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flightgear/src/Main/fg_props.cxx

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// fg_props.cxx -- support for FlightGear properties.
//
// Written by David Megginson, started 2000.
//
// Copyright (C) 2000, 2001 David Megginson - david@megginson.com
//
// 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"
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#endif
#include <simgear/compiler.h>
#include <simgear/structure/exception.hxx>
#include <simgear/magvar/magvar.hxx>
#include <simgear/timing/sg_time.hxx>
#include <simgear/misc/sg_path.hxx>
#include <simgear/scene/material/matlib.hxx>
#include <simgear/sound/soundmgr_openal.hxx>
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#include STL_IOSTREAM
#include <ATC/ATCdisplay.hxx>
#include <Aircraft/aircraft.hxx>
#include <Time/tmp.hxx>
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#include <Environment/environment.hxx>
#include <GUI/gui.h>
#include "globals.hxx"
#include "fg_props.hxx"
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SG_USING_STD(istream);
SG_USING_STD(ostream);
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static bool winding_ccw = true; // FIXME: temporary
static bool fdm_data_logging = false; // FIXME: temporary
static bool frozen = false; // FIXME: temporary
////////////////////////////////////////////////////////////////////////
// Default property bindings (not yet handled by any module).
////////////////////////////////////////////////////////////////////////
struct LogClassMapping {
sgDebugClass c;
string name;
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LogClassMapping(sgDebugClass cc, string nname) { c = cc; name = nname; }
};
LogClassMapping log_class_mappings [] = {
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LogClassMapping(SG_NONE, "none"),
LogClassMapping(SG_TERRAIN, "terrain"),
LogClassMapping(SG_ASTRO, "astro"),
LogClassMapping(SG_FLIGHT, "flight"),
LogClassMapping(SG_INPUT, "input"),
LogClassMapping(SG_GL, "gl"),
LogClassMapping(SG_VIEW, "view"),
LogClassMapping(SG_COCKPIT, "cockpit"),
LogClassMapping(SG_GENERAL, "general"),
LogClassMapping(SG_MATH, "math"),
LogClassMapping(SG_EVENT, "event"),
LogClassMapping(SG_AIRCRAFT, "aircraft"),
LogClassMapping(SG_AUTOPILOT, "autopilot"),
LogClassMapping(SG_IO, "io"),
LogClassMapping(SG_CLIPPER, "clipper"),
LogClassMapping(SG_NETWORK, "network"),
LogClassMapping(SG_INSTR, "instrumentation"),
LogClassMapping(SG_SYSTEMS, "systems"),
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LogClassMapping(SG_UNDEFD, "")
};
/**
* Get the logging classes.
*/
static const char *
getLoggingClasses ()
{
sgDebugClass classes = logbuf::get_log_classes();
static string result = ""; // FIXME
for (int i = 0; log_class_mappings[i].c != SG_UNDEFD; i++) {
if ((classes&log_class_mappings[i].c) > 0) {
if (!result.empty())
result += '|';
result += log_class_mappings[i].name;
}
}
return result.c_str();
}
static void
addLoggingClass (const string &name)
{
sgDebugClass classes = logbuf::get_log_classes();
for (int i = 0; log_class_mappings[i].c != SG_UNDEFD; i++) {
if (name == log_class_mappings[i].name) {
logbuf::set_log_classes(sgDebugClass(classes|log_class_mappings[i].c));
return;
}
}
SG_LOG(SG_GENERAL, SG_WARN, "Unknown logging class: " << name);
}
/**
* Set the logging classes.
*/
static void
setLoggingClasses (const char * c)
{
string classes = c;
logbuf::set_log_classes(SG_NONE);
if (classes == "none") {
SG_LOG(SG_GENERAL, SG_INFO, "Disabled all logging classes");
return;
}
if (classes.empty() || classes == "all") { // default
logbuf::set_log_classes(SG_ALL);
SG_LOG(SG_GENERAL, SG_INFO, "Enabled all logging classes: "
<< getLoggingClasses());
return;
}
string rest = classes;
string name = "";
int sep = rest.find('|');
while (sep > 0) {
name = rest.substr(0, sep);
rest = rest.substr(sep+1);
addLoggingClass(name);
sep = rest.find('|');
}
addLoggingClass(rest);
SG_LOG(SG_GENERAL, SG_INFO, "Set logging classes to "
<< getLoggingClasses());
}
/**
* Get the logging priority.
*/
static const char *
getLoggingPriority ()
{
switch (logbuf::get_log_priority()) {
case SG_BULK:
return "bulk";
case SG_DEBUG:
return "debug";
case SG_INFO:
return "info";
case SG_WARN:
return "warn";
case SG_ALERT:
return "alert";
default:
SG_LOG(SG_GENERAL, SG_WARN, "Internal: Unknown logging priority number: "
<< logbuf::get_log_priority());
return "unknown";
}
}
/**
* Set the logging priority.
*/
static void
setLoggingPriority (const char * p)
{
if (p == 0)
return;
string priority = p;
if (priority == "bulk") {
logbuf::set_log_priority(SG_BULK);
} else if (priority == "debug") {
logbuf::set_log_priority(SG_DEBUG);
} else if (priority.empty() || priority == "info") { // default
logbuf::set_log_priority(SG_INFO);
} else if (priority == "warn") {
logbuf::set_log_priority(SG_WARN);
} else if (priority == "alert") {
logbuf::set_log_priority(SG_ALERT);
} else {
SG_LOG(SG_GENERAL, SG_WARN, "Unknown logging priority " << priority);
}
SG_LOG(SG_GENERAL, SG_DEBUG, "Logging priority is " << getLoggingPriority());
}
/**
* Return the current frozen state.
*/
static bool
getFreeze ()
{
return frozen;
}
/**
* Set the current frozen state.
*/
static void
setFreeze (bool f)
{
frozen = f;
// Stop sound on a pause
SGSoundMgr *s = globals->get_soundmgr();
if ( s != NULL ) {
if ( f ) {
s->pause();
} else {
s->resume();
}
}
}
/**
* Return the number of milliseconds elapsed since simulation started.
*/
static double
getElapsedTime_sec ()
{
return globals->get_sim_time_sec();
}
/**
* Return the current Zulu time.
*/
static const char *
getDateString ()
{
static char buf[64]; // FIXME
struct tm * t = globals->get_time_params()->getGmt();
sprintf(buf, "%.4d-%.2d-%.2dT%.2d:%.2d:%.2d",
t->tm_year + 1900, t->tm_mon + 1, t->tm_mday,
t->tm_hour, t->tm_min, t->tm_sec);
return buf;
}
/**
* Set the current Zulu time.
*/
static void
setDateString (const char * date_string)
{
static const SGPropertyNode *cur_time_override
= fgGetNode("/sim/time/cur-time-override", true);
SGTime * st = globals->get_time_params();
struct tm * current_time = st->getGmt();
struct tm new_time;
// Scan for basic ISO format
// YYYY-MM-DDTHH:MM:SS
int ret = sscanf(date_string, "%d-%d-%dT%d:%d:%d",
&(new_time.tm_year), &(new_time.tm_mon),
&(new_time.tm_mday), &(new_time.tm_hour),
&(new_time.tm_min), &(new_time.tm_sec));
// Be pretty picky about this, so
// that strange things don't happen
// if the save file has been edited
// by hand.
if (ret != 6) {
SG_LOG(SG_INPUT, SG_WARN, "Date/time string " << date_string
<< " not in YYYY-MM-DDTHH:MM:SS format; skipped");
return;
}
// OK, it looks like we got six
// values, one way or another.
new_time.tm_year -= 1900;
new_time.tm_mon -= 1;
// Now, tell flight gear to use
// the new time. This was far
// too difficult, by the way.
long int warp =
mktime(&new_time) - mktime(current_time) + globals->get_warp();
double lon = current_aircraft.fdm_state->get_Longitude();
double lat = current_aircraft.fdm_state->get_Latitude();
globals->set_warp(warp);
st->update(lon, lat, cur_time_override->getLongValue(), warp);
}
/**
* Return the GMT as a string.
*/
static const char *
getGMTString ()
{
static char buf[16]; // FIXME
struct tm *t = globals->get_time_params()->getGmt();
sprintf(buf, " %.2d:%.2d:%.2d",
t->tm_hour, t->tm_min, t->tm_sec);
// cout << t << " " << buf << endl;
return buf;
}
/**
* Return the magnetic variation
*/
static double
getMagVar ()
{
return globals->get_mag()->get_magvar() * SGD_RADIANS_TO_DEGREES;
}
/**
* Return the magnetic dip
*/
static double
getMagDip ()
{
return globals->get_mag()->get_magdip() * SGD_RADIANS_TO_DEGREES;
}
/**
* Return the current heading in degrees.
*/
static double
getHeadingMag ()
{
double magheading;
magheading = current_aircraft.fdm_state->get_Psi() * SGD_RADIANS_TO_DEGREES - getMagVar();
if (magheading < 0) magheading += 360;
return magheading;
}
static long
getWarp ()
{
return globals->get_warp();
}
static void
setWarp (long warp)
{
globals->set_warp(warp);
}
static long
getWarpDelta ()
{
return globals->get_warp_delta();
}
static void
setWarpDelta (long delta)
{
globals->set_warp_delta(delta);
}
static bool
getWindingCCW ()
{
return winding_ccw;
}
static void
setWindingCCW (bool state)
{
winding_ccw = state;
if ( winding_ccw )
glFrontFace ( GL_CCW );
else
glFrontFace ( GL_CW );
}
static bool
getFullScreen ()
{
#if defined(FX) && !defined(WIN32)
return globals->get_fullscreen();
#else
return false;
#endif
}
static void
setFullScreen (bool state)
{
#if defined(FX) && !defined(WIN32)
globals->set_fullscreen(state);
# if defined(XMESA_FX_FULLSCREEN) && defined(XMESA_FX_WINDOW)
XMesaSetFXmode( state ? XMESA_FX_FULLSCREEN : XMESA_FX_WINDOW );
# endif
#endif
}
static bool
getFDMDataLogging ()
{
return fdm_data_logging;
}
static void
setFDMDataLogging (bool state)
{
// kludge; no getter or setter available
if (state != fdm_data_logging) {
fgToggleFDMdataLogging();
fdm_data_logging = state;
}
}
static const char *
getLongitudeString ()
{
static SGConstPropertyNode_ptr n = fgGetNode("/position/longitude-deg", true);
static SGConstPropertyNode_ptr f = fgGetNode("/sim/lon-lat-format", true);
static char buf[32];
double d = n->getDoubleValue();
int format = f->getIntValue();
if (format == 0) {
snprintf(buf, 32, "%3.6f", d);
} else if (format == 1) {
// dd mm.mmm' (DMM-Format) -- uses a round-off factor tailored to the
// required precision of the minutes field (three decimal places),
// preventing minute values of 60.
double deg = fabs(d) + 5.0E-4 / 60.0;
double min = fabs(deg - int(deg)) * 60.0 - 4.999E-4;
snprintf(buf, 32, "%d*%06.3f%c", int(d < 0.0 ? -deg : deg), min,
d < 0.0 ? 'W' : 'E');
} else {
// mm'ss.s'' (DMS-Format) -- uses a round-off factor tailored to the
// required precision of the seconds field (one decimal place),
// preventing second values of 60.
double deg = fabs(d) + 0.05 / 3600.0;
double min = (deg - int(deg)) * 60.0;
double sec = (min - int(min)) * 60.0 - 0.049;
snprintf(buf, 32, "%d*%02d %04.1f%c", int(d < 0.0 ? -deg : deg),
int(min), sec, d < 0.0 ? 'W' : 'E');
}
return buf;
}
static const char *
getLatitudeString ()
{
static SGConstPropertyNode_ptr n = fgGetNode("/position/latitude-deg", true);
static SGConstPropertyNode_ptr f = fgGetNode("/sim/lon-lat-format", true);
static char buf[32];
double d = n->getDoubleValue();
int format = f->getIntValue();
if (format == 0) {
snprintf(buf, 32, "%3.6f", d);
} else if (format == 1) {
double deg = fabs(d) + 5.0E-4 / 60.0;
double min = fabs(deg - int(deg)) * 60.0 - 4.999E-4;
snprintf(buf, 32, "%d*%06.3f%c", int(d < 0.0 ? -deg : deg), min,
d < 0.0 ? 'S' : 'N');
} else {
double deg = fabs(d) + 0.05 / 3600.0;
double min = (deg - int(deg)) * 60.0;
double sec = (min - int(min)) * 60.0 - 0.049;
snprintf(buf, 32, "%d*%02d %04.1f%c", int(d < 0.0 ? -deg : deg),
int(min), sec, d < 0.0 ? 'S' : 'N');
}
return buf;
}
////////////////////////////////////////////////////////////////////////
// Tie the properties.
////////////////////////////////////////////////////////////////////////
FGProperties::FGProperties ()
{
}
FGProperties::~FGProperties ()
{
}
void
FGProperties::init ()
{
}
void
FGProperties::bind ()
{
// Simulation
fgTie("/sim/logging/priority", getLoggingPriority, setLoggingPriority);
fgTie("/sim/logging/classes", getLoggingClasses, setLoggingClasses);
fgTie("/sim/freeze/master", getFreeze, setFreeze);
fgTie("/sim/time/elapsed-sec", getElapsedTime_sec);
fgTie("/sim/time/gmt", getDateString, setDateString);
fgSetArchivable("/sim/time/gmt");
fgTie("/sim/time/gmt-string", getGMTString);
// Position
fgTie("/position/latitude-string", getLatitudeString);
fgTie("/position/longitude-string", getLongitudeString);
// Orientation
** 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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fgTie("/orientation/heading-magnetic-deg", getHeadingMag);
** 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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fgTie("/environment/magnetic-variation-deg", getMagVar);
fgTie("/environment/magnetic-dip-deg", getMagDip);
fgTie("/sim/time/warp", getWarp, setWarp, false);
fgTie("/sim/time/warp-delta", getWarpDelta, setWarpDelta);
// Misc. Temporary junk.
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fgTie("/sim/temp/winding-ccw", getWindingCCW, setWindingCCW, false);
fgTie("/sim/temp/full-screen", getFullScreen, setFullScreen);
fgTie("/sim/temp/fdm-data-logging", getFDMDataLogging, setFDMDataLogging);
}
void
FGProperties::unbind ()
{
// Simulation
fgUntie("/sim/logging/priority");
fgUntie("/sim/logging/classes");
fgUntie("/sim/freeze/master");
fgUntie("/sim/time/elapsed-sec");
fgUntie("/sim/time/gmt");
fgUntie("/sim/time/gmt-string");
// Position
fgUntie("/position/latitude-string");
fgUntie("/position/longitude-string");
// Orientation
fgUntie("/orientation/heading-magnetic-deg");
// Environment
fgUntie("/environment/magnetic-variation-deg");
fgUntie("/environment/magnetic-dip-deg");
fgUntie("/sim/time/warp");
fgUntie("/sim/time/warp-delta");
// Misc. Temporary junk.
fgUntie("/sim/temp/winding-ccw");
fgUntie("/sim/temp/full-screen");
fgUntie("/sim/temp/fdm-data-logging");
}
void
FGProperties::update (double dt)
{
// Date and time
struct tm *t = globals->get_time_params()->getGmt();
fgSetInt("/sim/time/utc/year", t->tm_year + 1900);
fgSetInt("/sim/time/utc/month", t->tm_mon + 1);
fgSetInt("/sim/time/utc/day", t->tm_mday);
fgSetInt("/sim/time/utc/hour", t->tm_hour);
fgSetInt("/sim/time/utc/minute", t->tm_min);
fgSetInt("/sim/time/utc/second", t->tm_sec);
fgSetDouble("/sim/time/utc/day-seconds",
t->tm_hour * 3600 +
t->tm_min * 60 +
t->tm_sec);
fgSetInt("/sim/time/local-offset",
globals->get_time_params()->get_local_offset());
}
////////////////////////////////////////////////////////////////////////
// Save and restore.
////////////////////////////////////////////////////////////////////////
/**
* Save the current state of the simulator to a stream.
*/
bool
fgSaveFlight (ostream &output, bool write_all)
{
fgSetBool("/sim/presets/onground", false);
fgSetArchivable("/sim/presets/onground");
fgSetBool("/sim/presets/trim", false);
fgSetArchivable("/sim/presets/trim");
fgSetString("/sim/presets/speed-set", "UVW");
fgSetArchivable("/sim/presets/speed-set");
try {
writeProperties(output, globals->get_props(), write_all);
} catch (const sg_exception &e) {
guiErrorMessage("Error saving flight: ", e);
return false;
}
return true;
}
/**
* Restore the current state of the simulator from a stream.
*/
bool
fgLoadFlight (istream &input)
{
SGPropertyNode props;
try {
readProperties(input, &props);
} catch (const sg_exception &e) {
guiErrorMessage("Error reading saved flight: ", e);
return false;
}
fgSetBool("/sim/presets/onground", false);
fgSetBool("/sim/presets/trim", false);
fgSetString("/sim/presets/speed-set", "UVW");
copyProperties(&props, globals->get_props());
// When loading a flight, make it the
// new initial state.
globals->saveInitialState();
2001-05-18 20:30:36 +00:00
return true;
}
bool
fgLoadProps (const char * path, SGPropertyNode * props, bool in_fg_root, int default_mode)
{
string fullpath;
if (in_fg_root) {
SGPath loadpath(globals->get_fg_root());
loadpath.append(path);
fullpath = loadpath.str();
} else {
fullpath = path;
}
try {
readProperties(fullpath, props, default_mode);
} catch (const sg_exception &e) {
guiErrorMessage("Error reading properties: ", e);
return false;
}
return true;
}
////////////////////////////////////////////////////////////////////////
// Property convenience functions.
////////////////////////////////////////////////////////////////////////
SGPropertyNode *
fgGetNode (const char * path, bool create)
{
return globals->get_props()->getNode(path, create);
}
SGPropertyNode *
fgGetNode (const char * path, int index, bool create)
{
return globals->get_props()->getNode(path, index, create);
}
bool
fgHasNode (const char * path)
{
return (fgGetNode(path, false) != 0);
}
void
fgAddChangeListener (SGPropertyChangeListener * listener, const char * path)
{
fgGetNode(path, true)->addChangeListener(listener);
}
void
fgAddChangeListener (SGPropertyChangeListener * listener,
const char * path, int index)
{
fgGetNode(path, index, true)->addChangeListener(listener);
}
bool
fgGetBool (const char * name, bool defaultValue)
{
return globals->get_props()->getBoolValue(name, defaultValue);
}
int
fgGetInt (const char * name, int defaultValue)
{
return globals->get_props()->getIntValue(name, defaultValue);
}
int
fgGetLong (const char * name, long defaultValue)
{
return globals->get_props()->getLongValue(name, defaultValue);
}
float
fgGetFloat (const char * name, float defaultValue)
{
return globals->get_props()->getFloatValue(name, defaultValue);
}
double
fgGetDouble (const char * name, double defaultValue)
{
return globals->get_props()->getDoubleValue(name, defaultValue);
}
const char *
fgGetString (const char * name, const char * defaultValue)
{
return globals->get_props()->getStringValue(name, defaultValue);
}
bool
fgSetBool (const char * name, bool val)
{
return globals->get_props()->setBoolValue(name, val);
}
bool
fgSetInt (const char * name, int val)
{
return globals->get_props()->setIntValue(name, val);
}
bool
fgSetLong (const char * name, long val)
{
return globals->get_props()->setLongValue(name, val);
}
bool
fgSetFloat (const char * name, float val)
{
return globals->get_props()->setFloatValue(name, val);
}
bool
fgSetDouble (const char * name, double val)
{
return globals->get_props()->setDoubleValue(name, val);
}
bool
fgSetString (const char * name, const char * val)
{
return globals->get_props()->setStringValue(name, val);
}
void
fgSetArchivable (const char * name, bool state)
{
SGPropertyNode * node = globals->get_props()->getNode(name);
if (node == 0)
SG_LOG(SG_GENERAL, SG_DEBUG,
"Attempt to set archive flag for non-existant property "
<< name);
else
node->setAttribute(SGPropertyNode::ARCHIVE, state);
}
void
fgSetReadable (const char * name, bool state)
{
SGPropertyNode * node = globals->get_props()->getNode(name);
if (node == 0)
SG_LOG(SG_GENERAL, SG_DEBUG,
"Attempt to set read flag for non-existant property "
<< name);
else
node->setAttribute(SGPropertyNode::READ, state);
}
void
fgSetWritable (const char * name, bool state)
{
SGPropertyNode * node = globals->get_props()->getNode(name);
if (node == 0)
SG_LOG(SG_GENERAL, SG_DEBUG,
"Attempt to set write flag for non-existant property "
<< name);
else
node->setAttribute(SGPropertyNode::WRITE, state);
}
void
fgUntie (const char * name)
{
if (!globals->get_props()->untie(name))
SG_LOG(SG_GENERAL, SG_WARN, "Failed to untie property " << name);
}
// end of fg_props.cxx