#include <Network/native.hxx>
#include <Network/native_ctrls.hxx>
#include <Network/native_fdm.hxx>
+#include <Network/native_gui.hxx>
#include <Network/opengc.hxx>
#include <Network/nmea.hxx>
#include <Network/props.hxx>
#include <Network/pve.hxx>
#include <Network/ray.hxx>
#include <Network/rul.hxx>
+#include <Network/generic.hxx>
+
+#ifdef FG_MPLAYER_AS
+#include <Network/multiplay.hxx>
+#endif
#include "globals.hxx"
#include "fg_io.hxx"
SG_USING_STD(string);
-// define the global I/O channel list
-io_container global_io_list;
+FGIO::FGIO()
+{
+}
+
+#include STL_ALGORITHM
+SG_USING_STD(for_each);
+
+static void delete_ptr( FGProtocol* p ) { delete p; }
+
+FGIO::~FGIO()
+{
+ shutdown_all();
+ for_each( io_channels.begin(), io_channels.end(), delete_ptr );
+}
// configure a port based on the config string
-static FGProtocol *parse_port_config( const string& config )
+FGProtocol*
+FGIO::parse_port_config( const string& config )
{
SG_LOG( SG_IO, SG_INFO, "Parse I/O channel request: " << config );
if ( protocol == "atc610x" ) {
FGATC610x *atc610x = new FGATC610x;
atc610x->set_hz( 30 );
+ if ( tokens.size() > 1 ) {
+ if ( tokens[1] == "no-rudder" ) {
+ atc610x->set_use_rudder( false );
+ }
+ }
return atc610x;
} else if ( protocol == "atlas" ) {
FGAtlas *atlas = new FGAtlas;
} else if ( protocol == "native" ) {
FGNative *native = new FGNative;
io = native;
- } else if ( protocol == "native_ctrls" ) {
+ } else if ( protocol == "native-ctrls" ) {
FGNativeCtrls *native_ctrls = new FGNativeCtrls;
io = native_ctrls;
- } else if ( protocol == "native_fdm" ) {
+ } else if ( protocol == "native-fdm" ) {
FGNativeFDM *native_fdm = new FGNativeFDM;
io = native_fdm;
+ } else if ( protocol == "native-gui" ) {
+ FGNativeGUI *net_gui = new FGNativeGUI;
+ io = net_gui;
} else if ( protocol == "nmea" ) {
FGNMEA *nmea = new FGNMEA;
io = nmea;
} else if ( protocol == "rul" ) {
FGRUL *rul = new FGRUL;
io = rul;
+ } else if ( protocol == "generic" ) {
+ FGGeneric *generic = new FGGeneric( tokens[6] );
+ io = generic;
+
+#ifdef FG_MPLAYER_AS
+ } else if ( protocol == "multiplay" ) {\
+ //Determine dir, rate, host & port
+ string dir = tokens[1];
+ string rate = tokens[2];
+ string host = tokens[3];
+ string port = tokens[4];
+ return new FGMultiplay(dir, atoi(rate.c_str()), host, atoi(port.c_str()));
+#endif
+
} else {
return NULL;
}
SG_LOG( SG_IO, SG_INFO, " hostname = " << hostname );
SG_LOG( SG_IO, SG_INFO, " port = " << port );
SG_LOG( SG_IO, SG_INFO, " style = " << style );
-
+
io->set_io_channel( new SGSocket( hostname, port, style ) );
}
// step through the port config streams (from fgOPTIONS) and setup
// serial port channels for each
-void fgIOInit() {
- // SG_LOG( SG_IO, SG_INFO, "I/O Channel initialization, " <<
+void
+FGIO::init()
+{
+ // SG_LOG( SG_IO, SG_INFO, "I/O Channel initialization, " <<
// globals->get_channel_options_list()->size() << " requests." );
FGProtocol *p;
- string_list *channel_options_list = globals->get_channel_options_list();
// we could almost do this in a single step except pushing a valid
// port onto the port list copies the structure and destroys the
// parse the configuration strings and store the results in the
// appropriate FGIOChannel structures
- for ( int i = 0; i < (int)channel_options_list->size(); ++i ) {
- p = parse_port_config( (*channel_options_list)[i] );
+ typedef vector<string> container;
+ container::iterator i = globals->get_channel_options_list()->begin();
+ container::iterator end = globals->get_channel_options_list()->end();
+ for (; i != end; ++i )
+ {
+ p = parse_port_config( *i );
if ( p != NULL ) {
p->open();
- global_io_list.push_back( p );
+ io_channels.push_back( p );
if ( !p->is_enabled() ) {
SG_LOG( SG_IO, SG_ALERT, "I/O Channel config failed." );
exit(-1);
}
-// process any serial port work
-void fgIOProcess() {
+// process any IO channel work
+void
+FGIO::update( double delta_time_sec )
+{
// cout << "processing I/O channels" << endl;
+ // cout << " Elapsed time = " << delta_time_sec << endl;
- static int inited = 0;
- int interval;
- static SGTimeStamp last;
- SGTimeStamp current;
-
- if ( ! inited ) {
- inited = 1;
- last.stamp();
- interval = 0;
- } else {
- current.stamp();
- interval = current - last;
- last = current;
- }
-
- for ( unsigned int i = 0; i < global_io_list.size(); ++i ) {
- // cout << " channel = " << i << endl;
- FGProtocol* p = global_io_list[i];
+ typedef vector< FGProtocol* > container;
+ container::iterator i = io_channels.begin();
+ container::iterator end = io_channels.end();
+ for (; i != end; ++i ) {
+ FGProtocol* p = *i;
if ( p->is_enabled() ) {
- p->dec_count_down( interval );
- while ( p->get_count_down() < 0 ) {
- p->process();
- p->dec_count_down(int( -1000000.0 / p->get_hz()));
+ p->dec_count_down( delta_time_sec );
+ double dt = 1 / p->get_hz();
+ if ( p->get_count_down() < 0.33 * dt ) {
+ p->process();
+ p->inc_count();
+ while ( p->get_count_down() < 0.33 * dt ) {
+ p->inc_count_down( dt );
+ }
+ // double ave = elapsed_time / p->get_count();
+ // cout << " ave rate = " << ave << endl;
}
}
}
}
-// shutdown all I/O connections
-void fgIOShutdownAll() {
+void
+FGIO::shutdown_all() {
FGProtocol *p;
// cout << "processing I/O channels" << endl;
- for ( int i = 0; i < (int)global_io_list.size(); ++i ) {
- // cout << " channel = " << i << endl;
- p = global_io_list[i];
+ typedef vector< FGProtocol* > container;
+ container::iterator i = io_channels.begin();
+ container::iterator end = io_channels.end();
+ for (; i != end; ++i )
+ {
+ p = *i;
if ( p->is_enabled() ) {
p->close();
}
}
}
+
+void
+FGIO::bind()
+{
+}
+
+void
+FGIO::unbind()
+{
+}
+