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flightgear/src/Network/atc610x.cxx

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// atc610x.cxx -- FGFS interface to ATC 610x hardware
//
// Written by Curtis Olson, started January 2002
//
// Copyright (C) 2002 Curtis L. Olson - curt@flightgear.org
//
// 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
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <simgear/compiler.h>
#include <stdlib.h> // atoi() atof() abs()
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
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#include <stdio.h> //snprintf
#if defined( _MSC_VER ) || defined(__MINGW32__)
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# include <io.h> //lseek, read, write
#endif
#include STL_STRING
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#include <plib/ul.h>
#include <simgear/debug/logstream.hxx>
#include <simgear/io/iochannel.hxx>
#include <simgear/math/sg_types.hxx>
#include <simgear/misc/sg_path.hxx>
#include <simgear/props/props.hxx>
#include <Main/fg_props.hxx>
#include <Main/globals.hxx>
#include "atc610x.hxx"
SG_USING_STD(string);
// Lock the ATC 610 hardware
static int ATC610xLock( int fd ) {
// rewind
lseek( fd, 0, SEEK_SET );
char tmp[2];
int result = read( fd, tmp, 1 );
if ( result != 1 ) {
SG_LOG( SG_IO, SG_DEBUG, "Lock failed" );
}
return result;
}
// Write a radios command
static int ATC610xRelease( int fd ) {
// rewind
lseek( fd, 0, SEEK_SET );
char tmp[2];
tmp[0] = tmp[1] = 0;
int result = write( fd, tmp, 1 );
if ( result != 1 ) {
SG_LOG( SG_IO, SG_DEBUG, "Release failed" );
}
return result;
}
// Read analog inputs
static void ATC610xReadAnalogInputs( int fd, unsigned char *analog_in_bytes ) {
// rewind
lseek( fd, 0, SEEK_SET );
int result = read( fd, analog_in_bytes, ATC_ANAL_IN_BYTES );
if ( result != ATC_ANAL_IN_BYTES ) {
SG_LOG( SG_IO, SG_ALERT, "Read failed" );
exit( -1 );
}
}
// Write a radios command
static int ATC610xSetRadios( int fd,
unsigned char data[ATC_RADIO_DISPLAY_BYTES] )
{
// rewind
lseek( fd, 0, SEEK_SET );
int result = write( fd, data, ATC_RADIO_DISPLAY_BYTES );
if ( result != ATC_RADIO_DISPLAY_BYTES ) {
SG_LOG( SG_IO, SG_DEBUG, "Write failed" );
}
return result;
}
// Read status of last radios written to
static void ATC610xReadRadios( int fd, unsigned char *switch_data ) {
// rewind
lseek( fd, 0, SEEK_SET );
int result = read( fd, switch_data, ATC_RADIO_SWITCH_BYTES );
if ( result != ATC_RADIO_SWITCH_BYTES ) {
SG_LOG( SG_IO, SG_ALERT, "Read failed" );
exit( -1 );
}
}
// Write a stepper command
static int ATC610xSetStepper( int fd, unsigned char channel,
unsigned char value )
{
// rewind
lseek( fd, 0, SEEK_SET );
// Write the value
unsigned char buf[3];
buf[0] = channel;
buf[1] = value;
buf[2] = 0;
int result = write( fd, buf, 2 );
if ( result != 2 ) {
SG_LOG( SG_IO, SG_INFO, "Write failed" );
}
SG_LOG( SG_IO, SG_DEBUG,
"Sent cmd = " << (int)channel << " value = " << (int)value );
return result;
}
// Read status of last stepper written to
static unsigned char ATC610xReadStepper( int fd ) {
int result;
// rewind
lseek( fd, 0, SEEK_SET );
// Write the value
unsigned char buf[2];
result = read( fd, buf, 1 );
if ( result != 1 ) {
SG_LOG( SG_IO, SG_ALERT, "Read failed" );
exit( -1 );
}
SG_LOG( SG_IO, SG_DEBUG, "Read result = " << (int)buf[0] );
return buf[0];
}
// Read switch inputs
static void ATC610xReadSwitches( int fd, unsigned char *switch_bytes ) {
// rewind
lseek( fd, 0, SEEK_SET );
int result = read( fd, switch_bytes, ATC_SWITCH_BYTES );
if ( result != ATC_SWITCH_BYTES ) {
SG_LOG( SG_IO, SG_ALERT, "Read failed" );
exit( -1 );
}
}
// Turn a lamp on or off
void ATC610xSetLamp( int fd, int channel, bool value ) {
// lamp channels 0-63 are written to LampPort0, channels 64-127
// are written to LampPort1
// bits 0-6 are the lamp address
// bit 7 is the value (on/off)
int result;
// Write the value
unsigned char buf[3];
buf[0] = channel;
buf[1] = value;
buf[2] = 0;
result = write( fd, buf, 2 );
if ( result != 2 ) {
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SG_LOG( SG_IO, SG_ALERT, "Write failed" );
exit( -1 );
}
}
void FGATC610x::init_config() {
#if defined( unix ) || defined( __CYGWIN__ )
// Next check home directory for .fgfsrc.hostname file
char *envp = ::getenv( "HOME" );
if ( envp != NULL ) {
SGPath atc610x_config( envp );
atc610x_config.append( ".fgfs-atc610x.xml" );
readProperties( atc610x_config.str(), globals->get_props() );
}
#endif
}
// Open and initialize ATC 610x hardware
bool FGATC610x::open() {
if ( is_enabled() ) {
SG_LOG( SG_IO, SG_ALERT, "This shouldn't happen, but the channel "
<< "is already in use, ignoring" );
return false;
}
// This loads the config parameters generated by "simcal"
init_config();
SG_LOG( SG_IO, SG_ALERT,
"Initializing ATC 610x hardware, please wait ..." );
set_hz( 30 ); // default to processing requests @ 30Hz
set_enabled( true );
board = 0; // 610x uses a single board number = 0
snprintf( lock_file, 256, "/proc/atc610x/board%d/lock", board );
snprintf( analog_in_file, 256, "/proc/atc610x/board%d/analog_in", board );
snprintf( lamps_file, 256, "/proc/atc610x/board%d/lamps", board );
snprintf( radios_file, 256, "/proc/atc610x/board%d/radios", board );
snprintf( stepper_file, 256, "/proc/atc610x/board%d/steppers", board );
snprintf( switches_file, 256, "/proc/atc610x/board%d/switches", board );
/////////////////////////////////////////////////////////////////////
// Open the /proc files
/////////////////////////////////////////////////////////////////////
lock_fd = ::open( lock_file, O_RDWR );
if ( lock_fd == -1 ) {
SG_LOG( SG_IO, SG_ALERT, "errno = " << errno );
char msg[256];
snprintf( msg, 256, "Error opening %s", lock_file );
perror( msg );
exit( -1 );
}
analog_in_fd = ::open( analog_in_file, O_RDONLY );
if ( analog_in_fd == -1 ) {
SG_LOG( SG_IO, SG_ALERT, "errno = " << errno );
char msg[256];
snprintf( msg, 256, "Error opening %s", analog_in_file );
perror( msg );
exit( -1 );
}
lamps_fd = ::open( lamps_file, O_WRONLY );
if ( lamps_fd == -1 ) {
SG_LOG( SG_IO, SG_ALERT, "errno = " << errno );
char msg[256];
snprintf( msg, 256, "Error opening %s", lamps_file );
perror( msg );
exit( -1 );
}
radios_fd = ::open( radios_file, O_RDWR );
if ( radios_fd == -1 ) {
SG_LOG( SG_IO, SG_ALERT, "errno = " << errno );
char msg[256];
snprintf( msg, 256, "Error opening %s", radios_file );
perror( msg );
exit( -1 );
}
stepper_fd = ::open( stepper_file, O_RDWR );
if ( stepper_fd == -1 ) {
SG_LOG( SG_IO, SG_ALERT, "errno = " << errno );
char msg[256];
snprintf( msg, 256, "Error opening %s", stepper_file );
perror( msg );
exit( -1 );
}
switches_fd = ::open( switches_file, O_RDONLY );
if ( switches_fd == -1 ) {
SG_LOG( SG_IO, SG_ALERT, "errno = " << errno );
char msg[256];
snprintf( msg, 256, "Error opening %s", switches_file );
perror( msg );
exit( -1 );
}
/////////////////////////////////////////////////////////////////////
// Home the compass stepper motor
/////////////////////////////////////////////////////////////////////
SG_LOG( SG_IO, SG_ALERT,
" - Homing the compass stepper motor" );
// Lock the hardware, keep trying until we succeed
while ( ATC610xLock( lock_fd ) <= 0 );
// Send the stepper home command
ATC610xSetStepper( stepper_fd, ATC_COMPASS_CH, ATC_STEPPER_HOME );
// Release the hardware
ATC610xRelease( lock_fd );
SG_LOG( SG_IO, SG_ALERT,
" - Waiting for compass to come home." );
bool home = false;
int timeout = 900; // about 30 seconds
timeout = 0;
while ( ! home && timeout > 0 ) {
if ( timeout % 150 == 0 ) {
SG_LOG( SG_IO, SG_INFO, "waiting for compass = " << timeout );
} else {
SG_LOG( SG_IO, SG_DEBUG, "Checking if compass home ..." );
}
while ( ATC610xLock( lock_fd ) <= 0 );
unsigned char result = ATC610xReadStepper( stepper_fd );
if ( result == 0 ) {
home = true;
}
ATC610xRelease( lock_fd );
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#if defined( _MSC_VER )
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ulMilliSecondSleep(33);
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#elif defined (WIN32) && !defined(__CYGWIN__)
Sleep (33);
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#else
usleep(33);
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#endif
--timeout;
}
compass_position = 0.0;
/////////////////////////////////////////////////////////////////////
// Blank the radio display
/////////////////////////////////////////////////////////////////////
SG_LOG( SG_IO, SG_ALERT,
" - Clearing the radios displays." );
// Prepair the data
unsigned char value = 0xff;
for ( int channel = 0; channel < ATC_RADIO_DISPLAY_BYTES; ++channel ) {
radio_display_data[channel] = value;
}
// Lock the hardware, keep trying until we succeed
while ( ATC610xLock( lock_fd ) <= 0 );
// Set radio display
ATC610xSetRadios( radios_fd, radio_display_data );
ATC610xRelease( lock_fd );
/////////////////////////////////////////////////////////////////////
// Blank the lamps
/////////////////////////////////////////////////////////////////////
for ( int i = 0; i < 128; ++i ) {
ATC610xSetLamp( lamps_fd, i, false );
}
/////////////////////////////////////////////////////////////////////
// Finished initing hardware
/////////////////////////////////////////////////////////////////////
SG_LOG( SG_IO, SG_ALERT,
"Done initializing ATC 610x hardware." );
/////////////////////////////////////////////////////////////////////
// Connect up to property values
/////////////////////////////////////////////////////////////////////
mag_compass = fgGetNode( "/instrumentation/magnetic-compass/indicated-heading-deg", true );
dme_min = fgGetNode( "/instrumentation/dme/indicated-time-min", true );
dme_kt = fgGetNode( "/instrumentation/dme/indicated-ground-speed-kt",
true );
dme_nm = fgGetNode( "/instrumentation/dme/indicated-distance-nm", true );
dme_in_range = fgGetNode( "/instrumentation/dme/in-range", true );
adf_bus_power = fgGetNode( "/systems/electrical/outputs/adf", true );
dme_bus_power = fgGetNode( "/systems/electrical/outputs/dme", true );
navcom1_bus_power = fgGetNode( "/systems/electrical/outputs/navcom[0]",
true );
navcom2_bus_power = fgGetNode( "/systems/electrical/outputs/navcom[1]",
true );
xpdr_bus_power = fgGetNode( "/systems/electrical/outputs/transponder",
true );
navcom1_power_btn = fgGetNode( "/radios/comm[0]/inputs/power-btn", true );
navcom2_power_btn = fgGetNode( "/radios/comm[1]/inputs/power-btn", true );
com1_freq = fgGetNode( "/radios/comm[0]/frequencies/selected-mhz", true );
com1_stby_freq
= fgGetNode( "/radios/comm[0]/frequencies/standby-mhz", true );
com2_freq = fgGetNode( "/radios/comm[1]/frequencies/selected-mhz", true );
com2_stby_freq
= fgGetNode( "/radios/comm[1]/frequencies/standby-mhz", true );
nav1_freq = fgGetNode( "/radios/nav[0]/frequencies/selected-mhz", true );
nav1_stby_freq
= fgGetNode( "/radios/nav[0]/frequencies/standby-mhz", true );
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nav1_obs = fgGetNode( "/radios/nav[0]/radials/selected-deg", true );
nav2_freq = fgGetNode( "/radios/nav[1]/frequencies/selected-mhz", true );
nav2_stby_freq
= fgGetNode( "/radios/nav[1]/frequencies/standby-mhz", true );
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nav2_obs = fgGetNode( "/radios/nav[1]/radials/selected-deg", true );
adf_power_btn = fgGetNode( "/radios/kr-87/inputs/power-btn", true );
adf_vol = fgGetNode( "/radios/kr-87/inputs/volume", true );
adf_adf_btn = fgGetNode( "/radios/kr-87/inputs/adf-btn", true );
adf_bfo_btn = fgGetNode( "/radios/kr-87/inputs/bfo-btn", true );
adf_freq = fgGetNode( "/radios/kr-87/outputs/selected-khz", true );
adf_stby_freq = fgGetNode( "/radios/kr-87/outputs/standby-khz", true );
adf_stby_mode = fgGetNode( "/radios/kr-87/modes/stby", true );
adf_timer_mode = fgGetNode( "/radios/kr-87/modes/timer", true );
adf_count_mode = fgGetNode( "/radios/kr-87/modes/count", true );
adf_flight_timer = fgGetNode( "/radios/kr-87/outputs/flight-timer", true );
adf_elapsed_timer = fgGetNode( "/radios/kr-87/outputs/elapsed-timer",
true );
adf_ant_ann = fgGetNode( "/radios/kr-87/annunciators/ant", true );
adf_adf_ann = fgGetNode( "/radios/kr-87/annunciators/adf", true );
adf_bfo_ann = fgGetNode( "/radios/kr-87/annunciators/bfo", true );
adf_frq_ann = fgGetNode( "/radios/kr-87/annunciators/frq", true );
adf_flt_ann = fgGetNode( "/radios/kr-87/annunciators/flt", true );
adf_et_ann = fgGetNode( "/radios/kr-87/annunciators/et", true );
inner = fgGetNode( "/radios/marker-beacon/inner", true );
middle = fgGetNode( "/radios/marker-beacon/middle", true );
outer = fgGetNode( "/radios/marker-beacon/outer", true );
xpdr_ident_btn = fgGetNode( "/radios/kt-70/inputs/ident-btn", true );
xpdr_digit1 = fgGetNode( "/radios/kt-70/inputs/digit1", true );
xpdr_digit2 = fgGetNode( "/radios/kt-70/inputs/digit2", true );
xpdr_digit3 = fgGetNode( "/radios/kt-70/inputs/digit3", true );
xpdr_digit4 = fgGetNode( "/radios/kt-70/inputs/digit4", true );
xpdr_func_knob = fgGetNode( "/radios/kt-70/inputs/func-knob", true );
xpdr_id_code = fgGetNode( "/radios/kt-70/outputs/id-code", true );
xpdr_flight_level = fgGetNode( "/radios/kt-70/outputs/flight-level", true );
xpdr_fl_ann = fgGetNode( "/radios/kt-70/annunciators/fl", true );
xpdr_alt_ann = fgGetNode( "/radios/kt-70/annunciators/alt", true );
xpdr_gnd_ann = fgGetNode( "/radios/kt-70/annunciators/gnd", true );
xpdr_on_ann = fgGetNode( "/radios/kt-70/annunciators/on", true );
xpdr_sby_ann = fgGetNode( "/radios/kt-70/annunciators/sby", true );
xpdr_reply_ann = fgGetNode( "/radios/kt-70/annunciators/reply", true );
ati_bird
= fgGetNode( "/instrumentation/attitude-indicator/horizon-offset-deg",
true );
alt_press = fgGetNode( "/instrumentation/altimeter/setting-inhg", true );
adf_hdg = fgGetNode( "/radios/kr-87/inputs/rotation-deg", true );
hdg_bug = fgGetNode( "/autopilot/settings/heading-bug-deg", true );
elevator_center = fgGetNode( "/input/atc610x/elevator/center", true );
elevator_min = fgGetNode( "/input/atc610x/elevator/min", true );
elevator_max = fgGetNode( "/input/atc610x/elevator/max", true );
ailerons_center = fgGetNode( "/input/atc610x/ailerons/center", true );
ailerons_min = fgGetNode( "/input/atc610x/ailerons/min", true );
ailerons_max = fgGetNode( "/input/atc610x/ailerons/max", true );
rudder_center = fgGetNode( "/input/atc610x/rudder/center", true );
rudder_min = fgGetNode( "/input/atc610x/rudder/min", true );
rudder_max = fgGetNode( "/input/atc610x/rudder/max", true );
brake_left_min = fgGetNode( "/input/atc610x/brake-left/min", true );
brake_left_max = fgGetNode( "/input/atc610x/brake-left/max", true );
brake_right_min = fgGetNode( "/input/atc610x/brake-right/min", true );
brake_right_max = fgGetNode( "/input/atc610x/brake-right/max", true );
throttle_min = fgGetNode( "/input/atc610x/throttle/min", true );
throttle_max = fgGetNode( "/input/atc610x/throttle/max", true );
mixture_min = fgGetNode( "/input/atc610x/mixture/min", true );
mixture_max = fgGetNode( "/input/atc610x/mixture/max", true );
trim_center = fgGetNode( "/input/atc610x/trim/center", true );
trim_min = fgGetNode( "/input/atc610x/trim/min", true );
trim_max = fgGetNode( "/input/atc610x/trim/max", true );
nav1vol_min = fgGetNode( "/input/atc610x/nav1vol/min", true );
nav1vol_max = fgGetNode( "/input/atc610x/nav1vol/max", true );
nav2vol_min = fgGetNode( "/input/atc610x/nav2vol/min", true );
nav2vol_max = fgGetNode( "/input/atc610x/nav2vol/max", true );
ignore_flight_controls
= fgGetNode( "/input/atc610x/ignore-flight-controls", true );
comm1_serviceable = fgGetNode( "/instrumentation/comm[0]/serviceable", true );
comm2_serviceable = fgGetNode( "/instrumentation/comm[1]/serviceable", true );
nav1_serviceable = fgGetNode( "/instrumentation/nav[0]/serviceable", true );
nav2_serviceable = fgGetNode( "/instrumentation/nav[1]/serviceable", true );
adf_serviceable = fgGetNode( "/instrumentation/adf/serviceable", true );
xpdr_serviceable = fgGetNode( "/radios/kt-70/inputs/serviceable",
true );
dme_serviceable = fgGetNode( "/instrumentation/dme/serviceable", true );
// default to having everything serviceable
comm1_serviceable->setBoolValue( true );
comm2_serviceable->setBoolValue( true );
nav1_serviceable->setBoolValue( true );
nav2_serviceable->setBoolValue( true );
adf_serviceable->setBoolValue( true );
xpdr_serviceable->setBoolValue( true );
dme_serviceable->setBoolValue( true );
return true;
}
/////////////////////////////////////////////////////////////////////
// Read analog inputs
/////////////////////////////////////////////////////////////////////
// scale a number between min and max (with center defined) to a scale
// from -1.0 to 1.0
static double scale( int center, int min, int max, int value ) {
// cout << center << " " << min << " " << max << " " << value << " ";
double result;
double range;
if ( value <= center ) {
range = center - min;
result = (value - center) / range;
} else {
range = max - center;
result = (value - center) / range;
}
if ( result < -1.0 ) result = -1.0;
if ( result > 1.0 ) result = 1.0;
// cout << result << endl;
return result;
}
// scale a number between min and max to a scale from 0.0 to 1.0
static double scale( int min, int max, int value ) {
// cout << center << " " << min << " " << max << " " << value << " ";
double result;
double range;
range = max - min;
result = (value - min) / range;
if ( result < 0.0 ) result = 0.0;
if ( result > 1.0 ) result = 1.0;
// cout << result << endl;
return result;
}
static int tony_magic( int raw, int obs[3] ) {
int result = 0;
obs[0] = raw;
if ( obs[1] < 30 ) {
if ( obs[2] >= 68 && obs[2] < 480 ) {
result = -6;
} else if ( obs[2] >= 480 ) {
result = 6;
}
obs[2] = obs[1];
obs[1] = obs[0];
} else if ( obs[1] < 68 ) {
// do nothing
obs[1] = obs[0];
} else if ( obs[2] < 30 ) {
if ( obs[1] >= 68 && obs[1] < 480 ) {
result = 6;
obs[2] = obs[1];
obs[1] = obs[0];
} else if ( obs[1] >= 480 ) {
result = -6;
if ( obs[0] < obs[1] ) {
obs[2] = obs[1];
obs[1] = obs[0];
} else {
obs[2] = obs[0];
obs[1] = obs[0];
}
}
} else if ( obs[1] > 980 ) {
if ( obs[2] <= 956 && obs[2] > 480 ) {
result = 6;
} else if ( obs[2] <= 480 ) {
result = -6;
}
obs[2] = obs[1];
obs[1] = obs[0];
} else if ( obs[1] > 956 ) {
// do nothing
obs[1] = obs[0];
} else if ( obs[2] > 980 ) {
if ( obs[1] <= 956 && obs[1] > 480 ) {
result = -6;
obs[2] = obs[1];
obs[1] = obs[0];
} else if ( obs[1] <= 480 ) {
result = 6;
if ( obs[0] > obs[1] ) {
obs[2] = obs[1];
obs[1] = obs[0];
} else {
obs[2] = obs[0];
obs[1] = obs[0];
}
}
} else {
if ( obs[1] < 480 && obs[2] > 480 ) {
// crossed gap going up
if ( obs[0] < obs[1] ) {
// caught a bogus intermediate value coming out of the gap
obs[1] = obs[0];
}
} else if ( obs[1] > 480 && obs[2] < 480 ) {
// crossed gap going down
if ( obs[0] > obs[1] ) {
// caught a bogus intermediate value coming out of the gap
obs[1] = obs[0];
}
} else if ( obs[0] > 480 && obs[1] < 480 && obs[2] < 480 ) {
// crossed the gap going down
if ( obs[1] > obs[2] ) {
// caught a bogus intermediate value coming out of the gap
obs[1] = obs[2];
}
} else if ( obs[0] < 480 && obs[1] > 480 && obs[2] > 480 ) {
// crossed the gap going up
if ( obs[1] < obs[2] ) {
// caught a bogus intermediate value coming out of the gap
obs[1] = obs[2];
}
}
result = obs[1] - obs[2];
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if ( abs(result) > 400 ) {
// ignore
result = 0;
}
obs[2] = obs[1];
obs[1] = obs[0];
}
// cout << " result = " << result << endl;
if ( result < -500 ) { result += 1024; }
if ( result > 500 ) { result -= 1024; }
return result;
}
static double instr_pot_filter( double ave, double val ) {
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if ( fabs(ave - val) < 400 || fabs(val) < fabs(ave) ) {
return 0.5 * ave + 0.5 * val;
} else {
return ave;
}
}
bool FGATC610x::do_analog_in() {
// Read raw data in byte form
ATC610xReadAnalogInputs( analog_in_fd, analog_in_bytes );
// Convert to integer values
for ( int channel = 0; channel < ATC_ANAL_IN_VALUES; ++channel ) {
unsigned char hi = analog_in_bytes[2 * channel] & 0x03;
unsigned char lo = analog_in_bytes[2 * channel + 1];
analog_in_data[channel] = hi * 256 + lo;
// printf("%02x %02x ", hi, lo );
// printf("%04d ", value );
}
float tmp;
if ( !ignore_flight_controls->getBoolValue() ) {
// aileron
tmp = scale( ailerons_center->getIntValue(),
ailerons_min->getIntValue(),
ailerons_max->getIntValue(), analog_in_data[0] );
fgSetFloat( "/controls/flight/aileron", tmp );
// cout << "aileron = " << analog_in_data[0] << " = " << tmp;
// elevator
tmp = -scale( elevator_center->getIntValue(),
elevator_min->getIntValue(),
elevator_max->getIntValue(), analog_in_data[5] );
fgSetFloat( "/controls/flight/elevator", tmp );
// cout << "trim = " << analog_in_data[4] << " = " << tmp;
// elevator trim
tmp = scale( trim_center->getIntValue(), trim_min->getIntValue(),
trim_max->getIntValue(), analog_in_data[4] );
fgSetFloat( "/controls/flight/elevator-trim", tmp );
// cout << " elev = " << analog_in_data[5] << " = " << tmp << endl;
// mixture
tmp = scale( mixture_min->getIntValue(), mixture_max->getIntValue(),
analog_in_data[6] );
fgSetFloat( "/controls/engines/engine[0]/mixture", tmp );
fgSetFloat( "/controls/engines/engine[1]/mixture", tmp );
// throttle
tmp = scale( throttle_min->getIntValue(), throttle_max->getIntValue(),
analog_in_data[8] );
fgSetFloat( "/controls/engines/engine[0]/throttle", tmp );
fgSetFloat( "/controls/engines/engine[1]/throttle", tmp );
// cout << "throttle = " << tmp << endl;
if ( use_rudder ) {
// rudder
tmp = scale( rudder_center->getIntValue(),
rudder_min->getIntValue(),
rudder_max->getIntValue(), analog_in_data[10] );
fgSetFloat( "/controls/flight/rudder", -tmp );
// toe brakes
tmp = scale( brake_left_min->getIntValue(),
brake_left_max->getIntValue(),
analog_in_data[20] );
fgSetFloat( "/controls/gear/brake-left", tmp );
tmp = scale( brake_right_min->getIntValue(),
brake_right_max->getIntValue(),
analog_in_data[21] );
fgSetFloat( "/controls/gear/brake-right", tmp );
}
}
// nav1 volume
tmp = (float)analog_in_data[25] / 1024.0f;
fgSetFloat( "/radios/nav[0]/volume", tmp );
// nav2 volume
tmp = (float)analog_in_data[24] / 1024.0f;
fgSetFloat( "/radios/nav[1]/volume", tmp );
// adf volume
tmp = (float)analog_in_data[26] / 1024.0f;
fgSetFloat( "/radios/kr-87/inputs/volume", tmp );
// instrument panel pots
static bool first = true;
static int obs1[3], obs2[3], obs3[3], obs4[3], obs5[3], obs6[3];
static double diff1_ave = 0.0;
static double diff2_ave = 0.0;
static double diff3_ave = 0.0;
static double diff4_ave = 0.0;
static double diff5_ave = 0.0;
static double diff6_ave = 0.0;
if ( first ) {
first = false;
obs1[0] = obs1[1] = obs1[2] = analog_in_data[11];
obs2[0] = obs2[1] = obs2[2] = analog_in_data[28];
obs3[0] = obs3[1] = obs3[2] = analog_in_data[29];
obs4[0] = obs4[1] = obs4[2] = analog_in_data[30];
obs5[0] = obs5[1] = obs5[2] = analog_in_data[31];
obs6[0] = obs6[1] = obs6[2] = analog_in_data[14];
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}
int diff1 = tony_magic( analog_in_data[11], obs1 );
int diff2 = tony_magic( analog_in_data[28], obs2 );
int diff3 = tony_magic( analog_in_data[29], obs3 );
int diff4 = tony_magic( analog_in_data[30], obs4 );
int diff5 = tony_magic( analog_in_data[31], obs5 );
int diff6 = tony_magic( analog_in_data[14], obs6 );
diff1_ave = instr_pot_filter( diff1_ave, diff1 );
diff2_ave = instr_pot_filter( diff2_ave, diff2 );
diff3_ave = instr_pot_filter( diff3_ave, diff3 );
diff4_ave = instr_pot_filter( diff4_ave, diff4 );
diff5_ave = instr_pot_filter( diff5_ave, diff5 );
diff6_ave = instr_pot_filter( diff6_ave, diff6 );
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tmp = alt_press->getDoubleValue() + (diff1_ave * (0.25/888.0) );
if ( tmp < 27.9 ) { tmp = 27.9; }
if ( tmp > 31.4 ) { tmp = 31.4; }
fgSetFloat( "/instrumentation/altimeter/setting-inhg", tmp );
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tmp = ati_bird->getDoubleValue() + (diff2_ave * (20.0/888.0) );
if ( tmp < -10.0 ) { tmp = -10.0; }
if ( tmp > 10.0 ) { tmp = 10.0; }
fgSetFloat( "/instrumentation/attitude-indicator/horizon-offset-deg", tmp );
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tmp = nav1_obs->getDoubleValue() + (diff3_ave * (72.0/888.0) );
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while ( tmp >= 360.0 ) { tmp -= 360.0; }
while ( tmp < 0.0 ) { tmp += 360.0; }
// cout << " obs = " << tmp << endl;
fgSetFloat( "/radios/nav[0]/radials/selected-deg", tmp );
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tmp = nav2_obs->getDoubleValue() + (diff4_ave * (72.0/888.0) );
while ( tmp >= 360.0 ) { tmp -= 360.0; }
while ( tmp < 0.0 ) { tmp += 360.0; }
// cout << " obs = " << tmp << endl;
fgSetFloat( "/radios/nav[1]/radials/selected-deg", tmp );
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tmp = adf_hdg->getDoubleValue() + (diff5_ave * (72.0/888.0) );
while ( tmp >= 360.0 ) { tmp -= 360.0; }
while ( tmp < 0.0 ) { tmp += 360.0; }
// cout << " obs = " << tmp << endl;
fgSetFloat( "/radios/kr-87/inputs/rotation-deg", tmp );
tmp = hdg_bug->getDoubleValue() + (diff6_ave * (72.0/888.0) );
while ( tmp >= 360.0 ) { tmp -= 360.0; }
while ( tmp < 0.0 ) { tmp += 360.0; }
// cout << " obs = " << tmp << endl;
fgSetFloat( "/autopilot/settings/heading-bug-deg", tmp );
return true;
}
/////////////////////////////////////////////////////////////////////
// Write the lights
/////////////////////////////////////////////////////////////////////
bool FGATC610x::do_lights() {
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// Marker beacons
ATC610xSetLamp( lamps_fd, 4, inner->getBoolValue() );
ATC610xSetLamp( lamps_fd, 5, middle->getBoolValue() );
ATC610xSetLamp( lamps_fd, 3, outer->getBoolValue() );
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// ADF annunciators
ATC610xSetLamp( lamps_fd, 11, adf_ant_ann->getBoolValue() ); // ANT
ATC610xSetLamp( lamps_fd, 12, adf_adf_ann->getBoolValue() ); // ADF
ATC610xSetLamp( lamps_fd, 13, adf_bfo_ann->getBoolValue() ); // BFO
ATC610xSetLamp( lamps_fd, 14, adf_frq_ann->getBoolValue() ); // FRQ
ATC610xSetLamp( lamps_fd, 15, adf_flt_ann->getBoolValue() ); // FLT
ATC610xSetLamp( lamps_fd, 16, adf_et_ann->getBoolValue() ); // ET
2002-07-03 04:48:44 +00:00
// Transponder annunciators
ATC610xSetLamp( lamps_fd, 17, xpdr_fl_ann->getBoolValue() ); // FL
ATC610xSetLamp( lamps_fd, 18, xpdr_alt_ann->getBoolValue() ); // ALT
ATC610xSetLamp( lamps_fd, 19, xpdr_gnd_ann->getBoolValue() ); // GND
ATC610xSetLamp( lamps_fd, 20, xpdr_on_ann->getBoolValue() ); // ON
ATC610xSetLamp( lamps_fd, 21, xpdr_sby_ann->getBoolValue() ); // SBY
ATC610xSetLamp( lamps_fd, 22, xpdr_reply_ann->getBoolValue() ); // R
return true;
}
/////////////////////////////////////////////////////////////////////
// Read radio switches
/////////////////////////////////////////////////////////////////////
bool FGATC610x::do_radio_switches() {
double freq, coarse_freq, fine_freq, value;
int diff;
ATC610xReadRadios( radios_fd, radio_switch_data );
// DME Switch
dme_switch = (radio_switch_data[7] >> 4) & 0x03;
if ( dme_switch == 0 ) {
// off
fgSetInt( "/instrumentation/dme/switch-position", 0 );
} else if ( dme_switch == 2 ) {
// nav1
fgSetInt( "/instrumentation/dme/switch-position", 1 );
fgSetString( "/instrumentation/dme/frequencies/source",
"/radios/nav[0]/frequencies/selected-mhz" );
freq = fgGetFloat( "/radios/nav[0]/frequencies/selected-mhz", true );
fgSetFloat( "/instrumentation/dme/frequencies/selected-mhz", freq );
} else if ( dme_switch == 1 ) {
// nav2
fgSetInt( "/instrumentation/dme/switch-position", 3 );
fgSetString( "/instrumentation/dme/frequencies/source",
"/radios/nav[1]/frequencies/selected-mhz" );
freq = fgGetFloat( "/radios/nav[1]/frequencies/selected-mhz", true );
fgSetFloat( "/instrumentation/dme/frequencies/selected-mhz", freq );
}
// NavCom1 Power
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fgSetBool( "/radios/comm[0]/inputs/power-btn",
radio_switch_data[7] & 0x01 );
if ( navcom1_has_power() && comm1_serviceable->getBoolValue() ) {
// Com1 Swap
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int com1_swap = ((radio_switch_data[7] >> 1) & 0x01);
static int last_com1_swap;
if ( com1_swap && (last_com1_swap != com1_swap) ) {
float tmp = com1_freq->getFloatValue();
fgSetFloat( "/radios/comm[0]/frequencies/selected-mhz",
com1_stby_freq->getFloatValue() );
fgSetFloat( "/radios/comm[0]/frequencies/standby-mhz", tmp );
}
last_com1_swap = com1_swap;
}
// NavCom2 Power
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fgSetBool( "/radios/comm[1]/inputs/power-btn",
radio_switch_data[15] & 0x01 );
if ( navcom2_has_power() && comm2_serviceable->getBoolValue() ) {
// Com2 Swap
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int com2_swap = ((radio_switch_data[15] >> 1) & 0x01);
static int last_com2_swap;
if ( com2_swap && (last_com2_swap != com2_swap) ) {
float tmp = com2_freq->getFloatValue();
fgSetFloat( "/radios/comm[1]/frequencies/selected-mhz",
com2_stby_freq->getFloatValue() );
fgSetFloat( "/radios/comm[1]/frequencies/standby-mhz", tmp );
}
last_com2_swap = com2_swap;
}
if ( navcom1_has_power() && nav1_serviceable->getBoolValue() ) {
// Nav1 Swap
int nav1_swap = radio_switch_data[11] & 0x01;
static int last_nav1_swap;
if ( nav1_swap && (last_nav1_swap != nav1_swap) ) {
float tmp = nav1_freq->getFloatValue();
fgSetFloat( "/radios/nav[0]/frequencies/selected-mhz",
nav1_stby_freq->getFloatValue() );
fgSetFloat( "/radios/nav[0]/frequencies/standby-mhz", tmp );
}
last_nav1_swap = nav1_swap;
}
if ( navcom2_has_power() && nav2_serviceable->getBoolValue() ) {
// Nav2 Swap
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int nav2_swap = (radio_switch_data[19] & 0x01);
static int last_nav2_swap;
if ( nav2_swap && (last_nav2_swap != nav2_swap) ) {
float tmp = nav2_freq->getFloatValue();
fgSetFloat( "/radios/nav[1]/frequencies/selected-mhz",
nav2_stby_freq->getFloatValue() );
fgSetFloat( "/radios/nav[1]/frequencies/standby-mhz", tmp );
}
last_nav2_swap = nav2_swap;
}
if ( navcom1_has_power() && comm1_serviceable->getBoolValue() ) {
// Com1 Tuner
int com1_tuner_fine = ((radio_switch_data[5] >> 4) & 0x0f) - 1;
int com1_tuner_coarse = (radio_switch_data[5] & 0x0f) - 1;
static int last_com1_tuner_fine = com1_tuner_fine;
static int last_com1_tuner_coarse = com1_tuner_coarse;
freq = com1_stby_freq->getFloatValue();
coarse_freq = (int)freq;
fine_freq = (int)((freq - coarse_freq) * 40 + 0.5);
if ( com1_tuner_fine != last_com1_tuner_fine ) {
diff = com1_tuner_fine - last_com1_tuner_fine;
if ( abs(diff) > 4 ) {
// roll over
if ( com1_tuner_fine < last_com1_tuner_fine ) {
// going up
diff = 12 - last_com1_tuner_fine + com1_tuner_fine;
} else {
// going down
diff = com1_tuner_fine - 12 - last_com1_tuner_fine;
}
}
fine_freq += diff;
}
while ( fine_freq >= 40.0 ) { fine_freq -= 40.0; }
while ( fine_freq < 0.0 ) { fine_freq += 40.0; }
if ( com1_tuner_coarse != last_com1_tuner_coarse ) {
diff = com1_tuner_coarse - last_com1_tuner_coarse;
if ( abs(diff) > 4 ) {
// roll over
if ( com1_tuner_coarse < last_com1_tuner_coarse ) {
// going up
diff = 12 - last_com1_tuner_coarse + com1_tuner_coarse;
} else {
// going down
diff = com1_tuner_coarse - 12 - last_com1_tuner_coarse;
}
}
coarse_freq += diff;
}
if ( coarse_freq < 118.0 ) { coarse_freq += 19.0; }
if ( coarse_freq > 136.0 ) { coarse_freq -= 19.0; }
last_com1_tuner_fine = com1_tuner_fine;
last_com1_tuner_coarse = com1_tuner_coarse;
fgSetFloat( "/radios/comm[0]/frequencies/standby-mhz",
coarse_freq + fine_freq / 40.0 );
}
if ( navcom2_has_power() && comm2_serviceable->getBoolValue() ) {
// Com2 Tuner
int com2_tuner_fine = ((radio_switch_data[13] >> 4) & 0x0f) - 1;
int com2_tuner_coarse = (radio_switch_data[13] & 0x0f) - 1;
static int last_com2_tuner_fine = com2_tuner_fine;
static int last_com2_tuner_coarse = com2_tuner_coarse;
freq = com2_stby_freq->getFloatValue();
coarse_freq = (int)freq;
fine_freq = (int)((freq - coarse_freq) * 40 + 0.5);
if ( com2_tuner_fine != last_com2_tuner_fine ) {
diff = com2_tuner_fine - last_com2_tuner_fine;
if ( abs(diff) > 4 ) {
// roll over
if ( com2_tuner_fine < last_com2_tuner_fine ) {
// going up
diff = 12 - last_com2_tuner_fine + com2_tuner_fine;
} else {
// going down
diff = com2_tuner_fine - 12 - last_com2_tuner_fine;
}
}
fine_freq += diff;
}
while ( fine_freq >= 40.0 ) { fine_freq -= 40.0; }
while ( fine_freq < 0.0 ) { fine_freq += 40.0; }
if ( com2_tuner_coarse != last_com2_tuner_coarse ) {
diff = com2_tuner_coarse - last_com2_tuner_coarse;
if ( abs(diff) > 4 ) {
// roll over
if ( com2_tuner_coarse < last_com2_tuner_coarse ) {
// going up
diff = 12 - last_com2_tuner_coarse + com2_tuner_coarse;
} else {
// going down
diff = com2_tuner_coarse - 12 - last_com2_tuner_coarse;
}
}
coarse_freq += diff;
}
if ( coarse_freq < 118.0 ) { coarse_freq += 19.0; }
if ( coarse_freq > 136.0 ) { coarse_freq -= 19.0; }
last_com2_tuner_fine = com2_tuner_fine;
last_com2_tuner_coarse = com2_tuner_coarse;
fgSetFloat( "/radios/comm[1]/frequencies/standby-mhz",
coarse_freq + fine_freq / 40.0 );
}
if ( navcom1_has_power() && nav1_serviceable->getBoolValue() ) {
// Nav1 Tuner
int nav1_tuner_fine = ((radio_switch_data[9] >> 4) & 0x0f) - 1;
int nav1_tuner_coarse = (radio_switch_data[9] & 0x0f) - 1;
static int last_nav1_tuner_fine = nav1_tuner_fine;
static int last_nav1_tuner_coarse = nav1_tuner_coarse;
freq = nav1_stby_freq->getFloatValue();
coarse_freq = (int)freq;
fine_freq = (int)((freq - coarse_freq) * 20 + 0.5);
if ( nav1_tuner_fine != last_nav1_tuner_fine ) {
diff = nav1_tuner_fine - last_nav1_tuner_fine;
if ( abs(diff) > 4 ) {
// roll over
if ( nav1_tuner_fine < last_nav1_tuner_fine ) {
// going up
diff = 12 - last_nav1_tuner_fine + nav1_tuner_fine;
} else {
// going down
diff = nav1_tuner_fine - 12 - last_nav1_tuner_fine;
}
}
fine_freq += diff;
}
while ( fine_freq >= 20.0 ) { fine_freq -= 20.0; }
while ( fine_freq < 0.0 ) { fine_freq += 20.0; }
if ( nav1_tuner_coarse != last_nav1_tuner_coarse ) {
diff = nav1_tuner_coarse - last_nav1_tuner_coarse;
if ( abs(diff) > 4 ) {
// roll over
if ( nav1_tuner_coarse < last_nav1_tuner_coarse ) {
// going up
diff = 12 - last_nav1_tuner_coarse + nav1_tuner_coarse;
} else {
// going down
diff = nav1_tuner_coarse - 12 - last_nav1_tuner_coarse;
}
}
coarse_freq += diff;
}
if ( coarse_freq < 108.0 ) { coarse_freq += 10.0; }
if ( coarse_freq > 117.0 ) { coarse_freq -= 10.0; }
last_nav1_tuner_fine = nav1_tuner_fine;
last_nav1_tuner_coarse = nav1_tuner_coarse;
fgSetFloat( "/radios/nav[0]/frequencies/standby-mhz",
coarse_freq + fine_freq / 20.0 );
}
if ( navcom2_has_power() && nav2_serviceable->getBoolValue() ) {
// Nav2 Tuner
int nav2_tuner_fine = ((radio_switch_data[17] >> 4) & 0x0f) - 1;
int nav2_tuner_coarse = (radio_switch_data[17] & 0x0f) - 1;
static int last_nav2_tuner_fine = nav2_tuner_fine;
static int last_nav2_tuner_coarse = nav2_tuner_coarse;
freq = nav2_stby_freq->getFloatValue();
coarse_freq = (int)freq;
fine_freq = (int)((freq - coarse_freq) * 20 + 0.5);
if ( nav2_tuner_fine != last_nav2_tuner_fine ) {
diff = nav2_tuner_fine - last_nav2_tuner_fine;
if ( abs(diff) > 4 ) {
// roll over
if ( nav2_tuner_fine < last_nav2_tuner_fine ) {
// going up
diff = 12 - last_nav2_tuner_fine + nav2_tuner_fine;
} else {
// going down
diff = nav2_tuner_fine - 12 - last_nav2_tuner_fine;
}
}
fine_freq += diff;
}
while ( fine_freq >= 20.0 ) { fine_freq -= 20.0; }
while ( fine_freq < 0.0 ) { fine_freq += 20.0; }
if ( nav2_tuner_coarse != last_nav2_tuner_coarse ) {
diff = nav2_tuner_coarse - last_nav2_tuner_coarse;
if ( abs(diff) > 4 ) {
// roll over
if ( nav2_tuner_coarse < last_nav2_tuner_coarse ) {
// going up
diff = 12 - last_nav2_tuner_coarse + nav2_tuner_coarse;
} else {
// going down
diff = nav2_tuner_coarse - 12 - last_nav2_tuner_coarse;
}
}
coarse_freq += diff;
}
if ( coarse_freq < 108.0 ) { coarse_freq += 10.0; }
if ( coarse_freq > 117.0 ) { coarse_freq -= 10.0; }
last_nav2_tuner_fine = nav2_tuner_fine;
last_nav2_tuner_coarse = nav2_tuner_coarse;
fgSetFloat( "/radios/nav[1]/frequencies/standby-mhz",
coarse_freq + fine_freq / 20.0);
}
// ADF Tuner
int adf_tuner_fine = ((radio_switch_data[21] >> 4) & 0x0f) - 1;
int adf_tuner_coarse = (radio_switch_data[21] & 0x0f) - 1;
static int last_adf_tuner_fine = adf_tuner_fine;
static int last_adf_tuner_coarse = adf_tuner_coarse;
if ( adf_has_power() && adf_serviceable->getBoolValue() ) {
// cout << "adf_stby_mode = " << adf_stby_mode->getIntValue() << endl;
if ( adf_count_mode->getIntValue() == 2 ) {
// tune count down timer
value = adf_elapsed_timer->getDoubleValue();
} else {
// tune frequency
if ( adf_stby_mode->getIntValue() == 1 ) {
value = adf_freq->getFloatValue();
} else {
value = adf_stby_freq->getFloatValue();
}
}
if ( adf_tuner_fine != last_adf_tuner_fine ) {
diff = adf_tuner_fine - last_adf_tuner_fine;
if ( abs(diff) > 4 ) {
// roll over
if ( adf_tuner_fine < last_adf_tuner_fine ) {
// going up
diff = 12 - last_adf_tuner_fine + adf_tuner_fine;
} else {
// going down
diff = adf_tuner_fine - 12 - last_adf_tuner_fine;
}
}
value += diff;
}
if ( adf_tuner_coarse != last_adf_tuner_coarse ) {
diff = adf_tuner_coarse - last_adf_tuner_coarse;
if ( abs(diff) > 4 ) {
// roll over
if ( adf_tuner_coarse < last_adf_tuner_coarse ) {
// going up
diff = 12 - last_adf_tuner_coarse + adf_tuner_coarse;
} else {
// going down
diff = adf_tuner_coarse - 12 - last_adf_tuner_coarse;
}
}
if ( adf_count_mode->getIntValue() == 2 ) {
value += 60 * diff;
} else {
value += 25 * diff;
}
}
if ( adf_count_mode->getIntValue() == 2 ) {
if ( value < 0 ) { value += 3600; }
if ( value > 3599 ) { value -= 3600; }
} else {
if ( value < 200 ) { value += 1600; }
if ( value > 1799 ) { value -= 1600; }
}
if ( adf_count_mode->getIntValue() == 2 ) {
fgSetFloat( "/radios/kr-87/outputs/elapsed-timer", value );
} else {
if ( adf_stby_mode->getIntValue() == 1 ) {
fgSetFloat( "/radios/kr-87/outputs/selected-khz", value );
} else {
fgSetFloat( "/radios/kr-87/outputs/standby-khz", value );
}
}
}
last_adf_tuner_fine = adf_tuner_fine;
last_adf_tuner_coarse = adf_tuner_coarse;
// ADF buttons
fgSetInt( "/radios/kr-87/inputs/adf-btn",
2004-06-09 00:49:04 +00:00
(radio_switch_data[23] & 0x01) );
fgSetInt( "/radios/kr-87/inputs/bfo-btn",
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(radio_switch_data[23] >> 1 & 0x01) );
2003-08-28 20:52:05 +00:00
#ifdef CURT_HARDWARE
fgSetInt( "/radios/kr-87/inputs/frq-btn",
!(radio_switch_data[23] >> 2 & 0x01) );
2003-08-28 20:52:05 +00:00
#else
fgSetInt( "/radios/kr-87/inputs/frq-btn",
(radio_switch_data[23] >> 2 & 0x01) );
#endif
fgSetInt( "/radios/kr-87/inputs/flt-et-btn",
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(radio_switch_data[23] >> 3 & 0x01) );
fgSetInt( "/radios/kr-87/inputs/set-rst-btn",
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(radio_switch_data[23] >> 4 & 0x01) );
fgSetInt( "/radios/kr-87/inputs/power-btn",
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radio_switch_data[23] >> 5 & 0x01 );
/* cout << "adf = " << !(radio_switch_data[23] & 0x01)
<< " bfo = " << !(radio_switch_data[23] >> 1 & 0x01)
<< " frq = " << !(radio_switch_data[23] >> 2 & 0x01)
<< " flt/et = " << !(radio_switch_data[23] >> 3 & 0x01)
<< " set/rst = " << !(radio_switch_data[23] >> 4 & 0x01)
<< endl; */
// Transponder Tuner
int i;
int digit_tuner[4];
digit_tuner[0] = radio_switch_data[25] & 0x0f;
digit_tuner[1] = ( radio_switch_data[25] >> 4 ) & 0x0f;
digit_tuner[2] = radio_switch_data[29] & 0x0f;
digit_tuner[3] = ( radio_switch_data[29] >> 4 ) & 0x0f;
static int last_digit_tuner[4];
static bool first_time = true;
if ( first_time ) {
first_time = false;
for ( i = 0; i < 4; ++i ) {
last_digit_tuner[i] = digit_tuner[i];
}
}
if ( xpdr_has_power() && xpdr_serviceable->getBoolValue() ) {
int id_code = xpdr_id_code->getIntValue();
int digit[4];
int place = 1000;
for ( i = 0; i < 4; ++i ) {
digit[i] = id_code / place;
id_code -= digit[i] * place;
place /= 10;
}
for ( i = 0; i < 4; ++i ) {
if ( digit_tuner[i] != last_digit_tuner[i] ) {
diff = digit_tuner[i] - last_digit_tuner[i];
if ( abs(diff) > 4 ) {
// roll over
if ( digit_tuner[i] < last_digit_tuner[i] ) {
// going up
diff = 16 - last_digit_tuner[i] + digit_tuner[i];
} else {
// going down
diff = digit_tuner[i] - 16 - last_digit_tuner[i];
}
}
digit[i] += diff;
}
while ( digit[i] >= 8 ) { digit[i] -= 8; }
while ( digit[i] < 0 ) { digit[i] += 8; }
}
fgSetInt( "/radios/kt-70/inputs/digit1", digit[0] );
fgSetInt( "/radios/kt-70/inputs/digit2", digit[1] );
fgSetInt( "/radios/kt-70/inputs/digit3", digit[2] );
fgSetInt( "/radios/kt-70/inputs/digit4", digit[3] );
}
for ( i = 0; i < 4; ++i ) {
last_digit_tuner[i] = digit_tuner[i];
}
int tmp = 0;
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for ( i = 0; i < 5; ++i ) {
if ( radio_switch_data[27] >> i & 0x01 ) {
tmp = i + 1;
}
}
fgSetInt( "/radios/kt-70/inputs/func-knob", tmp );
fgSetInt( "/radios/kt-70/inputs/ident-btn",
!(radio_switch_data[27] >> 5 & 0x01) );
// Audio panel switches
fgSetInt( "/radios/nav[0]/audio-btn",
(radio_switch_data[3] & 0x01) );
fgSetInt( "/radios/nav[1]/audio-btn",
(radio_switch_data[3] >> 2 & 0x01) );
fgSetInt( "/radios/kr-87/inputs/audio-btn",
(radio_switch_data[3] >> 4 & 0x01) );
fgSetInt( "/radios/marker-beacon/audio-btn",
(radio_switch_data[3] >> 6 & 0x01) );
return true;
}
/////////////////////////////////////////////////////////////////////
// Update the radio display
/////////////////////////////////////////////////////////////////////
bool FGATC610x::do_radio_display() {
char digits[10];
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int i;
if ( dme_has_power() && dme_serviceable->getBoolValue() ) {
if ( dme_in_range->getBoolValue() ) {
// DME minutes
float minutes = dme_min->getFloatValue();
if ( minutes > 999 ) {
minutes = 999.0;
}
snprintf(digits, 7, "%03.0f", minutes);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[0] = digits[1] << 4 | digits[2];
radio_display_data[1] = 0xf0 | digits[0];
// DME knots
float knots = dme_kt->getFloatValue();
if ( knots > 999 ) {
knots = 999.0;
}
snprintf(digits, 7, "%03.0f", knots);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[2] = digits[1] << 4 | digits[2];
radio_display_data[3] = 0xf0 | digits[0];
// DME distance (nm)
float nm = dme_nm->getFloatValue();
if ( nm > 99 ) {
nm = 99.0;
}
snprintf(digits, 7, "%04.1f", nm);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[4] = digits[1] << 4 | digits[3];
radio_display_data[5] = 0x00 | digits[0];
// the 0x00 in the upper nibble of the 6th byte of each
// display turns on the decimal point
} else {
// out of range
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radio_display_data[0] = 0xbb;
radio_display_data[1] = 0xfb;
radio_display_data[2] = 0xbb;
radio_display_data[3] = 0xfb;
radio_display_data[4] = 0xbb;
radio_display_data[5] = 0x0b;
}
} else {
// blank dem display
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for ( i = 0; i < 6; ++i ) {
radio_display_data[i] = 0xff;
}
}
if ( navcom1_has_power() && comm1_serviceable->getBoolValue() ) {
// Com1 standby frequency
float com1_stby = com1_stby_freq->getFloatValue();
if ( fabs(com1_stby) > 999.99 ) {
com1_stby = 0.0;
}
snprintf(digits, 7, "%06.3f", com1_stby);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[6] = digits[4] << 4 | digits[5];
radio_display_data[7] = digits[1] << 4 | digits[2];
radio_display_data[8] = 0xf0 | digits[0];
// Com1 in use frequency
float com1 = com1_freq->getFloatValue();
if ( fabs(com1) > 999.99 ) {
com1 = 0.0;
}
snprintf(digits, 7, "%06.3f", com1);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[9] = digits[4] << 4 | digits[5];
radio_display_data[10] = digits[1] << 4 | digits[2];
radio_display_data[11] = 0x00 | digits[0];
// the 0x00 in the upper nibble of the 6th byte of each display
// turns on the decimal point
} else {
radio_display_data[6] = 0xff;
radio_display_data[7] = 0xff;
radio_display_data[8] = 0xff;
radio_display_data[9] = 0xff;
radio_display_data[10] = 0xff;
radio_display_data[11] = 0xff;
}
if ( navcom2_has_power() && comm2_serviceable->getBoolValue() ) {
// Com2 standby frequency
float com2_stby = com2_stby_freq->getFloatValue();
if ( fabs(com2_stby) > 999.99 ) {
com2_stby = 0.0;
}
snprintf(digits, 7, "%06.3f", com2_stby);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[18] = digits[4] << 4 | digits[5];
radio_display_data[19] = digits[1] << 4 | digits[2];
radio_display_data[20] = 0xf0 | digits[0];
// Com2 in use frequency
float com2 = com2_freq->getFloatValue();
if ( fabs(com2) > 999.99 ) {
com2 = 0.0;
}
snprintf(digits, 7, "%06.3f", com2);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[21] = digits[4] << 4 | digits[5];
radio_display_data[22] = digits[1] << 4 | digits[2];
radio_display_data[23] = 0x00 | digits[0];
// the 0x00 in the upper nibble of the 6th byte of each display
// turns on the decimal point
} else {
radio_display_data[18] = 0xff;
radio_display_data[19] = 0xff;
radio_display_data[20] = 0xff;
radio_display_data[21] = 0xff;
radio_display_data[22] = 0xff;
radio_display_data[23] = 0xff;
}
if ( navcom1_has_power() && nav1_serviceable->getBoolValue() ) {
// Nav1 standby frequency
float nav1_stby = nav1_stby_freq->getFloatValue();
if ( fabs(nav1_stby) > 999.99 ) {
nav1_stby = 0.0;
}
snprintf(digits, 7, "%06.2f", nav1_stby);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[12] = digits[4] << 4 | digits[5];
radio_display_data[13] = digits[1] << 4 | digits[2];
radio_display_data[14] = 0xf0 | digits[0];
// Nav1 in use frequency
float nav1 = nav1_freq->getFloatValue();
if ( fabs(nav1) > 999.99 ) {
nav1 = 0.0;
}
snprintf(digits, 7, "%06.2f", nav1);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[15] = digits[4] << 4 | digits[5];
radio_display_data[16] = digits[1] << 4 | digits[2];
radio_display_data[17] = 0x00 | digits[0];
// the 0x00 in the upper nibble of the 6th byte of each display
// turns on the decimal point
} else {
radio_display_data[12] = 0xff;
radio_display_data[13] = 0xff;
radio_display_data[14] = 0xff;
radio_display_data[15] = 0xff;
radio_display_data[16] = 0xff;
radio_display_data[17] = 0xff;
}
if ( navcom2_has_power() && nav2_serviceable->getBoolValue() ) {
// Nav2 standby frequency
float nav2_stby = nav2_stby_freq->getFloatValue();
if ( fabs(nav2_stby) > 999.99 ) {
nav2_stby = 0.0;
}
snprintf(digits, 7, "%06.2f", nav2_stby);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[24] = digits[4] << 4 | digits[5];
radio_display_data[25] = digits[1] << 4 | digits[2];
radio_display_data[26] = 0xf0 | digits[0];
// Nav2 in use frequency
float nav2 = nav2_freq->getFloatValue();
if ( fabs(nav2) > 999.99 ) {
nav2 = 0.0;
}
snprintf(digits, 7, "%06.2f", nav2);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[27] = digits[4] << 4 | digits[5];
radio_display_data[28] = digits[1] << 4 | digits[2];
radio_display_data[29] = 0x00 | digits[0];
// the 0x00 in the upper nibble of the 6th byte of each display
// turns on the decimal point
} else {
radio_display_data[24] = 0xff;
radio_display_data[25] = 0xff;
radio_display_data[26] = 0xff;
radio_display_data[27] = 0xff;
radio_display_data[28] = 0xff;
radio_display_data[29] = 0xff;
}
// ADF standby frequency / timer
if ( adf_has_power() && adf_serviceable->getBoolValue() ) {
if ( adf_stby_mode->getIntValue() == 0 ) {
// frequency
float adf_stby = adf_stby_freq->getFloatValue();
if ( fabs(adf_stby) > 1799 ) {
adf_stby = 1799;
}
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snprintf(digits, 7, "%04.0f", adf_stby);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[30] = digits[3] << 4 | 0x0f;
radio_display_data[31] = digits[1] << 4 | digits[2];
if ( digits[0] == 0 ) {
radio_display_data[32] = 0xff;
} else {
radio_display_data[32] = 0xf0 | digits[0];
}
} else {
// timer
double time;
int hours, min, sec;
if ( adf_timer_mode->getIntValue() == 0 ) {
time = adf_flight_timer->getDoubleValue();
} else {
time = adf_elapsed_timer->getDoubleValue();
}
// cout << time << endl;
hours = (int)(time / 3600.0);
time -= hours * 3600.00;
min = (int)(time / 60.0);
time -= min * 60.0;
sec = (int)time;
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int big, little;
if ( hours > 0 ) {
big = hours;
if ( big > 99 ) {
big = 99;
}
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little = min;
} else {
big = min;
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little = sec;
}
if ( big > 99 ) {
big = 99;
}
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// cout << big << ":" << little << endl;
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snprintf(digits, 7, "%02d%02d", big, little);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[30] = digits[2] << 4 | digits[3];
radio_display_data[31] = digits[0] << 4 | digits[1];
radio_display_data[32] = 0xff;
}
// ADF in use frequency
float adf = adf_freq->getFloatValue();
if ( fabs(adf) > 1799 ) {
adf = 1799;
}
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snprintf(digits, 7, "%04.0f", adf);
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[33] = digits[2] << 4 | digits[3];
if ( digits[0] == 0 ) {
radio_display_data[34] = 0xf0 | digits[1];
} else {
radio_display_data[34] = digits[0] << 4 | digits[1];
}
if ( adf_stby_mode->getIntValue() == 0 ) {
radio_display_data[35] = 0xff;
} else {
radio_display_data[35] = 0x0f;
}
} else {
radio_display_data[30] = 0xff;
radio_display_data[31] = 0xff;
radio_display_data[32] = 0xff;
radio_display_data[33] = 0xff;
radio_display_data[34] = 0xff;
radio_display_data[35] = 0xff;
}
// Transponder code and flight level
if ( xpdr_has_power() && xpdr_serviceable->getBoolValue() ) {
if ( xpdr_func_knob->getIntValue() == 2 ) {
// test mode
radio_display_data[36] = 8 << 4 | 8;
radio_display_data[37] = 8 << 4 | 8;
radio_display_data[38] = 0xff;
radio_display_data[39] = 8 << 4 | 0x0f;
radio_display_data[40] = 8 << 4 | 8;
} else {
// other on modes
int id_code = xpdr_id_code->getIntValue();
int place = 1000;
for ( i = 0; i < 4; ++i ) {
digits[i] = id_code / place;
id_code -= digits[i] * place;
place /= 10;
}
radio_display_data[36] = digits[2] << 4 | digits[3];
radio_display_data[37] = digits[0] << 4 | digits[1];
radio_display_data[38] = 0xff;
if ( xpdr_func_knob->getIntValue() == 3 ||
xpdr_func_knob->getIntValue() == 5 )
{
// do flight level display
snprintf(digits, 7, "%03d", xpdr_flight_level->getIntValue() );
for ( i = 0; i < 6; ++i ) {
digits[i] -= '0';
}
radio_display_data[39] = digits[2] << 4 | 0x0f;
radio_display_data[40] = digits[0] << 4 | digits[1];
} else {
// blank flight level display
radio_display_data[39] = 0xff;
radio_display_data[40] = 0xff;
}
}
} else {
// off
radio_display_data[36] = 0xff;
radio_display_data[37] = 0xff;
radio_display_data[38] = 0xff;
radio_display_data[39] = 0xff;
radio_display_data[40] = 0xff;
}
ATC610xSetRadios( radios_fd, radio_display_data );
return true;
}
/////////////////////////////////////////////////////////////////////
// Drive the stepper motors
/////////////////////////////////////////////////////////////////////
bool FGATC610x::do_steppers() {
float diff = mag_compass->getFloatValue() - compass_position;
while ( diff < -180.0 ) { diff += 360.0; }
while ( diff > 180.0 ) { diff -= 360.0; }
int steps = (int)(diff * 4);
// cout << "steps = " << steps << endl;
if ( steps > 4 ) { steps = 4; }
if ( steps < -4 ) { steps = -4; }
if ( abs(steps) > 0 ) {
unsigned char cmd = 0x80; // stepper command
if ( steps > 0 ) {
cmd |= 0x20; // go up
} else {
cmd |= 0x00; // go down
}
cmd |= abs(steps);
// sync compass_position with hardware position
compass_position += (float)steps / 4.0;
ATC610xSetStepper( stepper_fd, ATC_COMPASS_CH, cmd );
}
return true;
}
/////////////////////////////////////////////////////////////////////
// Read the switch positions
/////////////////////////////////////////////////////////////////////
// decode the packed switch data
static void update_switch_matrix(
int board,
unsigned char switch_data[ATC_SWITCH_BYTES],
int switch_matrix[2][ATC_NUM_COLS][ATC_SWITCH_BYTES] )
{
for ( int row = 0; row < ATC_SWITCH_BYTES; ++row ) {
unsigned char switches = switch_data[row];
for( int column = 0; column < ATC_NUM_COLS; ++column ) {
switch_matrix[board][column][row] = switches & 1;
switches = switches >> 1;
}
}
}
bool FGATC610x::do_switches() {
ATC610xReadSwitches( switches_fd, switch_data );
// unpack the switch data
int switch_matrix[2][ATC_NUM_COLS][ATC_SWITCH_BYTES];
update_switch_matrix( board, switch_data, switch_matrix );
// master switches
fgSetBool( "/controls/engines/engine[0]/master-bat",
switch_matrix[board][4][1] );
fgSetBool( "/controls/engines/engine[1]/master-bat",
switch_matrix[board][4][1] );
fgSetBool( "/controls/engines/engine[0]/master-alt",
switch_matrix[board][5][1] );
fgSetBool( "/controls/engines/engine[1]/master-alt",
switch_matrix[board][5][1] );
fgSetBool( "/controls/switches/master-avionics",
switch_matrix[board][0][3] );
if ( !ignore_flight_controls->getBoolValue() ) {
// magnetos and starter switch
int magnetos = 0;
bool starter = false;
if ( switch_matrix[board][3][1] == 1 ) {
magnetos = 3;
starter = true;
} else if ( switch_matrix[board][2][1] == 1 ) {
magnetos = 3;
starter = false;
} else if ( switch_matrix[board][1][1] == 1 ) {
magnetos = 2;
starter = false;
} else if ( switch_matrix[board][0][1] == 1 ) {
magnetos = 1;
starter = false;
} else {
magnetos = 0;
starter = false;
}
// do a bit of filtering on the magneto/starter switch and the
// flap lever because these are not well debounced in hardware
static int mag1, mag2, mag3;
mag3 = mag2;
mag2 = mag1;
mag1 = magnetos;
if ( mag1 == mag2 && mag2 == mag3 ) {
fgSetInt( "/controls/engines/engine[0]/magnetos", magnetos );
fgSetInt( "/controls/engines/engine[1]/magnetos", magnetos );
}
static bool start1, start2, start3;
start3 = start2;
start2 = start1;
start1 = starter;
if ( start1 == start2 && start2 == start3 ) {
fgSetBool( "/controls/engines/engine[0]/starter", starter );
fgSetBool( "/controls/engines/engine[1]/starter", starter );
}
}
// other toggle switches
fgSetBool( "/controls/engines/engine[0]/fuel-pump",
switch_matrix[board][0][2] );
fgSetBool( "/controls/engines/engine[1]/fuel-pump",
switch_matrix[board][0][2] );
fgSetBool( "/controls/switches/flashing-beacon",
switch_matrix[board][1][2] );
fgSetBool( "/controls/switches/landing-light", switch_matrix[board][2][2] );
fgSetBool( "/controls/switches/taxi-lights", switch_matrix[board][3][2] );
fgSetBool( "/controls/switches/nav-lights",
switch_matrix[board][4][2] );
fgSetBool( "/controls/switches/strobe-lights", switch_matrix[board][5][2] );
fgSetBool( "/controls/switches/pitot-heat", switch_matrix[board][6][2] );
// flaps
if ( !ignore_flight_controls->getBoolValue() ) {
float flaps = 0.0;
if ( switch_matrix[board][6][3] ) {
flaps = 1.0;
} else if ( switch_matrix[board][5][3] ) {
flaps = 2.0 / 3.0;
} else if ( switch_matrix[board][4][3] ) {
flaps = 1.0 / 3.0;
} else if ( !switch_matrix[board][4][3] ) {
flaps = 0.0;
}
// do a bit of filtering on the magneto/starter switch and the
// flap lever because these are not well debounced in hardware
static float flap1, flap2, flap3;
flap3 = flap2;
flap2 = flap1;
flap1 = flaps;
if ( flap1 == flap2 && flap2 == flap3 ) {
fgSetFloat( "/controls/flight/flaps", flaps );
}
}
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// fuel selector (also filtered)
int fuel = 0;
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if ( switch_matrix[board][2][3] ) {
// both
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fuel = 3;
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} else if ( switch_matrix[board][1][3] ) {
// left
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fuel = 1;
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} else if ( switch_matrix[board][3][3] ) {
// right
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fuel = 2;
} else {
// fuel cutoff
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fuel = 0;
}
const int max_fuel = 60;
static int fuel_list[max_fuel];
int i;
for ( i = max_fuel - 1; i >= 0; --i ) {
fuel_list[i+1] = fuel_list[i];
}
fuel_list[0] = fuel;
bool all_same = true;
for ( i = 0; i < max_fuel - 1; ++i ) {
if ( fuel_list[i] != fuel_list[i+1] ) {
all_same = false;
}
}
if ( all_same ) {
2003-06-27 20:06:11 +00:00
fgSetBool( "/controls/fuel/tank[0]/fuel_selector", (fuel & 0x01) > 0 );
fgSetBool( "/controls/fuel/tank[1]/fuel_selector", (fuel & 0x02) > 0 );
}
// circuit breakers
#ifdef ATC_SUPPORT_CIRCUIT_BREAKERS_NOT_THE_DEFAULT
fgSetBool( "/controls/circuit-breakers/cabin-lights-pwr",
switch_matrix[board][0][0] );
fgSetBool( "/controls/circuit-breakers/instr-ignition-switch",
switch_matrix[board][1][0] );
fgSetBool( "/controls/circuit-breakers/flaps",
switch_matrix[board][2][0] );
fgSetBool( "/controls/circuit-breakers/avn-bus-1",
switch_matrix[board][3][0] );
fgSetBool( "/controls/circuit-breakers/avn-bus-2",
switch_matrix[board][4][0] );
fgSetBool( "/controls/circuit-breakers/turn-coordinator",
switch_matrix[board][5][0] );
fgSetBool( "/controls/circuit-breakers/instrument-lights",
switch_matrix[board][6][0] );
fgSetBool( "/controls/circuit-breakers/annunciators",
switch_matrix[board][7][0] );
#else
fgSetBool( "/controls/circuit-breakers/cabin-lights-pwr", true );
fgSetBool( "/controls/circuit-breakers/instr-ignition-switch", true );
fgSetBool( "/controls/circuit-breakers/flaps", true );
fgSetBool( "/controls/circuit-breakers/avn-bus-1", true );
fgSetBool( "/controls/circuit-breakers/avn-bus-2", true );
fgSetBool( "/controls/circuit-breakers/turn-coordinator", true );
fgSetBool( "/controls/circuit-breakers/instrument-lights", true );
fgSetBool( "/controls/circuit-breakers/annunciators", true );
#endif
if ( !ignore_flight_controls->getBoolValue() ) {
fgSetDouble( "/controls/gear/brake-parking",
switch_matrix[board][7][3] );
}
fgSetDouble( "/radios/marker-beacon/power-btn",
switch_matrix[board][6][1] );
return true;
}
bool FGATC610x::process() {
// Lock the hardware, skip if it's not ready yet
if ( ATC610xLock( lock_fd ) > 0 ) {
do_analog_in();
do_lights();
do_radio_switches();
do_radio_display();
do_steppers();
do_switches();
ATC610xRelease( lock_fd );
return true;
} else {
return false;
}
}
bool FGATC610x::close() {
return true;
}