},
{"prop", true, OPTION_FUNC | OPTION_MULTI, "", false, "", fgOptSetProperty},
{"load-tape", true, OPTION_FUNC, "", false, "", fgOptLoadTape },
{"developer", true, OPTION_IGNORE | OPTION_BOOL, "", false, "", nullptr },
{"jsbsim-output-directive-file", true, OPTION_STRING, "/sim/jsbsim/output-directive-file", false, "", nullptr },
{0}
};
2000-11-28 23:38:24 +00:00
namespace flightgear
{
/**
* internal storage of a value->option binding
*/
class OptionValue
{
public:
OptionValue(OptionDesc* d, const string& v) :
desc(d), value(v)
{;}
OptionDesc* desc;
string value;
};
typedef std::vector<OptionValue> OptionValueVec;
typedef std::map<string, OptionDesc*> OptionDescDict;
class Options::OptionsPrivate
{
public:
OptionValueVec::const_iterator findValue(const string& key) const
{
OptionValueVec::const_iterator it = values.begin();
for (; it != values.end(); ++it) {
if (!it->desc) {
continue; // ignore markers
}
if (it->desc->option == key) {
return it;
}
} // of set values iteration
return it; // not found
}
2016-03-24 15:05:03 +00:00
OptionValueVec::iterator findValue(const string& key)
{
OptionValueVec::iterator it = values.begin();
for (; it != values.end(); ++it) {
if (!it->desc) {
continue; // ignore markers
}
if (it->desc->option == key) {
return it;
}
} // of set values iteration
2016-03-24 15:05:03 +00:00
return it; // not found
}
OptionDesc* findOption(const string& key) const
{
OptionDescDict::const_iterator it = options.find(key);
if (it == options.end()) {
return NULL;
}
return it->second;
}
int processOption(OptionDesc* desc, const string& arg_value)
{
if (!desc) {
return FG_OPTIONS_OK; // tolerate marker options
}
switch ( desc->type & 0xffff ) {
case OPTION_BOOL:
fgSetBool( desc->property, desc->b_param );
break;
case OPTION_STRING:
if ( desc->has_param && !arg_value.empty() ) {
fgSetString( desc->property, arg_value.c_str() );
} else if ( !desc->has_param && arg_value.empty() ) {
fgSetString( desc->property, desc->s_param );
} else if ( desc->has_param ) {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' needs a parameter" );
return FG_OPTIONS_ERROR;
} else {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' does not have a parameter" );
return FG_OPTIONS_ERROR;
}
break;
case OPTION_DOUBLE:
if ( !arg_value.empty() ) {
fgSetDouble( desc->property, atof( arg_value ) );
} else {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' needs a parameter" );
return FG_OPTIONS_ERROR;
2006-03-21 14:43:38 +00:00
}
break;
case OPTION_INT:
if ( !arg_value.empty() ) {
fgSetInt( desc->property, atoi( arg_value ) );
} else {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' needs a parameter" );
return FG_OPTIONS_ERROR;
}
break;
case OPTION_CHANNEL:
// XXX return value of add_channel should be checked?
if ( desc->has_param && !arg_value.empty() ) {
add_channel( desc->option, arg_value );
} else if ( !desc->has_param && arg_value.empty() ) {
add_channel( desc->option, desc->s_param );
} else if ( desc->has_param ) {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' needs a parameter" );
return FG_OPTIONS_ERROR;
} else {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' does not have a parameter" );
return FG_OPTIONS_ERROR;
}
break;
case OPTION_FUNC:
if ( desc->has_param && !arg_value.empty() ) {
return desc->func( arg_value.c_str() );
} else if ( !desc->has_param && arg_value.empty() ) {
return desc->func( desc->s_param );
} else if ( desc->has_param ) {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' needs a parameter" );
return FG_OPTIONS_ERROR;
} else {
SG_LOG( SG_GENERAL, SG_ALERT, "Option '" << desc->option << "' does not have a parameter" );
return FG_OPTIONS_ERROR;
}
break;
case OPTION_IGNORE:
break;
}
return FG_OPTIONS_OK;
}
/**
* insert a marker value into the values vector. This is necessary
* when processing options, to ensure the correct ordering, where we scan
* for marker values in reverse, and then forwards within each group.
*/
void insertGroupMarker()
{
values.push_back(OptionValue(NULL, "-"));
}
/**
2015-04-06 09:28:10 +00:00
* given a current iterator into the values, find the preceding group marker,
* or return the beginning of the value vector.
*/
OptionValueVec::const_iterator rfindGroup(OptionValueVec::const_iterator pos) const
{
while (--pos != values.begin()) {
if (pos->desc == NULL) {
return pos; // found a marker, we're done
}
}
return pos;
}
// Return a pointer to a new JSON array node
// (["/foo/bar", "/other/path", ...]) created from the given PathList.
cJSON *createJSONArrayFromPathList(const PathList& pl) const
{
cJSON *resultNode = cJSON_CreateArray();
cJSON *prevNode = nullptr;
bool isFirst = true;
for (const SGPath& path : pl) {
cJSON *pathNode = cJSON_CreateString(path.utf8Str().c_str());
if (isFirst) {
isFirst = false;
resultNode->child = pathNode;
} else {
prevNode->next = pathNode;
pathNode->prev = prevNode;
}
prevNode = pathNode;
}
return resultNode;
}
bool showHelp,
verbose,
showAircraft,
shouldLoadDefaultConfig;
OptionDescDict options;
OptionValueVec values;
simgear::PathList configFiles;
simgear::PathList propertyFiles;
};
Options* Options::sharedInstance()
{
if (shared_instance == NULL) {
shared_instance = new Options;
}
return shared_instance;
}
void Options::reset()
{
if (shared_instance != nullptr) {
delete shared_instance;
shared_instance = nullptr;
}
}
Options::Options() :
p(new OptionsPrivate())
{
p->showHelp = false;
p->verbose = false;
p->showAircraft = false;
p->shouldLoadDefaultConfig = true;
// build option map
OptionDesc *desc = &fgOptionArray[ 0 ];
while ( desc->option != 0 ) {
p->options[ desc->option ] = desc;
++desc;
}
}
Options::~Options()
{
}
void Options::init(int argc, char **argv, const SGPath& appDataPath)
{
// first, process the command line
bool inOptions = true;
for (int i=1; i<argc; ++i) {
if (inOptions && (argv[i][0] == '-')) {
if (strcmp(argv[i], "--") == 0) { // end of options delimiter
inOptions = false;
continue;
}
int result = parseOption(argv[i], /* fromConfigFile */ false);
processArgResult(result);
} else {
// XML properties file
SGPath f = SGPath::fromUtf8(argv[i]);
if (!f.exists()) {
SG_LOG(SG_GENERAL, SG_ALERT, "config file not found:" << f);
} else {
p->propertyFiles.push_back(f);
}
}
} // of arguments iteration
p->insertGroupMarker(); // command line is one group
// establish log-level before anything else - otherwise it is not possible
// to show extra (debug/info/warning) messages for the start-up phase.
// Leave the simgear logstream default value of SG_ALERT if the argument is
// not supplied.
if (isOptionSet("log-level"))
fgOptLogLevel(valueForOption("log-level").c_str());
simgear::PathList::const_iterator i;
for (i = p->configFiles.begin(); i != p->configFiles.end(); ++i) {
readConfig(*i);
}
if (!p->shouldLoadDefaultConfig) {
setupRoot(argc, argv);
return;
}
// then config files
SGPath config;
if( !hostname.empty() ) {
// Check for ~/.fgfsrc.hostname
config = SGPath::home();
config.append(".fgfsrc");
config.concat( "." );
config.concat( hostname );
readConfig(config);
}
// Check for ~/.fgfsrc
config = SGPath::home();
config.append(".fgfsrc");
readConfig(config);
// check for a config file in app data
SGPath appDataConfig(appDataPath);
appDataConfig.append("fgfsrc");
if (appDataConfig.exists()) {
readConfig(appDataConfig);
}
// setup FG_ROOT
setupRoot(argc, argv);
// system.fgfsrc is disabled, as we no longer allow anything in fgdata to set
// fg-root/fg-home/fg-aircraft and hence control what files Nasal can access
std::string nameForError = config.utf8Str();
if( ! hostname.empty() ) {
2016-06-21 11:29:04 +00:00
config = globals->get_fg_root();
config.append( "system.fgfsrc" );
config.concat( "." );
config.concat( hostname );
if (config.exists()) {
flightgear::fatalMessageBoxThenExit(
"Unsupported configuration",
"You have a '" + config.utf8Str() + "' file, which is no longer "
"processed for security reasons.",
"If you created this file intentionally, please move it to '" +
nameForError + "'.");
}
}
2016-06-21 11:29:04 +00:00
config = globals->get_fg_root();
config.append( "system.fgfsrc" );
if (config.exists()) {
flightgear::fatalMessageBoxThenExit(
"Unsupported configuration",
"You have a '" + config.utf8Str() + "' file, which is no longer "
"processed for security reasons.",
"If you created this file intentionally, please move it to '" +
nameForError + "'.");
}
}
void Options::initPaths()
{
for (const string& pathOpt : valuesForOption("fg-aircraft")) {
PathList paths = SGPath::pathsFromUtf8(pathOpt);
globals->append_aircraft_paths(paths);
}
const char* envp = ::getenv("FG_AIRCRAFT");
if (envp) {
2016-06-21 11:29:04 +00:00
globals->append_aircraft_paths(SGPath::pathsFromEnv("FG_AIRCRAFT"));
}
}
void Options::initAircraft()
{
string aircraft;
if (isOptionSet("aircraft")) {
aircraft = valueForOption("aircraft");
} else if (isOptionSet("vehicle")) {
aircraft = valueForOption("vehicle");
}
if (!aircraft.empty()) {
SG_LOG(SG_INPUT, SG_INFO, "aircraft = " << aircraft );
fgSetString("/sim/aircraft", aircraft.c_str() );
} else {
SG_LOG(SG_INPUT, SG_INFO, "No user specified aircraft, using default" );
}
if (p->showAircraft) {
2016-06-21 11:29:04 +00:00
PathList path_list;
fgOptLogLevel( "alert" );
// First place to check is the 'Aircraft' sub-directory in $FG_ROOT
2016-06-21 11:29:04 +00:00
SGPath rootAircraft = globals->get_fg_root();
rootAircraft.append("Aircraft");
path_list.push_back(rootAircraft);
// Additionally, aircraft may also be found in user-defined places
// (via $FG_AIRCRAFT or with the '--fg-aircraft' option)
2016-06-21 11:29:04 +00:00
PathList aircraft_paths = globals->get_aircraft_paths();
2016-06-21 11:29:04 +00:00
path_list.insert(path_list.end(), aircraft_paths.begin(),
aircraft_paths.end());
fgShowAircraft(path_list);
exit(0);
}
if (isOptionSet("aircraft-dir")) {
SGPath aircraftDirPath = SGPath::fromUtf8(valueForOption("aircraft-dir"));
globals->append_read_allowed_paths(aircraftDirPath);
Use SGPath::realpath() on the value supplied for --aircraft-dir * Before setting /sim/aircraft-dir from the --aircraft-dir option, canonicalize its value with SGPath::realpath() as is already done in FGGlobals::append_aircraft_path() for the paths given with --fg-aircraft or via the FG_AIRCRAFT environment variable. * This fixes a bug when --aircraft-dir is used, due to the fact that fgValidatePath() canonicalizes its 'path' argument before matching it against the allowed patterns, and therefore will not validate paths under the directory specified with --aircraft-dir if this directory has been given in a non-canonical form by the user (e.g., containing at least one symlink component). * This fix does not lower security: the path which is canonicalized has been explicitely given by the user. This operation is already done for all paths specified with --fg-aircraft or via the FG_AIRCRAFT environment variable, via Options::initPaths() which calls FGGlobals::append_aircraft_paths(). * To reproduce the bug, create a symlink (e.g., /tmp/aircrafts) to a directory suitable for --fg-aircraft, then run: fgfs ... --fg-aircraft=/tmp/aircrafts \ --aircraft-dir=/tmp/aircrafts/SenecaII --aircraft=SenecaII This will trigger many failures such as: loadxml: reading '/tmp/aircrafts/SenecaII/Dialogs/registration.xml' denied (unauthorized directory - authorization no longer follows symlinks; to authorize reading additional directories, add them to --fg-aircraft) (from do_load_xml_to_proptree() in flightgear/src/Main/fg_commands.cxx) I have also tested this with the ec130b4 and the 777-200ER. Same problem, same fix.
2015-10-06 10:20:54 +00:00
// Set this now, so it's available in FindAndCacheAircraft. Use realpath()
// as in FGGlobals::append_aircraft_path(), otherwise fgValidatePath()
// will deny access to resources under this path if one of its components
// is a symlink (which is not a problem, since it was given as is by the
// user---this is very different from a symlink *under* the aircraft dir
// or a scenery dir).
fgSetString("/sim/aircraft-dir", aircraftDirPath.realpath().utf8Str());
}
2016-06-17 16:53:35 +00:00
if (isOptionSet("state")) {
std::string stateName = valueForOption("state");
// can't validate this until the -set.xml is parsed
fgSetString("/sim/aircraft-state", stateName);
}
}
void Options::processArgResult(int result)
{
if ((result == FG_OPTIONS_HELP) || (result == FG_OPTIONS_ERROR))
p->showHelp = true;
else if (result == FG_OPTIONS_VERBOSE_HELP)
p->verbose = true;
else if (result == FG_OPTIONS_SHOW_AIRCRAFT) {
p->showAircraft = true;
} else if (result == FG_OPTIONS_NO_DEFAULT_CONFIG) {
p->shouldLoadDefaultConfig = false;
} else if (result == FG_OPTIONS_SHOW_SOUND_DEVICES) {
SGSoundMgr smgr;
smgr.init();
string vendor = smgr.get_vendor();
string renderer = smgr.get_renderer();
cout << renderer << " provided by " << vendor << endl;
cout << endl << "No. Device" << endl;
vector <std::string>devices = smgr.get_available_devices();
for (vector <std::string>::size_type i=0; i<devices.size(); i++) {
cout << i << ". \"" << devices[i] << "\"" << endl;
}
devices.clear();
smgr.stop();
exit(0);
} else if (result == FG_OPTIONS_EXIT) {
exit(0);
}
}
void Options::readConfig(const SGPath& path)
{
sg_gzifstream in( path );
if ( !in.is_open() ) {
return;
}
SG_LOG( SG_GENERAL, SG_INFO, "Processing config file: " << path );
in >> skipcomment;
while ( ! in.eof() ) {
string line;
getline( in, line, '\n' );
// catch extraneous (DOS) line ending character
int i;
for (i = line.length(); i > 0; i--)
if (line[i - 1] > 32)
break;
line = line.substr( 0, i );
if ( parseOption(line, /* fromConfigFile */ true) == FG_OPTIONS_ERROR ) {
cerr << endl << "Config file parse error: " << path << " '"
<< line << "'" << endl;
p->showHelp = true;
}
in >> skipcomment;
}
p->insertGroupMarker(); // each config file is a group
}
int Options::parseOption(const string& s, bool fromConfigFile)
{
if ((s == "--help") || (s=="-h")) {
return FG_OPTIONS_HELP;
} else if ( (s == "--verbose") || (s == "-v") ) {
// verbose help/usage request
return FG_OPTIONS_VERBOSE_HELP;
} else if ((s == "--console") || (s == "-c")) {
fgOptConsole(nullptr);
return FG_OPTIONS_OK;
} else if (s.find("-psn") == 0) {
// on Mac, when launched from the GUI, we are passed the ProcessSerialNumber
// as an argument (and no others). Silently ignore the argument here.
return FG_OPTIONS_OK;
} else if ( s.find( "--show-aircraft") == 0) {
return(FG_OPTIONS_SHOW_AIRCRAFT);
} else if ( s.find( "--show-sound-devices") == 0) {
return(FG_OPTIONS_SHOW_SOUND_DEVICES);
} else if ( s.find( "--no-default-config") == 0) {
return FG_OPTIONS_NO_DEFAULT_CONFIG;
} else if ( s.find( "--prop:") == 0) {
// property setting has a slightly different syntax, so fudge things
OptionDesc* desc = p->findOption("prop");
if (s.find("=", 7) == string::npos) { // no equals token
SG_LOG(SG_GENERAL, SG_ALERT, "malformed property option:" << s);
return FG_OPTIONS_ERROR;
}
p->values.push_back(OptionValue(desc, s.substr(7)));
return FG_OPTIONS_OK;
} else if ( s.find("--config=") == 0) {
SGPath path = s.substr(9);
if (path.extension() == "xml") {
p->propertyFiles.push_back(path);
} else if (fromConfigFile) {
flightgear::fatalMessageBoxThenExit(
"FlightGear",
"Invalid use of the --config option.",
"Sorry, it is currently not supported to load a configuration file "
"using --config from another configuration file.\n\n"
"Note: this does not apply to loading of XML PropertyList files "
"with --config.");
} else { // the --config option comes from the command line
p->configFiles.push_back(path);
}
return FG_OPTIONS_OK;
} else if ( s.find( "--" ) == 0 ) {
size_t eqPos = s.find( '=' );
string key, value;
if (eqPos == string::npos) {
key = s.substr(2);
} else {
key = s.substr( 2, eqPos - 2 );
value = s.substr( eqPos + 1);
}
return addOption(key, value);
} else {
flightgear::modalMessageBox("Unknown option", "Unknown command-line option: " + s);
return FG_OPTIONS_ERROR;
}
}
int Options::addOption(const string &key, const string &value)
{
if (key == "config") {
// occurs when the launcher adds --config options
SGPath path(value);
if (!path.exists()) {
return FG_OPTIONS_ERROR;
}
if (path.extension() == "xml") {
p->propertyFiles.push_back(path);
} else {
p->insertGroupMarker(); // begin a group for the config file
readConfig(path);
}
return FG_OPTIONS_OK;
}
OptionDesc* desc = p->findOption(key);
if (!desc) {
flightgear::modalMessageBox("Unknown option", "Unknown command-line option: " + key);
return FG_OPTIONS_ERROR;
}
if (!(desc->type & OPTION_MULTI)) {
OptionValueVec::const_iterator it = p->findValue(key);
if (it != p->values.end()) {
SG_LOG(SG_GENERAL, SG_WARN, "multiple values forbidden for option:" << key << ", ignoring:" << value);
return FG_OPTIONS_OK;
}
}
p->values.push_back(OptionValue(desc, value));
return FG_OPTIONS_OK;
}
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int Options::setOption(const string &key, const string &value)
{
OptionDesc* desc = p->findOption(key);
if (!desc) {
flightgear::modalMessageBox("Unknown option", "Unknown command-line option: " + key);
return FG_OPTIONS_ERROR;
}
if (!(desc->type & OPTION_MULTI)) {
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OptionValueVec::iterator it = p->findValue(key);
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if (it != p->values.end()) {
// remove existing valye
p->values.erase(it);
}
}
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p->values.push_back(OptionValue(desc, value));
return FG_OPTIONS_OK;
}
void Options::clearOption(const std::string& key)
{
OptionValueVec::iterator it = p->findValue(key);
for (; it != p->values.end(); it = p->findValue(key)) {
p->values.erase(it);
}
}
bool Options::isOptionSet(const string &key) const
{
OptionValueVec::const_iterator it = p->findValue(key);
return (it != p->values.end());
}
string Options::valueForOption(const string& key, const string& defValue) const
{
OptionValueVec::const_iterator it = p->findValue(key);
if (it == p->values.end()) {
return defValue;
}
return it->value;
}
string_list Options::valuesForOption(const std::string& key) const
{
string_list result;
OptionValueVec::const_iterator it = p->values.begin();
for (; it != p->values.end(); ++it) {
if (!it->desc) {
continue; // ignore marker values
}
if (it->desc->option == key) {
result.push_back(it->value);
}
}
return result;
}
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SGPath defaultDownloadDir()
{
#if defined(SG_WINDOWS)
SGPath p(SGPath::documents());
if (p.isNull()) {
SG_LOG(SG_IO, SG_ALERT, "Failed to locate user's Documents directory, will default to FG_HOME");
// fall through to standard get_fg_home codepath
}
else {
return p / "FlightGear";
}
#endif
return globals->get_fg_home();
}
SGPath defaultTextureCacheDir()
{
return defaultDownloadDir() / "TextureCache";
}
OptionResult Options::processOptions()
{
// establish locale before showing help (this selects the default locale,
// when no explicit option was set)
globals->get_locale()->selectLanguage(valueForOption("language").c_str());
// now FG_ROOT is setup, process various command line options that bail us
// out quickly, but rely on aircraft / root settings
if (p->showHelp) {
showUsage();
return FG_OPTIONS_EXIT;
}
// processing order is complicated. We must process groups LIFO, but the
// values *within* each group in FIFO order, to retain consistency with
// older versions of FG, and existing user configs.
// in practice this means system.fgfsrc must be *processed* before
// .fgfsrc, which must be processed before the command line args, and so on.
OptionValueVec::const_iterator groupEnd = p->values.end();
while (groupEnd != p->values.begin()) {
OptionValueVec::const_iterator groupBegin = p->rfindGroup(groupEnd);
// run over the group in FIFO order
OptionValueVec::const_iterator it;
for (it = groupBegin; it != groupEnd; ++it) {
int result = p->processOption(it->desc, it->value);
switch(result)
{
case FG_OPTIONS_ERROR:
showUsage();
return FG_OPTIONS_ERROR;
case FG_OPTIONS_EXIT:
return FG_OPTIONS_EXIT;
default:
break;
}
if (it->desc) {
SG_LOG(SG_GENERAL, SG_INFO, "\toption:" << it->desc->option << " = " << it->value);
}
}
groupEnd = groupBegin;
}
for (const SGPath& file : p->propertyFiles) {
SG_LOG(SG_GENERAL, SG_INFO,
"Reading command-line property file " << file);
readProperties(file, globals->get_props());
}
// now options are process, do supplemental fixup
const char *envp = ::getenv( "FG_SCENERY" );
if (envp) {
globals->append_fg_scenery(SGPath::pathsFromEnv("FG_SCENERY"));
}
// Download dir fix-up
SGPath downloadDir = SGPath::fromUtf8(valueForOption("download-dir"));
if (downloadDir.isNull()) {
downloadDir = defaultDownloadDir();
SG_LOG(SG_GENERAL, SG_INFO,
"Using default download dir: " << downloadDir);
} else {
SG_LOG(SG_GENERAL, SG_INFO,
"Using explicit download dir: " << downloadDir);
}
simgear::Dir d(downloadDir);
if (!d.exists()) {
SG_LOG(SG_GENERAL, SG_INFO,
"Creating download dir: " << downloadDir);
d.create(0755);
}
// This is safe because the value of 'downloadDir' is trustworthy. In
// particular, it can't be influenced by Nasal code, not even indirectly
// via a Nasal-writable place such as the property tree.
globals->set_download_dir(downloadDir);
// Texture Cache directory handling
SGPath textureCacheDir = SGPath::fromUtf8(valueForOption("texture-cache-dir"));
if (textureCacheDir.isNull()) {
textureCacheDir = defaultTextureCacheDir();
SG_LOG(SG_GENERAL, SG_INFO,
"Using default texture cache directory: " << textureCacheDir);
}
else {
SG_LOG(SG_GENERAL, SG_INFO,
"Using explicit texture cache directory: " << textureCacheDir);
}
simgear::Dir tcd(textureCacheDir);
if (!tcd.exists()) {
SG_LOG(SG_GENERAL, SG_INFO,
"Creating texture cache directory: " << textureCacheDir);
tcd.create(0755);
}
globals->set_texture_cache_dir(textureCacheDir);
// TerraSync directory fixup
SGPath terrasyncDir = SGPath::fromUtf8(valueForOption("terrasync-dir"));
if (terrasyncDir.isNull()) {
terrasyncDir = downloadDir / "TerraSync";
// No “default” qualifier here, because 'downloadDir' may be non-default
SG_LOG(SG_GENERAL, SG_INFO,
"Using TerraSync dir: " << terrasyncDir);
} else {
SG_LOG(SG_GENERAL, SG_INFO,
"Using explicit TerraSync dir: " << terrasyncDir);
}
d = simgear::Dir(terrasyncDir);
if (!d.exists()) {
SG_LOG(SG_GENERAL, SG_INFO,
"Creating TerraSync dir: " << terrasyncDir);
d.create(0755);
}
// This is safe because the value of 'terrasyncDir' is trustworthy. In
// particular, it can't be influenced by Nasal code, not even indirectly
// via a Nasal-writable place such as the property tree.
globals->set_terrasync_dir(terrasyncDir);
// check if we setup a scenery path so far
bool addFGDataScenery = globals->get_fg_scenery().empty();
// always add the terrasync location, regardless of whether terrasync
// is enabled or not. This allows us to toggle terrasync on/off at
// runtime and have things work as expected
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const PathList& scenery_paths(globals->get_fg_scenery());
if (std::find(scenery_paths.begin(), scenery_paths.end(), terrasyncDir) == scenery_paths.end()) {
// terrasync dir is not in the scenery paths, add it
globals->append_fg_scenery(terrasyncDir);
}
if (addFGDataScenery) {
// no scenery paths set at all, use the data in FG_ROOT
// ensure this path is added last
SGPath root(globals->get_fg_root());
root.append("Scenery");
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globals->append_fg_scenery(root);
}
if (isOptionSet("json-report")) {
printJSONReport();
return FG_OPTIONS_EXIT;
} else if (isOptionSet("version")) {
showVersion();
return FG_OPTIONS_EXIT;
}
return FG_OPTIONS_OK;
}
void Options::showUsage() const
{
fgOptLogLevel( "alert" );
FGLocale *locale = globals->get_locale();
SGPropertyNode options_root;
simgear::requestConsole(); // ensure console is shown on Windows
cout << endl;
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try {
fgLoadProps("options.xml", &options_root);
} catch (const sg_exception &) {
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: <options> element not found." );
exit(-1);
}
if (!locale->loadResource("options"))
{
cout << "Unable to read the language resource." << endl;
exit(-1);
}
std::string usage = locale->getLocalizedString(options->getStringValue("usage"), "options");
if (!usage.empty()) {
cout << usage << endl;
}
vector<SGPropertyNode_ptr>section = options->getChildren("section");
for (unsigned int j = 0; j < section.size(); j++) {
string msg = "";
vector<SGPropertyNode_ptr>option = 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") != 0;
if ((brief || p->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());
}
if (tmp.size() <= 25) {
msg+= " --";
msg += tmp;
msg.append( 27-tmp.size(), ' ');
} else {
msg += "\n --";
msg += tmp + '\n';
msg.append(32, ' ');
}
// There may be more than one <description> tag associated
// with one option
vector<SGPropertyNode_ptr> desc;
desc = option[k]->getChildren("description");
if (! desc.empty()) {
for ( unsigned int l = 0; l < desc.size(); l++) {
string t = desc[l]->getStringValue();
// There may be more than one translation line.
vector<SGPropertyNode_ptr>trans_desc = locale->getLocalizedStrings(t.c_str(),"options");
for ( unsigned int m = 0; m < trans_desc.size(); m++ ) {
string t_str = trans_desc[m]->getStringValue();
if ((m > 0) || ((l > 0) && m == 0)) {
msg.append( 32, ' ');
}
// If the string is too large to fit on the screen,
// then split it up in several pieces.
while ( t_str.size() > 47 ) {
string::size_type m = t_str.rfind(' ', 47);
msg += t_str.substr(0, m) + '\n';
msg.append( 32, ' ');
t_str.erase(t_str.begin(), t_str.begin() + m + 1);
}
msg += t_str + '\n';
}
}
}
}
}
std::string name = locale->getLocalizedString(section[j]->getStringValue("name"),"options");
if (!msg.empty() && !name.empty()) {
cout << endl << name << ":" << endl;
cout << msg;
msg.erase();
}
}
if ( !p->verbose ) {
std::string verbose_help = locale->getLocalizedString(options->getStringValue("verbose-help"),"options");
if (!verbose_help.empty())
cout << endl << verbose_help << endl;
}
#ifdef _MSC_VER
std::cout << "Hit a key to continue..." << std::endl;
std::cin.get();
#endif
}
void Options::showVersion() const
{
cout << "FlightGear version: " << FLIGHTGEAR_VERSION << endl;
cout << "Revision: " << REVISION << endl;
cout << "Build-Id: " << JENKINS_BUILD_ID << endl;
cout << "Build-Type: " << FG_BUILD_TYPE << endl;
cout << "FG_ROOT=" << globals->get_fg_root().utf8Str() << endl;
cout << "FG_HOME=" << globals->get_fg_home().utf8Str() << endl;
cout << "FG_SCENERY=";
PathList scn = globals->get_fg_scenery();
cout << SGPath::join(scn, SGPath::pathListSep) << endl;
cout << "SimGear version: " << SG_STRINGIZE(SIMGEAR_VERSION) << endl;
cout << "OSG version: " << osgGetVersion() << endl;
cout << "PLIB version: " << PLIB_VERSION << endl;
}
// Print a report using JSON syntax on the standard output, encoded in UTF-8.
//
// The report format is versioned, don't forget to update it when making
// changes (see below).
void Options::printJSONReport() const
{
cJSON *rootNode = cJSON_CreateObject();
cJSON *metaNode = cJSON_CreateObject();
cJSON_AddItemToObject(rootNode, "meta", metaNode);
cJSON_AddStringToObject(metaNode, "type", "FlightGear JSON report");
// When making compatible changes to the format (e.g., adding members to
// JSON objects), only the minor version number should be increased.
// Increase the major version number when a change is backward-incompatible
// (such as the removal, renaming or semantic change of a member). Of
// course, incompatible changes should only be considered as a last
// recourse.
cJSON_AddNumberToObject(metaNode, "format major version", 1);
cJSON_AddNumberToObject(metaNode, "format minor version", 0);
cJSON *generalNode = cJSON_CreateObject();
cJSON_AddItemToObject(rootNode, "general", generalNode);
cJSON_AddStringToObject(generalNode, "name", "FlightGear");
cJSON_AddStringToObject(generalNode, "version", FLIGHTGEAR_VERSION);
cJSON_AddStringToObject(generalNode, "build ID", JENKINS_BUILD_ID);
cJSON_AddStringToObject(generalNode, "build type", FG_BUILD_TYPE);
cJSON *configNode = cJSON_CreateObject();
cJSON_AddItemToObject(rootNode, "config", configNode);
cJSON_AddStringToObject(configNode, "FG_ROOT",
globals->get_fg_root().utf8Str().c_str());
cJSON_AddStringToObject(configNode, "FG_HOME",
globals->get_fg_home().utf8Str().c_str());
cJSON *sceneryPathsNode = p->createJSONArrayFromPathList(globals->get_fg_scenery());
cJSON_AddItemToObject(configNode, "scenery paths", sceneryPathsNode);
cJSON *aircraftPathsNode = p->createJSONArrayFromPathList(
globals->get_aircraft_paths());
cJSON_AddItemToObject(configNode, "aircraft paths", aircraftPathsNode);
cJSON_AddStringToObject(configNode, "TerraSync directory",
globals->get_terrasync_dir().utf8Str().c_str());
cJSON_AddStringToObject(configNode, "download directory",
globals->get_download_dir().utf8Str().c_str());
cJSON_AddStringToObject(configNode, "autosave file",
globals->autosaveFilePath().utf8Str().c_str());
// Get the ordered lists of apt.dat, fix.dat and nav.dat files used by the
// NavCache
NavDataCache* cache = NavDataCache::instance();
if (!cache) {
cache = NavDataCache::createInstance();
}
cJSON *navDataNode = cJSON_CreateObject();
cJSON_AddItemToObject(rootNode, "navigation data", navDataNode);
// Write each list to the JSON tree
for (const auto& datType: {NavDataCache::DATFILETYPE_APT,
NavDataCache::DATFILETYPE_FIX,
NavDataCache::DATFILETYPE_NAV}) {
// For this method, it doesn't matter if the cache is out-of-date
const NavDataCache::DatFilesGroupInfo& datFilesInfo =
cache->getDatFilesInfo(datType);
cJSON *datPathsNode = p->createJSONArrayFromPathList(datFilesInfo.paths);
string key = NavDataCache::datTypeStr[datType] + ".dat files";
cJSON_AddItemToObject(navDataNode, key.c_str(), datPathsNode);
}
// Print the JSON tree to the standard output
char *report = cJSON_Print(rootNode);
cout << report << endl;
cJSON_Delete(rootNode);
}
#if defined(__CYGWIN__)
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SGPath Options::platformDefaultRoot() const
{
return SGPath::fromUtf8("../data");
}
#elif defined(SG_WINDOWS)
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SGPath Options::platformDefaultRoot() const
{
return SGPath::fromUtf8("..\\data");
}
#elif defined(SG_MAC)
// platformDefaultRoot defined in CocoaHelpers.mm
#else
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SGPath Options::platformDefaultRoot() const
{
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return SGPath::fromUtf8(PKGLIBDIR);
}
2017-02-21 11:01:06 +00:00
#endif
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string_list Options::extractOptions() const
{
string_list result;
for (auto opt : p->values) {
if (opt.desc == nullptr) {
continue;
}
if (!strcmp(opt.desc->option,"prop")) {
result.push_back("prop:" + opt.value);
} else if (opt.value.empty()) {
result.push_back(opt.desc->option);
} else {
result.push_back(std::string(opt.desc->option) + "=" + opt.value);
}
}
return result;
}
void Options::setupRoot(int argc, char **argv)
{
SGPath root(globals->get_fg_root());
bool usingDefaultRoot = false;
// root has already been set, so skip the fg_root setting and validation.
if (!root.isNull()) {
return;
}
if (isOptionSet("fg-root")) {
root = SGPath::fromUtf8(valueForOption("fg-root")); // easy!
2016-06-21 11:29:04 +00:00
SG_LOG(SG_GENERAL, SG_INFO, "set from command-line argument: fg_root = " << root );
} else {
// Next check if fg-root is set as an env variable
char *envp = ::getenv( "FG_ROOT" );
if ( envp != nullptr ) {
root = SGPath::fromEnv("FG_ROOT");
2016-06-21 11:29:04 +00:00
SG_LOG(SG_GENERAL, SG_INFO, "set from FG_ROOT env var: fg_root = " << root );
} else {
#if defined(HAVE_QT)
root = SetupRootDialog::restoreUserSelectedRoot();
#endif
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if (root.isNull()) {
usingDefaultRoot = true;
root = platformDefaultRoot();
SG_LOG(SG_GENERAL, SG_INFO, "platform default fg_root = " << root );
} else {
SG_LOG(SG_GENERAL, SG_INFO, "Qt launcher set fg_root = " << root );
}
}
}
globals->set_fg_root(root);
string base_version = fgBasePackageVersion(root);
#if defined(HAVE_QT)
// only compare major and minor version, not the patch level.
const int versionComp = simgear::strutils::compare_versions(FLIGHTGEAR_VERSION, base_version, 2);
// note we never end up here if restoring a user selected root via
// the Qt GUI, since that code pre-validates the path. But if we're using
// a command-line, env-var or default root this check can fail and
// we still want to use the GUI in that case
if (versionComp != 0) {
SetupRootDialog::runDialog(usingDefaultRoot);
}
#else
SG_UNUSED(usingDefaultRoot);
// validate it
if (base_version.empty()) {
flightgear::fatalMessageBoxThenExit(
"Base package not found",
"Required data files not found, please check your installation.",
"Looking for base-package files at: '" + root.str() + "'");
}
// only compare major and minor version, not the patch level.
const int versionComp = simgear::strutils::compare_versions(FLIGHTGEAR_VERSION, base_version, 2);
if (versionComp != 0) {
flightgear::fatalMessageBoxThenExit(
"Base package version mismatch",
"Version check failed, please check your installation.",
"Found data files for version '" + base_version + "' at '" +
globals->get_fg_root().str() + "', version '" +
std::string(FLIGHTGEAR_VERSION) + "' is required.");
}
#endif
}
bool Options::shouldLoadDefaultConfig() const
{
return p->shouldLoadDefaultConfig;
}
void Options::setShouldLoadDefaultConfig(bool load)
{
p->shouldLoadDefaultConfig = load;
}
bool Options::checkForArg(int argc, char* argv[], const char* checkArg)
{
for (int i = 0; i < argc; ++i) {
char* arg = argv[i];
if (arg == nullptr) {
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continue;
}
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if (*arg != '-') { // we only care about args with a leading hypen
continue;
}
arg++;
if (*arg == '-') { // skip double hypens
arg++;
}
if (strcmp(arg, checkArg) == 0) {
return true;
}
}
return false;
}
std::string Options::getArgValue(int argc, char* argv[], const char* checkArg)
{
const auto len = strlen(checkArg);
for (int i = 0; i < argc; ++i) {
char* arg = argv[i];
if (arg == nullptr) {
continue;
}
if (strncmp(arg, checkArg, len) == 0) {
const auto alen = strlen(arg);
if ((alen - len) < 2)
return {}; // no value after the =, or missing = entirely
return std::string(arg + len + 1);
}
} // of args iteration
return {};
}
} // of namespace flightgear