ardupilot/Tools/ArdupilotMegaPlanner/CurrentState.cs

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using System;
using System.Collections.Generic;
using System.Reflection;
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using System.Text;
using System.ComponentModel;
using ArdupilotMega.Utilities;
using log4net;
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namespace ArdupilotMega
{
public class CurrentState : ICloneable
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{
private static readonly ILog log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
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// multipliers
public float multiplierdist = 1;
public float multiplierspeed = 1;
// orientation - rads
public float roll { get; set; }
public float pitch { get; set; }
public float yaw { get { return _yaw; } set { if (value < 0) { _yaw = value + 360; } else { _yaw = value; } } }
private float _yaw = 0;
public float groundcourse { get { return _groundcourse; } set { if (value < 0) { _groundcourse = value + 360; } else { _groundcourse = value; } } }
private float _groundcourse = 0;
/// <summary>
/// time over target in seconds
/// </summary>
public int tot { get { if (groundspeed <= 0) return 0; return (int)(wp_dist / groundspeed); } }
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// speeds
public float airspeed { get { return _airspeed * multiplierspeed; } set { _airspeed = value; } }
public float groundspeed { get { return _groundspeed * multiplierspeed; } set { _groundspeed = value; } }
float _airspeed;
float _groundspeed;
float _verticalspeed;
public float verticalspeed { get { if (float.IsNaN(_verticalspeed)) _verticalspeed = 0; return _verticalspeed; } set { _verticalspeed = _verticalspeed * 0.8f + value * 0.2f; } }
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public float wind_dir { get; set; }
public float wind_vel { get; set; }
/// <summary>
/// used in wind calc
/// </summary>
double Wn_fgo;
/// <summary>
/// used for wind calc
/// </summary>
double We_fgo;
//(alt_now - alt_then)/(time_now-time_then)
// position
public float lat { get; set; }
public float lng { get; set; }
public float alt { get { return (_alt - altoffsethome) * multiplierdist; } set { _alt = value; } }
DateTime lastalt = DateTime.Now;
float oldalt = 0;
public float altoffsethome { get; set; }
private float _alt = 0;
public float gpsstatus { get; set; }
public float gpshdop { get; set; }
public float satcount { get; set; }
public float altd1000 { get { return (alt / 1000) % 10; } }
public float altd100 { get { return (alt / 100) % 10; } }
// accel
public float ax { get; set; }
public float ay { get; set; }
public float az { get; set; }
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// gyro
public float gx { get; set; }
public float gy { get; set; }
public float gz { get; set; }
// mag
public float mx { get; set; }
public float my { get; set; }
public float mz { get; set; }
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public float magfield { get { return (float)Math.Sqrt(Math.Pow(mx, 2) + Math.Pow(my, 2) + Math.Pow(mz, 2)); } }
public float accelsq { get { return (float)Math.Sqrt(Math.Pow(ax, 2) + Math.Pow(ay, 2) + Math.Pow(az, 2)) / 1000.0f /*980.665f*/; } }
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// calced turn rate
public float turnrate { get { if (groundspeed <= 1) return 0; return (roll * 9.8f) / groundspeed; } }
// turn radius
public float radius { get { if (groundspeed <= 1) return 0; return ((groundspeed * groundspeed)/(float)(9.8f*Math.Tan(roll * deg2rad))); } }
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//radio
public float ch1in { get; set; }
public float ch2in { get; set; }
public float ch3in { get; set; }
public float ch4in { get; set; }
public float ch5in { get; set; }
public float ch6in { get; set; }
public float ch7in { get; set; }
public float ch8in { get; set; }
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// motors
public float ch1out { get; set; }
public float ch2out { get; set; }
public float ch3out { get; set; }
public float ch4out { get; set; }
public float ch5out { get; set; }
public float ch6out { get; set; }
public float ch7out { get; set; }
public float ch8out { get; set; }
public float ch3percent
{
get
{
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try
{
if (MainV2.comPort.param.ContainsKey("RC3_MIN"))
{
return (int)((ch3out - float.Parse(MainV2.comPort.param["RC3_MIN"].ToString())) / (float.Parse(MainV2.comPort.param["RC3_MAX"].ToString()) - float.Parse(MainV2.comPort.param["RC3_MIN"].ToString())) * 100);
}
else
{
return 0;
}
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}
catch
{
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return 0;
}
}
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}
//nav state
public float nav_roll { get; set; }
public float nav_pitch { get; set; }
public float nav_bearing { get; set; }
public float target_bearing { get; set; }
public float wp_dist { get { return (_wpdist * multiplierdist); } set { _wpdist = value; } }
public float alt_error { get { return _alt_error * multiplierdist; } set { if (_alt_error == value) return; _alt_error = value; _targetalt = _targetalt * 0.5f + (float)Math.Round(alt + alt_error, 0) * 0.5f; } }
public float ber_error { get { return (target_bearing - yaw); } set { } }
public float aspd_error { get { return _aspd_error * multiplierspeed; } set { if (_aspd_error == value) return; _aspd_error = value; _targetairspeed = _targetairspeed * 0.5f + (float)Math.Round(airspeed + aspd_error / 100, 0) * 0.5f; } }
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public float xtrack_error { get; set; }
public float wpno { get; set; }
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public string mode { get; set; }
public float climbrate { get; set; }
float _wpdist;
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float _aspd_error;
float _alt_error;
float _targetalt;
float _targetairspeed;
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public float targetaltd100 { get { return (_targetalt / 100) % 10; } }
public float targetalt { get { return _targetalt; } }
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//airspeed_error = (airspeed_error - airspeed);
public float targetairspeed { get { return _targetairspeed; } }
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//message
public List<string> messages { get; set; }
public string message { get { if (messages.Count == 0) return ""; return messages[messages.Count - 1]; } set { } }
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//battery
public float battery_voltage { get { return _battery_voltage; } set { _battery_voltage = value / 1000; } }
private float _battery_voltage;
public float battery_remaining { get { return _battery_remaining; } set { _battery_remaining = value / 100; if (_battery_remaining < 0 || _battery_remaining > 1) _battery_remaining = 0; } }
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private float _battery_remaining;
public float current { get { return _current; } set { _current = value / 100; } }
private float _current;
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// pressure
public float press_abs { get; set; }
public int press_temp { get; set; }
// sensor offsets
public int mag_ofs_x { get; set; }
public int mag_ofs_y { get; set; }
public int mag_ofs_z { get; set; }
public float mag_declination { get; set; }
public int raw_press { get; set; }
public int raw_temp { get; set; }
public float gyro_cal_x { get; set; }
public float gyro_cal_y { get; set; }
public float gyro_cal_z { get; set; }
public float accel_cal_x { get; set; }
public float accel_cal_y { get; set; }
public float accel_cal_z { get; set; }
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// HIL
public int hilch1 { get; set; }
public int hilch2 { get; set; }
public int hilch3 { get; set; }
public int hilch4 { get; set; }
public int hilch5;
public int hilch6;
public int hilch7;
public int hilch8;
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// rc override
public ushort rcoverridech1 { get; set; }
public ushort rcoverridech2 { get; set; }
public ushort rcoverridech3 { get; set; }
public ushort rcoverridech4 { get; set; }
public ushort rcoverridech5 { get; set; }
public ushort rcoverridech6 { get; set; }
public ushort rcoverridech7 { get; set; }
public ushort rcoverridech8 { get; set; }
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public float HomeAlt { get { return (float)HomeLocation.Alt; } set { } }
internal PointLatLngAlt HomeLocation = new PointLatLngAlt();
PointLatLngAlt _trackerloc = new PointLatLngAlt();
internal PointLatLngAlt TrackerLocation { get { if (_trackerloc.Lng != 0) return _trackerloc; return HomeLocation; } set { _trackerloc = value; } }
internal PointLatLngAlt GuidedModeWP = new PointLatLngAlt();
public float DistToMAV
{
get
{
// shrinking factor for longitude going to poles direction
double rads = Math.Abs(TrackerLocation.Lat) * 0.0174532925;
double scaleLongDown = Math.Cos(rads);
double scaleLongUp = 1.0f / Math.Cos(rads);
//DST to Home
double dstlat = Math.Abs(TrackerLocation.Lat - lat) * 111319.5;
double dstlon = Math.Abs(TrackerLocation.Lng - lng) * 111319.5 * scaleLongDown;
return (float)Math.Sqrt((dstlat * dstlat) + (dstlon * dstlon));
}
}
public float ELToMAV
{
get
{
float dist = DistToMAV;
if (dist < 5)
return 0;
float altdiff = (float)(alt - TrackerLocation.Alt);
float angle = (float)Math.Atan(altdiff / dist) * rad2deg;
return angle;
}
}
public float AZToMAV
{
get
{
// shrinking factor for longitude going to poles direction
double rads = Math.Abs(TrackerLocation.Lat) * 0.0174532925;
double scaleLongDown = Math.Cos(rads);
double scaleLongUp = 1.0f / Math.Cos(rads);
//DIR to Home
double dstlon = (TrackerLocation.Lng - lng); //OffSet_X
double dstlat = (TrackerLocation.Lat - lat) * scaleLongUp; //OffSet Y
double bearing = 90 + (Math.Atan2(dstlat, -dstlon) * 57.295775); //absolut home direction
if (bearing < 0) bearing += 360;//normalization
//bearing = bearing - 180;//absolut return direction
//if (bearing < 0) bearing += 360;//normalization
if (DistToMAV < 5)
return 0;
return (float)bearing;
}
}
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// current firmware
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public MainV2.Firmwares firmware = MainV2.Firmwares.ArduPlane;
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public float freemem { get; set; }
public float brklevel { get; set; }
public int armed { get; set; }
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// 3dr radio
public float rssi { get; set; }
public float remrssi { get; set; }
public byte txbuffer { get; set; }
public float noise { get; set; }
public float remnoise { get; set; }
public ushort rxerrors { get; set; }
public ushort fixedp { get; set; }
private float _localsnrdb = 0;
private float _remotesnrdb = 0;
private DateTime lastrssi = DateTime.Now;
private DateTime lastremrssi = DateTime.Now;
public float localsnrdb { get { if (lastrssi.AddSeconds(1) > DateTime.Now) { return _localsnrdb; } lastrssi = DateTime.Now; _localsnrdb = ((rssi - noise) / 1.9f) * 0.5f + _localsnrdb * 0.5f; return _localsnrdb; } }
public float remotesnrdb { get { if (lastremrssi.AddSeconds(1) > DateTime.Now) { return _remotesnrdb; } lastremrssi = DateTime.Now; _remotesnrdb = ((remrssi - remnoise) / 1.9f) * 0.5f + _remotesnrdb * 0.5f; return _remotesnrdb; } }
public float DistRSSIRemain {
get
{
float work = 0;
if (localsnrdb == 0)
{
return 0;
}
if (localsnrdb > remotesnrdb)
{
// remote
// minus fade margin
work = remotesnrdb - 5;
}
else
{
// local
// minus fade margin
work = localsnrdb - 5;
}
{
work = DistToMAV * (float)Math.Pow(2.0, work / 6.0);
}
return work;
}
}
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// stats
public ushort packetdropremote { get; set; }
public ushort linkqualitygcs { get; set; }
public ushort hwvoltage { get; set; }
public ushort i2cerrors { get; set; }
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// requested stream rates
public byte rateattitude { get; set; }
public byte rateposition { get; set; }
public byte ratestatus { get; set; }
public byte ratesensors { get; set; }
public byte raterc { get; set; }
// reference
public DateTime datetime { get; set; }
private object locker = new object();
bool useLocation = false;
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public CurrentState()
{
mode = "";
messages = new List<string>();
rateattitude = 10;
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rateposition = 3;
ratestatus = 2;
ratesensors = 2;
raterc = 2;
datetime = DateTime.MinValue;
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}
const float rad2deg = (float)(180 / Math.PI);
const float deg2rad = (float)(1.0 / rad2deg);
private DateTime lastupdate = DateTime.Now;
private DateTime lastwindcalc = DateTime.Now;
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public void UpdateCurrentSettings(System.Windows.Forms.BindingSource bs)
{
UpdateCurrentSettings(bs, false, MainV2.comPort);
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}
/*
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public void UpdateCurrentSettings(System.Windows.Forms.BindingSource bs, bool updatenow)
{
UpdateCurrentSettings(bs, false, MainV2.comPort);
}
*/
public void UpdateCurrentSettings(System.Windows.Forms.BindingSource bs, bool updatenow, MAVLink mavinterface)
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{
lock (locker)
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{
if (DateTime.Now > lastupdate.AddMilliseconds(19) || updatenow) // 50 hz
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{
lastupdate = DateTime.Now;
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if (DateTime.Now.Second != lastwindcalc.Second)
{
lastwindcalc = DateTime.Now;
dowindcalc();
}
if (mavinterface.packets[MAVLink.MAVLINK_MSG_ID_STATUSTEXT] != null) // status text
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{
string logdata = DateTime.Now + " " + Encoding.ASCII.GetString(mavinterface.packets[MAVLink.MAVLINK_MSG_ID_STATUSTEXT], 6, mavinterface.packets[MAVLink.MAVLINK_MSG_ID_STATUSTEXT].Length - 6);
int ind = logdata.IndexOf('\0');
if (ind != -1)
logdata = logdata.Substring(0, ind);
try
{
while (messages.Count > 5)
{
messages.RemoveAt(0);
}
messages.Add(logdata + "\n");
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}
catch { }
mavinterface.packets[MAVLink.MAVLINK_MSG_ID_STATUSTEXT] = null;
}
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byte[] bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_RC_CHANNELS_SCALED];
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if (bytearray != null) // hil mavlink 0.9
{
var hil = bytearray.ByteArrayToStructure<MAVLink.mavlink_rc_channels_scaled_t>(6);
hilch1 = hil.chan1_scaled;
hilch2 = hil.chan2_scaled;
hilch3 = hil.chan3_scaled;
hilch4 = hil.chan4_scaled;
hilch5 = hil.chan5_scaled;
hilch6 = hil.chan6_scaled;
hilch7 = hil.chan7_scaled;
hilch8 = hil.chan8_scaled;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_RC_CHANNELS_SCALED] = null;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_HIL_CONTROLS];
if (bytearray != null) // hil mavlink 0.9 and 1.0
{
var hil = bytearray.ByteArrayToStructure<MAVLink.mavlink_hil_controls_t>(6);
hilch1 = (int)(hil.roll_ailerons * 10000);
hilch2 = (int)(hil.pitch_elevator * 10000);
hilch3 = (int)(hil.throttle * 10000);
hilch4 = (int)(hil.yaw_rudder * 10000);
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_HIL_CONTROLS] = null;
}
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_HWSTATUS];
if (bytearray != null)
{
var hwstatus = bytearray.ByteArrayToStructure<MAVLink.mavlink_hwstatus_t>(6);
hwvoltage = hwstatus.Vcc;
i2cerrors = hwstatus.I2Cerr;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_HWSTATUS] = null;
}
#if MAVLINK10
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_HEARTBEAT];
if (bytearray != null)
{
var hb = bytearray.ByteArrayToStructure<MAVLink.mavlink_heartbeat_t>(6);
armed = (hb.base_mode & (byte)MAVLink.MAV_MODE_FLAG.SAFETY_ARMED) == (byte)MAVLink.MAV_MODE_FLAG.SAFETY_ARMED ? 4 : 3;
string oldmode = mode;
mode = "Unknown";
if ((hb.base_mode & (byte)MAVLink.MAV_MODE_FLAG.CUSTOM_MODE_ENABLED) != 0)
{
if (hb.type == (byte)MAVLink.MAV_TYPE.FIXED_WING)
{
switch (hb.custom_mode)
{
case (byte)(Common.apmmodes.MANUAL):
mode = "Manual";
break;
case (byte)(Common.apmmodes.GUIDED):
mode = "Guided";
break;
case (byte)(Common.apmmodes.STABILIZE):
mode = "Stabilize";
break;
case (byte)(Common.apmmodes.FLY_BY_WIRE_A):
mode = "FBW A";
break;
case (byte)(Common.apmmodes.FLY_BY_WIRE_B):
mode = "FBW B";
break;
case (byte)(Common.apmmodes.AUTO):
mode = "Auto";
break;
case (byte)(Common.apmmodes.RTL):
mode = "RTL";
break;
case (byte)(Common.apmmodes.LOITER):
mode = "Loiter";
break;
case (byte)(Common.apmmodes.CIRCLE):
mode = "Circle";
break;
case 16:
mode = "Initialising";
break;
default:
mode = "Unknown";
break;
}
}
else if (hb.type == (byte)MAVLink.MAV_TYPE.QUADROTOR)
{
switch (hb.custom_mode)
{
case (byte)(Common.ac2modes.STABILIZE):
mode = "Stabilize";
break;
case (byte)(Common.ac2modes.ACRO):
mode = "Acro";
break;
case (byte)(Common.ac2modes.ALT_HOLD):
mode = "Alt Hold";
break;
case (byte)(Common.ac2modes.AUTO):
mode = "Auto";
break;
case (byte)(Common.ac2modes.GUIDED):
mode = "Guided";
break;
case (byte)(Common.ac2modes.LOITER):
mode = "Loiter";
break;
case (byte)(Common.ac2modes.RTL):
mode = "RTL";
break;
case (byte)(Common.ac2modes.CIRCLE):
mode = "Circle";
break;
case (byte)(Common.ac2modes.LAND):
mode = "Land";
break;
default:
mode = "Unknown";
break;
}
}
}
if (oldmode != mode && MainV2.speechEnable && MainV2.getConfig("speechmodeenabled") == "True")
{
MainV2.speechEngine.SpeakAsync(Common.speechConversion(MainV2.getConfig("speechmode")));
}
}
bytearray = mavinterface.packets[ArdupilotMega.MAVLink.MAVLINK_MSG_ID_SYS_STATUS];
if (bytearray != null)
{
var sysstatus = bytearray.ByteArrayToStructure<MAVLink.mavlink_sys_status_t>(6);
battery_voltage = sysstatus.voltage_battery;
battery_remaining = sysstatus.battery_remaining;
current = sysstatus.current_battery;
packetdropremote = sysstatus.drop_rate_comm;
//MAVLink.packets[ArdupilotMega.MAVLink.MAVLINK_MSG_ID_SYS_STATUS] = null;
}
#else
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_SYS_STATUS];
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if (bytearray != null)
{
var sysstatus = bytearray.ByteArrayToStructure<MAVLink.mavlink_sys_status_t>(6);
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armed = sysstatus.status;
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string oldmode = mode;
switch (sysstatus.mode)
{
case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_UNINIT:
switch (sysstatus.nav_mode)
{
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_GROUNDED:
mode = "Initialising";
break;
}
break;
case (byte)(100 + Common.ac2modes.STABILIZE):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.STABILIZE);
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break;
case (byte)(100 + Common.ac2modes.ACRO):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.ACRO);
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break;
case (byte)(100 + Common.ac2modes.ALT_HOLD):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.ALT_HOLD);
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break;
case (byte)(100 + Common.ac2modes.AUTO):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.AUTO);
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break;
case (byte)(100 + Common.ac2modes.GUIDED):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.GUIDED);
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break;
case (byte)(100 + Common.ac2modes.LOITER):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.LOITER);
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break;
case (byte)(100 + Common.ac2modes.RTL):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.RTL);
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break;
case (byte)(100 + Common.ac2modes.CIRCLE):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.CIRCLE);
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break;
case (byte)(100 + Common.ac2modes.LAND):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.LAND);
break;
case (byte)(100 + Common.ac2modes.POSITION):
mode = EnumTranslator.GetDisplayText(Common.ac2modes.POSITION);
break;
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case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_MANUAL:
mode = "Manual";
break;
case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_GUIDED:
mode = "Guided";
break;
case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_TEST1:
mode = "Stabilize";
break;
case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_TEST2:
mode = "FBW A"; // fall though old
switch (sysstatus.nav_mode)
{
case (byte)1:
mode = "FBW A";
break;
case (byte)2:
mode = "FBW B";
break;
case (byte)3:
mode = "FBW C";
break;
}
break;
case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_TEST3:
mode = "Circle";
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break;
case (byte)ArdupilotMega.MAVLink.MAV_MODE.MAV_MODE_AUTO:
switch (sysstatus.nav_mode)
{
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_WAYPOINT:
mode = "Auto";
break;
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_RETURNING:
mode = "RTL";
break;
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_HOLD:
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_LOITER:
mode = "Loiter";
break;
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_LIFTOFF:
mode = "Takeoff";
break;
case (byte)ArdupilotMega.MAVLink.MAV_NAV.MAV_NAV_LANDING:
mode = "Land";
break;
}
break;
default:
mode = "Unknown";
break;
}
battery_voltage = sysstatus.vbat;
battery_remaining = sysstatus.battery_remaining;
packetdropremote = sysstatus.packet_drop;
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if (oldmode != mode && MainV2.speechEnable && MainV2.speechEngine != null && MainV2.getConfig("speechmodeenabled") == "True")
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{
MainV2.speechEngine.SpeakAsync(Common.speechConversion(MainV2.getConfig("speechmode")));
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}
//MAVLink.packets[ArdupilotMega.MAVLink.MAVLINK_MSG_ID_SYS_STATUS] = null;
}
#endif
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_SCALED_PRESSURE];
if (bytearray != null)
{
var pres = bytearray.ByteArrayToStructure<MAVLink.mavlink_scaled_pressure_t>(6);
press_abs = pres.press_abs;
press_temp = pres.temperature;
}
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_SENSOR_OFFSETS];
if (bytearray != null)
{
var sensofs = bytearray.ByteArrayToStructure<MAVLink.mavlink_sensor_offsets_t>(6);
mag_ofs_x = sensofs.mag_ofs_x;
mag_ofs_y = sensofs.mag_ofs_y;
mag_ofs_z = sensofs.mag_ofs_z;
mag_declination = sensofs.mag_declination;
raw_press = sensofs.raw_press;
raw_temp = sensofs.raw_temp;
gyro_cal_x = sensofs.gyro_cal_x;
gyro_cal_y = sensofs.gyro_cal_y;
gyro_cal_z = sensofs.gyro_cal_z;
accel_cal_x = sensofs.accel_cal_x;
accel_cal_y = sensofs.accel_cal_y;
accel_cal_z = sensofs.accel_cal_z;
}
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_ATTITUDE];
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if (bytearray != null)
{
var att = bytearray.ByteArrayToStructure<MAVLink.mavlink_attitude_t>(6);
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roll = att.roll * rad2deg;
pitch = att.pitch * rad2deg;
yaw = att.yaw * rad2deg;
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// Console.WriteLine(roll + " " + pitch + " " + yaw);
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//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_ATTITUDE] = null;
}
#if MAVLINK10
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_GPS_RAW_INT];
if (bytearray != null)
{
var gps = bytearray.ByteArrayToStructure<MAVLink.mavlink_gps_raw_int_t>(6);
if (!useLocation)
{
lat = gps.lat * 1.0e-7f;
lng = gps.lon * 1.0e-7f;
}
// alt = gps.alt; // using vfr as includes baro calc
gpsstatus = gps.fix_type;
// Console.WriteLine("gpsfix {0}",gpsstatus);
gpshdop = gps.eph;
satcount = gps.satellites_visible;
groundspeed = gps.vel * 1.0e-2f;
groundcourse = gps.cog * 1.0e-2f;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_GPS_RAW] = null;
}
#else
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_GPS_RAW];
if (bytearray != null)
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{
var gps = bytearray.ByteArrayToStructure<MAVLink.mavlink_gps_raw_t>(6);
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lat = gps.lat;
lng = gps.lon;
// alt = gps.alt; // using vfr as includes baro calc
gpsstatus = gps.fix_type;
// Console.WriteLine("gpsfix {0}",gpsstatus);
gpshdop = gps.eph;
groundspeed = gps.v;
groundcourse = gps.hdg;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_GPS_RAW] = null;
}
#endif
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_GPS_STATUS];
if (bytearray != null)
{
var gps = bytearray.ByteArrayToStructure<MAVLink.mavlink_gps_status_t>(6);
satcount = gps.satellites_visible;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_RADIO];
if (bytearray != null)
{
var radio = bytearray.ByteArrayToStructure<MAVLink.mavlink_radio_t>(6);
rssi = radio.rssi;
remrssi = radio.remrssi;
txbuffer = radio.txbuf;
rxerrors = radio.rxerrors;
noise = radio.noise;
remnoise = radio.remnoise;
fixedp = radio.fixedp;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_GLOBAL_POSITION_INT];
if (bytearray != null)
{
var loc = bytearray.ByteArrayToStructure<MAVLink.mavlink_global_position_int_t>(6);
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useLocation = true;
//alt = loc.alt / 1000.0f;
lat = loc.lat / 10000000.0f;
lng = loc.lon / 10000000.0f;
}
#if MAVLINK10
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_MISSION_CURRENT];
if (bytearray != null)
{
var wpcur = bytearray.ByteArrayToStructure<MAVLink.mavlink_mission_current_t>(6);
int oldwp = (int)wpno;
wpno = wpcur.seq;
if (oldwp != wpno && MainV2.speechEnable && MainV2.getConfig("speechwaypointenabled") == "True")
{
MainV2.speechEngine.SpeakAsync(Common.speechConversion(MainV2.getConfig("speechwaypoint")));
}
//MAVLink.packets[ArdupilotMega.MAVLink.MAVLINK_MSG_ID_WAYPOINT_CURRENT] = null;
}
#else
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_GLOBAL_POSITION];
if (bytearray != null)
{
var loc = bytearray.ByteArrayToStructure<MAVLink.mavlink_global_position_t>(6);
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alt = loc.alt;
lat = loc.lat;
lng = loc.lon;
}
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_WAYPOINT_CURRENT];
if (bytearray != null)
{
var wpcur = bytearray.ByteArrayToStructure<MAVLink.mavlink_waypoint_current_t>(6);
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int oldwp = (int)wpno;
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wpno = wpcur.seq;
if (oldwp != wpno && MainV2.speechEnable && MainV2.speechEngine != null && MainV2.getConfig("speechwaypointenabled") == "True")
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{
MainV2.speechEngine.SpeakAsync(Common.speechConversion(MainV2.getConfig("speechwaypoint")));
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}
//MAVLink.packets[ArdupilotMega.MAVLink.MAVLINK_MSG_ID_WAYPOINT_CURRENT] = null;
}
#endif
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT];
if (bytearray != null)
{
var nav = bytearray.ByteArrayToStructure<MAVLink.mavlink_nav_controller_output_t>(6);
nav_roll = nav.nav_roll;
nav_pitch = nav.nav_pitch;
nav_bearing = nav.nav_bearing;
target_bearing = nav.target_bearing;
wp_dist = nav.wp_dist;
alt_error = nav.alt_error;
aspd_error = nav.aspd_error;
xtrack_error = nav.xtrack_error;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT] = null;
}
bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_RC_CHANNELS_RAW];
if (bytearray != null)
{
var rcin = bytearray.ByteArrayToStructure<MAVLink.mavlink_rc_channels_raw_t>(6);
ch1in = rcin.chan1_raw;
ch2in = rcin.chan2_raw;
ch3in = rcin.chan3_raw;
ch4in = rcin.chan4_raw;
ch5in = rcin.chan5_raw;
ch6in = rcin.chan6_raw;
ch7in = rcin.chan7_raw;
ch8in = rcin.chan8_raw;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_RC_CHANNELS_RAW] = null;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_SERVO_OUTPUT_RAW];
if (bytearray != null)
{
var servoout = bytearray.ByteArrayToStructure<MAVLink.mavlink_servo_output_raw_t>(6);
ch1out = servoout.servo1_raw;
ch2out = servoout.servo2_raw;
ch3out = servoout.servo3_raw;
ch4out = servoout.servo4_raw;
ch5out = servoout.servo5_raw;
ch6out = servoout.servo6_raw;
ch7out = servoout.servo7_raw;
ch8out = servoout.servo8_raw;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_SERVO_OUTPUT_RAW] = null;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_RAW_IMU];
if (bytearray != null)
{
var imu = bytearray.ByteArrayToStructure<MAVLink.mavlink_raw_imu_t>(6);
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gx = imu.xgyro;
gy = imu.ygyro;
gz = imu.zgyro;
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ax = imu.xacc;
ay = imu.yacc;
az = imu.zacc;
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mx = imu.xmag;
my = imu.ymag;
mz = imu.zmag;
//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_RAW_IMU] = null;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_SCALED_IMU];
if (bytearray != null)
{
var imu = bytearray.ByteArrayToStructure<MAVLink.mavlink_scaled_imu_t>(6);
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gx = imu.xgyro;
gy = imu.ygyro;
gz = imu.zgyro;
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ax = imu.xacc;
ay = imu.yacc;
az = imu.zacc;
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//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_RAW_IMU] = null;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_VFR_HUD];
if (bytearray != null)
{
var vfr = bytearray.ByteArrayToStructure<MAVLink.mavlink_vfr_hud_t>(6);
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groundspeed = vfr.groundspeed;
airspeed = vfr.airspeed;
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alt = vfr.alt; // this might include baro
//climbrate = vfr.climb;
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if ((DateTime.Now - lastalt).TotalSeconds >= 0.2 && oldalt != alt)
{
climbrate = (alt - oldalt) / (float)(DateTime.Now - lastalt).TotalSeconds;
verticalspeed = (alt - oldalt) / (float)(DateTime.Now - lastalt).TotalSeconds;
if (float.IsInfinity(_verticalspeed))
_verticalspeed = 0;
lastalt = DateTime.Now;
oldalt = alt;
}
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//MAVLink.packets[MAVLink.MAVLINK_MSG_ID_VFR_HUD] = null;
}
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bytearray = mavinterface.packets[MAVLink.MAVLINK_MSG_ID_MEMINFO];
if (bytearray != null)
{
var mem = bytearray.ByteArrayToStructure<MAVLink.mavlink_meminfo_t>(6);
freemem = mem.freemem;
brklevel = mem.brkval;
}
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}
//Console.WriteLine(DateTime.Now.Millisecond + " start ");
// update form
try
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{
if (bs != null)
{
//System.Diagnostics.Debug.WriteLine(DateTime.Now.Millisecond);
//Console.WriteLine(DateTime.Now.Millisecond);
bs.DataSource = this;
// Console.WriteLine(DateTime.Now.Millisecond + " 1 " + updatenow + " " + System.Threading.Thread.CurrentThread.Name);
bs.ResetBindings(false);
//Console.WriteLine(DateTime.Now.Millisecond + " done ");
}
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}
catch { log.InfoFormat("CurrentState Binding error"); }
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}
}
public object Clone()
{
return this.MemberwiseClone();
}
public void dowindcalc()
{
//Wind Fixed gain Observer
//Ryan Beall
//8FEB10
double Kw = 0.010; // 0.01 // 0.10
if (airspeed < 1 || groundspeed < 1)
return;
double Wn_error = airspeed * Math.Cos((yaw) * deg2rad) * Math.Cos(pitch * deg2rad) - groundspeed * Math.Cos((groundcourse) * deg2rad) - Wn_fgo;
double We_error = airspeed * Math.Sin((yaw) * deg2rad) * Math.Cos(pitch * deg2rad) - groundspeed * Math.Sin((groundcourse) * deg2rad) - We_fgo;
Wn_fgo = Wn_fgo + Kw * Wn_error;
We_fgo = We_fgo + Kw * We_error;
double wind_dir = (Math.Atan2(We_fgo, Wn_fgo) * (180 / Math.PI));
double wind_vel = (Math.Sqrt(Math.Pow(We_fgo, 2) + Math.Pow(Wn_fgo, 2)));
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wind_dir = (wind_dir + 360) % 360;
this.wind_dir = (float)wind_dir;// (float)(wind_dir * 0.5 + this.wind_dir * 0.5);
this.wind_vel = (float)wind_vel;// (float)(wind_vel * 0.5 + this.wind_vel * 0.5);
//Console.WriteLine("Wn_error = {0}\nWe_error = {1}\nWn_fgo = {2}\nWe_fgo = {3}\nWind_dir = {4}\nWind_vel = {5}\n",Wn_error,We_error,Wn_fgo,We_fgo,wind_dir,wind_vel);
//Console.WriteLine("wind_dir: {0} wind_vel: {1} as {4} yaw {5} pitch {6} gs {7} cog {8}", wind_dir, wind_vel, Wn_fgo, We_fgo , airspeed,yaw,pitch,groundspeed,groundcourse);
//low pass the outputs for better results!
}
}
}