FGATC::FGATC() :
- _voiceOK(false),
+ _playing(false),
+ _voiceOK(false),
+ _sgr(NULL),
freqClear(true),
receiving(false),
respond(false),
pending_transmission(""),
_timeout(0),
_pending(false),
- _callback_code(0),
_transmit(false),
_transmitting(false),
_counter(0.0),
_max_count(5.0)
{
+ SGSoundMgr *smgr = globals->get_soundmgr();
+ _sgr = smgr->find("atc", true);
+ _sgr->tie_to_listener();
+
+ _volume = fgGetNode("/sim/sound/atc/volume", true);
+ _enabled = fgGetNode("/sim/sound/atc/enabled", true);
+ _atc_external = fgGetNode("/sim/sound/atc/external-view", true);
+ _internal = fgGetNode("/sim/current-view/internal", true);
}
FGATC::~FGATC() {
}
}
+#ifdef ENABLE_AUDIO_SUPPORT
+ bool active = _atc_external->getBoolValue() ||
+ _internal->getBoolValue();
+
+ if ( active && _enabled->getBoolValue() ) {
+ _sgr->set_volume( _volume->getFloatValue() );
+ _sgr->resume(); // no-op if already in resumed state
+ } else {
+ _sgr->suspend();
+ }
+#endif
+
if(_transmit) {
_counter = 0.0;
_max_count = 5.0; // FIXME - hardwired length of message - need to calculate it!
//Render(pending_transmission, ident, false);
Render(pending_transmission);
}
- // Run the callback regardless of whether on same freq as user or not.
- //cout << "_callback_code = " << _callback_code << '\n';
- if(_callback_code) {
- ProcessCallback(_callback_code);
- }
_transmit = false;
_transmitting = true;
} else if(_transmitting) {
}
}
-void FGATC::Transmit(int callback_code) {
- SG_LOG(SG_ATC, SG_INFO, "Transmit called by " << ident << " " << _type << ", msg = " << pending_transmission);
- _pending = true;
- _callback_code = callback_code;
- _timeout = 0.0;
-}
-
-void FGATC::ConditionalTransmit(double timeout, int callback_code) {
- SG_LOG(SG_ATC, SG_INFO, "Timed transmit called by " << ident << " " << _type << ", msg = " << pending_transmission);
- _pending = true;
- _callback_code = callback_code;
- _timeout = timeout;
-}
-
-void FGATC::ImmediateTransmit(int callback_code) {
- SG_LOG(SG_ATC, SG_INFO, "Immediate transmit called by " << ident << " " << _type << ", msg = " << pending_transmission);
- if(_display) {
- //Render(pending_transmission, ident, false);
- Render(pending_transmission);
- // At the moment Render doesn't work except for ATIS
- }
- if(callback_code) {
- ProcessCallback(callback_code);
- }
-}
-
-// Derived classes should override this.
-void FGATC::ProcessCallback(int code) {
-}
-
-void FGATC::AddPlane(const string& pid) {
-}
-
-int FGATC::RemovePlane() {
- return 0;
-}
-
void FGATC::SetData(ATCData* d) {
- _type = d->type;
+ _type = d->type;
_geod = d->geod;
_cart = d->cart;
range = d->range;
// Outputs the transmission either on screen or as audio depending on user preference
// The refname is a string to identify this sample to the sound manager
// The repeating flag indicates whether the message should be repeated continuously or played once.
-void FGATC::Render(string& msg, const double volume,
- const string& refname, const bool repeating) {
+void FGATC::Render(string& msg, const float volume,
+ const string& refname, const bool repeating) {
+ if (volume < 0.05) return;
+
if (repeating)
fgSetString("/sim/messages/atis", msg.c_str());
else
fgSetString("/sim/messages/atc", msg.c_str());
- #ifdef ENABLE_AUDIO_SUPPORT
+#ifdef ENABLE_AUDIO_SUPPORT
_voice = (_voiceOK && fgGetBool("/sim/sound/voice"));
if(_voice) {
- string buf = _vPtr->WriteMessage((char*)msg.c_str(), _voice);
- if(_voice) {
- NoRender(refname);
- try {
+ size_t len;
+ void* buf = _vPtr->WriteMessage((char*)msg.c_str(), &len);
+ if(buf) {
+ NoRender(refname);
+ try {
// >>> Beware: must pass a (new) object to the (add) method,
// >>> because the (remove) method is going to do a (delete)
// >>> whether that's what you want or not.
- SGSoundSample *simple =
- new SGSoundSample((unsigned char*) buf.c_str(),
- buf.length(), 8000, AL_FORMAT_MONO8);
- // TODO - at the moment the volume can't be changed
- // after the transmission has started.
- simple->set_volume(volume);
- globals->get_soundmgr()->add(simple, refname);
- if(repeating) {
- globals->get_soundmgr()->play_looped(refname);
- } else {
- globals->get_soundmgr()->play_once(refname);
- }
- } catch ( sg_io_exception &e ) {
- SG_LOG(SG_GENERAL, SG_ALERT, e.getFormattedMessage());
+ SGSoundSample *simple = new SGSoundSample(&buf, len, 8000);
+ simple->set_volume(volume);
+ _sgr->add(simple, refname);
+ _sgr->play(refname, repeating);
+ } catch ( sg_io_exception &e ) {
+ SG_LOG(SG_GENERAL, SG_ALERT, e.getFormattedMessage());
+ }
}
- }
}
- #endif // ENABLE_AUDIO_SUPPORT
+#endif // ENABLE_AUDIO_SUPPORT
if(!_voice) {
// first rip the underscores and the pause hints out of the string - these are for the convienience of the voice parser
for(unsigned int i = 0; i < msg.length(); ++i) {
if(_playing) {
if(_voice) {
#ifdef ENABLE_AUDIO_SUPPORT
- globals->get_soundmgr()->stop(refname);
- globals->get_soundmgr()->remove(refname);
+ _sgr->stop(refname);
+ _sgr->remove(refname);
#endif
}
_playing = false;
ostream& operator << (ostream& os, atc_type atc) {
switch(atc) {
- case(AWOS): return(os << "AWOS");
- case(ATIS): return(os << "ATIS");
- case(GROUND): return(os << "GROUND");
- case(TOWER): return(os << "TOWER");
+ case(AWOS): return(os << "AWOS");
+ case(ATIS): return(os << "ATIS");
+ case(GROUND): return(os << "GROUND");
+ case(TOWER): return(os << "TOWER");
case(APPROACH): return(os << "APPROACH");
case(DEPARTURE): return(os << "DEPARTURE");
- case(ENROUTE): return(os << "ENROUTE");
- case(INVALID): return(os << "INVALID");
+ case(ENROUTE): return(os << "ENROUTE");
+ case(INVALID): return(os << "INVALID");
}
return(os << "ERROR - Unknown switch in atc_type operator << ");
}
return fin >> skipeol;
}
- double lat, lon, elev;
-
+ double lat, lon, elev;
+
fin >> lat >> lon >> elev >> f >> a.range >> a.ident;
a.geod = SGGeod::fromDegM(lon, lat, elev);
a.name = "";
// cout << a.ident << endl;
// generate cartesian coordinates
- a.cart = SGVec3d::fromGeod(a.geod);
+ a.cart = SGVec3d::fromGeod(a.geod);
return fin >> skipeol;
}