#include <Time/tmp.hxx>
#include <Main/fg_props.hxx>
#include <Main/globals.hxx>
+#include <Scenery/scenery.hxx>
#include "native_gui.hxx"
net->fuel_quantity[i] = node->getDoubleValue("level-gal_us");
}
- // the following really aren't used in this context
+ // Environment
net->cur_time = globals->get_time_params()->get_cur_time();
net->warp = globals->get_warp();
+ net->ground_elev = globals->get_scenery()->get_cur_elev();
// Approach
- net->dist_nm = current_radiostack->get_navcom1()->get_nav_gs_dist()
- * SG_METER_TO_NM;
+ net->tuned_freq = current_radiostack->get_navcom1()->get_nav_freq();
+ net->nav_radial = current_radiostack->get_navcom1()->get_nav_target_radial();
+ net->in_range = current_radiostack->get_navcom1()->get_nav_inrange();
+
+ if ( current_radiostack->get_navcom1()->get_nav_loc() ) {
+ // is an ILS
+ net->dist_nm
+ = current_radiostack->get_navcom1()->get_nav_gs_dist_signed()
+ * SG_METER_TO_NM;
+ } else {
+ // is a VOR
+ net->dist_nm = current_radiostack->get_navcom1()->get_nav_loc_dist()
+ * SG_METER_TO_NM;
+ }
+
net->course_deviation_deg
- = current_radiostack->get_navcom1()->get_nav_heading()
- - current_radiostack->get_navcom1()->get_nav_radial();
+ = current_radiostack->get_navcom1()->get_nav_reciprocal_radial()
+ - current_radiostack->get_navcom1()->get_nav_target_radial();
+ if ( net->course_deviation_deg < -1000.0
+ || net->course_deviation_deg > 1000.0 )
+ {
+ // Sanity check ...
+ net->course_deviation_deg = 0.0;
+ }
while ( net->course_deviation_deg > 180.0 ) {
net->course_deviation_deg -= 360.0;
}
= ( net->course_deviation_deg<0.0
? -net->course_deviation_deg - 180.0
: -net->course_deviation_deg + 180.0 );
- net->gs_deviation_deg
- = current_radiostack->get_navcom1()->get_nav_gs_needle_deflection()
- / 5.0;
+
+ if ( current_radiostack->get_navcom1()->get_nav_loc() ) {
+ // is an ILS
+ net->gs_deviation_deg
+ = current_radiostack->get_navcom1()->get_nav_gs_deflection()
+ / 5.0;
+ } else {
+ // is an ILS
+ net->gs_deviation_deg = -9999.0;
+ }
#if defined( FG_USE_NETWORK_BYTE_ORDER )
// Convert the net buffer to network format
net->cur_time = htonl( net->cur_time );
net->warp = htonl( net->warp );
+ net->ground_elev = htonl( net->ground_elev );
+ htonf(net->tuned_freq);
+ htonf(net->nav_radial);
+ net->in_range = htonl(net->in_range);
htonf(net->dist_nm);
htonf(net->course_deviation_deg);
htonf(net->gs_deviation_deg);
net->cur_time = ntohl(net->cur_time);
net->warp = ntohl(net->warp);
+ net->ground_elev = htonl( net->ground_elev );
+ htonf(net->tuned_freq);
+ net->in_range = htonl(net->in_range);
htonf(net->dist_nm);
htonf(net->course_deviation_deg);
htonf(net->gs_deviation_deg);
}
globals->set_warp( net->warp );
+ globals->get_scenery()->set_cur_elev( net->ground_elev );
// Approach
+ fgSetDouble( "/radios/nav[0]/frequencies/selected-mhz",
+ net->tuned_freq );
+ fgSetBool( "/radios/nav[0]/in-range", net->in_range );
fgSetDouble( "/radios/dme/distance-nm", net->dist_nm );
fgSetDouble( "/radios/nav[0]/heading-needle-deflection",
net->course_deviation_deg );