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using System ;
using System.Collections.Generic ;
using System.Drawing ;
using System.Text ;
using System.Windows.Forms ;
using System.Net ;
using System.Net.Sockets ;
using System.IO.Ports ;
using System.IO ;
using System.Xml ; // config file
using System.Runtime.InteropServices ; // dll imports
using ZedGraph ; // Graphs
using ArdupilotMega ;
using System.Reflection ;
// Written by Michael Oborne
namespace ArdupilotMega.GCSViews
{
public partial class Simulation : MyUserControl
{
MAVLink comPort = MainV2 . comPort ;
UdpClient XplanesSEND ;
UdpClient MavLink ;
Socket SimulatorRECV ;
//TcpClient FlightGearSEND;
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EndPoint Remote = ( EndPoint ) ( new IPEndPoint ( IPAddress . Any , 0 ) ) ;
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byte [ ] udpdata = new byte [ 113 * 9 + 5 ] ; // 113 types - 9 items per type (index+8) + 5 byte header
float [ ] [ ] DATA = new float [ 113 ] [ ] ;
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TDataFromAeroSimRC aeroin = new TDataFromAeroSimRC ( ) ;
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DateTime now = DateTime . Now ;
DateTime lastgpsupdate = DateTime . Now ;
List < string > position = new List < string > ( ) ;
int REV_pitch = 1 ;
int REV_roll = 1 ;
int REV_rudder = 1 ;
int GPS_rate = 200 ;
bool displayfull = false ;
int packetssent = 0 ;
//string logdata = "";
int tickStart = 0 ;
public static int threadrun = 0 ;
string simIP = "127.0.0.1" ;
int simPort = 49000 ;
int recvPort = 49005 ;
// set defaults
int rollgain = 10000 ;
int pitchgain = 10000 ;
int ruddergain = 10000 ;
int throttlegain = 10000 ;
// for servo graph
RollingPointPairList list = new RollingPointPairList ( 1200 ) ;
RollingPointPairList list2 = new RollingPointPairList ( 1200 ) ;
RollingPointPairList list3 = new RollingPointPairList ( 1200 ) ;
RollingPointPairList list4 = new RollingPointPairList ( 1200 ) ;
[StructLayout(LayoutKind.Sequential, Pack = 1)]
public struct fgIMUData
{
// GPS
public double latitude ;
public double longitude ;
public double altitude ;
public double heading ;
public double velocityN ;
public double velocityE ;
// IMU
public double accelX ;
public double accelY ;
public double accelZ ;
public double rateRoll ;
public double ratePitch ;
public double rateYaw ;
// trailer
public uint magic ;
}
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const int AEROSIMRC_MAX_CHANNELS = 39 ;
//-----------------------------------------------------------------------------
// Two main data structures are used. This is the first one:
//
// This data struct is filled by AeroSIM RC with the simulation data, and sent to the plugin
//-----------------------------------------------------------------------------
[StructLayout(LayoutKind.Sequential, Pack = 1)]
public struct TDataFromAeroSimRC
{
public ushort nStructSize ; // size in bytes of TDataFromAeroSimRC
//---------------------
// Integration Time
//---------------------
public float Simulation_fIntegrationTimeStep ; // integration time step in seconds. This is the simulated time since last call to AeroSIMRC_Plugin_Run()
//---------------------
// Channels
//---------------------
[ MarshalAs (
UnmanagedType . ByValArray ,
SizeConst = AEROSIMRC_MAX_CHANNELS ) ]
public float [ ] Channel_afValue_TX ; // [-1, 1] channel positions at TX sticks (i.e. raw stick positions)
[ MarshalAs (
UnmanagedType . ByValArray ,
SizeConst = AEROSIMRC_MAX_CHANNELS ) ]
public float [ ] Channel_afValue_RX ; // [-1, 1] channel positions at RX (i.e. after TX mixes)
// Use the following constants as indexes for the channel arrays
// The simulator uses internally the channel numbers for Transmitter Mode 2 (regardless of mode selected by user)
const int CH_AILERON = 0 ;
const int CH_ELEVATOR = 1 ;
const int CH_THROTTLE = 2 ;
const int CH_RUDDER = 3 ;
const int CH_5 = 4 ;
const int CH_6 = 5 ;
const int CH_7 = 6 ;
const int CH_PLUGIN_1 = 22 ; // This channel is mapped by user to any real channel number
const int CH_PLUGIN_2 = 23 ; // This channel is mapped by user to any real channel number
//---------------------
// OSD
//---------------------
// Video buffer for OSD is a bitmap, 4 bytes per pixel: R G B A; The first 4 bytes are the Top-Left corner pixel
// The size of the OSD Video Buffer is defined in plugin.txt
// .OSD_BUFFER_SIZE, in plugin.txt, can be set to one of the following sizes: 512x512, 1024x512 or 1024x1024
// Set OSD_nWindow_DX and OSD_nWindow_DY in struct TDataToAeroSimRC to the actual size to be displayed
public IntPtr OSD_pVideoBuffer ;
//---------------------
// Menu
//---------------------
// This variable represent the custom menu status. E.g. 0x000001 means that first menu item is ticked
// Command menu item bits are set to 1 when selected, but cleared in the next cycle.
// Checkbox menu item bits remain 1 until unchecked by user, or cleared in TDataToAeroSimRC::Menu_nFlags_MenuItem_New_CheckBox_Status
public uint Menu_nFlags_MenuItem_Status ;
//---------------------
// Model Initial Position in current scenario
//---------------------
public float Scenario_fInitialModelPosX ; public float Scenario_fInitialModelPosY ; public float Scenario_fInitialModelPosZ ; // (m) Model Initial Position on runway
public float Scenario_fInitialModelHeading ; public float Scenario_fInitialModelPitch ; public float Scenario_fInitialModelRoll ; // (m) Model Initial Attitude on runway
//---------------------
// WayPoints
// The Description string can be freely used to add more information to the waypoint such as Altitude, WP Type (Overfly, Landing, CAP), Bearing, etc.
//---------------------
public float Scenario_fWPHome_X ; public float Scenario_fWPHome_Y ; public float Scenario_fWPHome_Lat ; public float Scenario_fWPHome_Long ; IntPtr Scenario_strWPHome_Description ; // (m, deg, string)
public float Scenario_fWPA_X ; public float Scenario_fWPA_Y ; public float Scenario_fWPA_Lat ; public float Scenario_fWPA_Long ; IntPtr Scenario_strWPA_Description ; // (m, deg, string)
public float Scenario_fWPB_X ; public float Scenario_fWPB_Y ; public float Scenario_fWPB_Lat ; public float Scenario_fWPB_Long ; IntPtr Scenario_strWPB_Description ; // (m, deg, string)
public float Scenario_fWPC_X ; public float Scenario_fWPC_Y ; public float Scenario_fWPC_Lat ; public float Scenario_fWPC_Long ; IntPtr Scenario_strWPC_Description ; // (m, deg, string)
public float Scenario_fWPD_X ; public float Scenario_fWPD_Y ; public float Scenario_fWPD_Lat ; public float Scenario_fWPD_Long ; IntPtr Scenario_strWPD_Description ; // (m, deg, string)
//---------------------
// Model data
//---------------------
public float Model_fPosX ; public float Model_fPosY ; public float Model_fPosZ ; // m Model absolute position in scenario (X=Right, Y=Front, Z=Up)
public float Model_fVelX ; public float Model_fVelY ; public float Model_fVelZ ; // m/s Model velocity
public float Model_fAngVelX ; public float Model_fAngVelY ; public float Model_fAngVelZ ; // rad/s Model angular velocity (useful to implement gyroscopes)
public float Model_fAccelX ; public float Model_fAccelY ; public float Model_fAccelZ ; // m/s/s Model acceleration (useful to implement accelerometers)
public double Model_fLatitude ; public double Model_fLongitude ; // deg Model Position in Lat/Long coordinates
public float Model_fHeightAboveTerrain ; // m
public float Model_fHeading ; // rad [-PI, PI ] 0 = North, PI/2 = East, PI = South, - PI/2 = West
public float Model_fPitch ; // rad [-PI/2, PI/2] Positive pitch when nose up
public float Model_fRoll ; // rad [-PI, PI ] Positive roll when right wing Up
// Wind
public float Model_fWindVelX ; public float Model_fWindVelY ; public float Model_fWindVelZ ; // m/s Velocity of the wind (with gusts) at model position (useful to compute air vel)
// Engine/Motor Revs per minute
public float Model_fEngine1_RPM ;
public float Model_fEngine2_RPM ;
public float Model_fEngine3_RPM ;
public float Model_fEngine4_RPM ;
// Battery (electric models)
public float Model_fBatteryVoltage ; // V
public float Model_fBatteryCurrent ; // A
public float Model_fBatteryConsumedCharge ; // Ah
public float Model_fBatteryCapacity ; // Ah
// Fuel (gas & jet models)
public float Model_fFuelConsumed ; // l
public float Model_fFuelTankCapacity ; // l
} ;
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~ Simulation ( )
{
if ( threadrun = = 1 )
ConnectComPort_Click ( new object ( ) , new EventArgs ( ) ) ;
MavLink = null ;
XplanesSEND = null ;
SimulatorRECV = null ;
}
public Simulation ( )
{
InitializeComponent ( ) ;
}
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private void Simulation_Load ( object sender , EventArgs e )
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{
GPSrate . SelectedIndex = 2 ;
xmlconfig ( false ) ;
CreateChart ( zg1 ) ;
zg1 . Visible = displayfull ;
CHKgraphpitch . Visible = displayfull ;
CHKgraphroll . Visible = displayfull ;
CHKgraphrudder . Visible = displayfull ;
CHKgraphthrottle . Visible = displayfull ;
}
private void ConnectComPort_Click ( object sender , EventArgs e )
{
if ( threadrun = = 0 )
{
OutputLog . Clear ( ) ;
if ( MainV2 . comPort . BaseStream . IsOpen = = false )
{
MessageBox . Show ( "Please connect first" ) ;
return ;
}
try
{
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quad = new HIL . QuadCopter ( ) ;
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SetupUDPRecv ( ) ;
if ( RAD_softXplanes . Checked )
{
SetupUDPXplanes ( ) ;
SetupUDPMavLink ( ) ;
}
else
{
//SetupTcpFlightGear(); // old style
SetupUDPXplanes ( ) ; // fg udp style
SetupUDPMavLink ( ) ; // pass traffic - raw
}
OutputLog . AppendText ( "Sim Link Started\n" ) ;
}
catch ( Exception ex ) { OutputLog . AppendText ( "Socket setup problem. Do you have this open already? " + ex . ToString ( ) ) ; }
System . Threading . Thread t11 = new System . Threading . Thread ( new System . Threading . ThreadStart ( mainloop ) )
{
Name = "Main Serial/UDP listener" ,
IsBackground = true
} ;
t11 . Start ( ) ;
MainV2 . threads . Add ( t11 ) ;
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timer1 . Start ( ) ;
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}
else
{
timer1 . Stop ( ) ;
threadrun = 0 ;
if ( SimulatorRECV ! = null )
SimulatorRECV . Close ( ) ;
if ( SimulatorRECV ! = null & & SimulatorRECV . Connected )
SimulatorRECV . Disconnect ( true ) ;
if ( MavLink ! = null )
MavLink . Close ( ) ;
position . Clear ( ) ;
if ( XplanesSEND ! = null )
XplanesSEND . Close ( ) ;
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// if (comPort.BaseStream.IsOpen)
// comPort.stopall(true);
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OutputLog . AppendText ( "Sim Link Stopped\n" ) ;
System . Threading . Thread . Sleep ( 1000 ) ;
Application . DoEvents ( ) ;
}
}
/// <summary>
/// Sets config hash for write on application exit
/// </summary>
/// <param name="write">true/false</param>
private void xmlconfig ( bool write )
{
if ( write )
{
ArdupilotMega . MainV2 . config [ "REV_roll" ] = CHKREV_roll . Checked . ToString ( ) ;
ArdupilotMega . MainV2 . config [ "REV_pitch" ] = CHKREV_pitch . Checked . ToString ( ) ;
ArdupilotMega . MainV2 . config [ "REV_rudder" ] = CHKREV_rudder . Checked . ToString ( ) ;
ArdupilotMega . MainV2 . config [ "GPSrate" ] = GPSrate . Text ;
ArdupilotMega . MainV2 . config [ "Xplanes" ] = RAD_softXplanes . Checked . ToString ( ) ;
ArdupilotMega . MainV2 . config [ "MAVrollgain" ] = TXT_rollgain . Text ;
ArdupilotMega . MainV2 . config [ "MAVpitchgain" ] = TXT_pitchgain . Text ;
ArdupilotMega . MainV2 . config [ "MAVruddergain" ] = TXT_ruddergain . Text ;
ArdupilotMega . MainV2 . config [ "MAVthrottlegain" ] = TXT_throttlegain . Text ;
ArdupilotMega . MainV2 . config [ "CHKdisplayall" ] = CHKdisplayall . Checked . ToString ( ) ;
ArdupilotMega . MainV2 . config [ "simIP" ] = simIP ;
ArdupilotMega . MainV2 . config [ "recvPort" ] = recvPort ;
ArdupilotMega . MainV2 . config [ "simPort" ] = simPort . ToString ( ) ;
}
else
{
foreach ( string key in ArdupilotMega . MainV2 . config . Keys )
{
switch ( key )
{
case "simIP" :
simIP = ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ;
break ;
case "simPort" :
simPort = int . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
break ;
case "recvPort" :
recvPort = int . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
break ;
case "REV_roll" :
CHKREV_roll . Checked = bool . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
break ;
case "REV_pitch" :
CHKREV_pitch . Checked = bool . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
break ;
case "REV_rudder" :
CHKREV_rudder . Checked = bool . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
break ;
case "GPSrate" :
GPSrate . Text = ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ;
break ;
case "Xplanes" :
RAD_softXplanes . Checked = bool . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
break ;
case "MAVrollgain" :
TXT_rollgain . Text = ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ;
break ;
case "MAVpitchgain" :
TXT_pitchgain . Text = ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ;
break ;
case "MAVruddergain" :
TXT_ruddergain . Text = ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ;
break ;
case "MAVthrottlegain" :
TXT_throttlegain . Text = ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ;
break ;
case "CHKdisplayall" :
CHKdisplayall . Checked = bool . Parse ( ArdupilotMega . MainV2 . config [ key ] . ToString ( ) ) ;
displayfull = CHKdisplayall . Checked ;
break ;
default :
break ;
}
}
}
}
FGNetFDM lastfdmdata = new FGNetFDM ( ) ;
const int FG_MAX_ENGINES = 4 ;
const int FG_MAX_WHEELS = 3 ;
const int FG_MAX_TANKS = 4 ;
[StructLayout(LayoutKind.Sequential, Pack = 1)]
public struct FGNetFDM
{
public uint version ; // increment when data values change
public uint padding ; // padding
// Positions
public double longitude ; // geodetic (radians)
public double latitude ; // geodetic (radians)
public double altitude ; // above sea level (meters)
public float agl ; // above ground level (meters)
public float phi ; // roll (radians)
public float theta ; // pitch (radians)
public float psi ; // yaw or true heading (radians)
public float alpha ; // angle of attack (radians)
public float beta ; // side slip angle (radians)
// Velocities
public float phidot ; // roll rate (radians/sec)
public float thetadot ; // pitch rate (radians/sec)
public float psidot ; // yaw rate (radians/sec)
public float vcas ; // calibrated airspeed
public float climb_rate ; // feet per second
public float v_north ; // north velocity in local/body frame, fps
public float v_east ; // east velocity in local/body frame, fps
public float v_down ; // down/vertical velocity in local/body frame, fps
public float v_wind_body_north ; // north velocity in local/body frame
// relative to local airmass, fps
public float v_wind_body_east ; // east velocity in local/body frame
// relative to local airmass, fps
public float v_wind_body_down ; // down/vertical velocity in local/body
// frame relative to local airmass, fps
// Accelerations
public float A_X_pilot ; // X accel in body frame ft/sec^2
public float A_Y_pilot ; // Y accel in body frame ft/sec^2
public float A_Z_pilot ; // Z accel in body frame ft/sec^2
// Stall
public float stall_warning ; // 0.0 - 1.0 indicating the amount of stall
public float slip_deg ; // slip ball deflection
// Pressure
// Engine status
uint num_engines ; // Number of valid engines
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
uint [ ] eng_state ; // Engine state (off, cranking, running)
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] rpm ; // Engine RPM rev/min
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] fuel_flow ; // Fuel flow gallons/hr
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] fuel_px ; // Fuel pressure psi
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] egt ; // Exhuast gas temp deg F
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] cht ; // Cylinder head temp deg F
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] mp_osi ; // Manifold pressure
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] tit ; // Turbine Inlet Temperature
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] oil_temp ; // Oil temp deg F
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_ENGINES)]
float [ ] oil_px ; // Oil pressure psi
// Consumables
uint num_tanks ; // Max number of fuel tanks
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_TANKS)]
float [ ] fuel_quantity ;
// Gear status
uint num_wheels ;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_WHEELS)]
uint [ ] wow ;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_WHEELS)]
float [ ] gear_pos ;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_WHEELS)]
float [ ] gear_steer ;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = FG_MAX_WHEELS)]
float [ ] gear_compression ;
// Environment
uint cur_time ; // current unix time
// FIXME: make this uint64_t before 2038
int warp ; // offset in seconds to unix time
float visibility ; // visibility in meters (for env. effects)
// Control surface positions (normalized values)
float elevator ;
float elevator_trim_tab ;
float left_flap ;
float right_flap ;
float left_aileron ;
float right_aileron ;
float rudder ;
float nose_wheel ;
float speedbrake ;
float spoilers ;
}
const float ft2m = ( float ) ( 1.0 / 3.2808399 ) ;
const float rad2deg = ( float ) ( 180 / Math . PI ) ;
const float deg2rad = ( float ) ( 1.0 / rad2deg ) ;
const float kts2fps = ( float ) 1.68780986 ;
private void mainloop ( )
{
//System.Threading.Thread.CurrentThread.CurrentUICulture = new System.Globalization.CultureInfo("en-US");
//System.Threading.Thread.CurrentThread.CurrentCulture = new System.Globalization.CultureInfo("en-US");
threadrun = 1 ;
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Remote = ( EndPoint ) ( new IPEndPoint ( IPAddress . Any , 0 ) ) ;
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DateTime lastdata = DateTime . MinValue ;
while ( threadrun = = 1 )
{
if ( comPort . BaseStream . IsOpen = = false ) { break ; }
// re-request servo data
if ( ! ( lastdata . AddSeconds ( 8 ) > DateTime . Now ) )
{
Console . WriteLine ( "REQ streams - sim" ) ;
try
{
if ( CHK_quad . Checked )
{
comPort . requestDatastream ( ( byte ) ArdupilotMega . MAVLink . MAV_DATA_STREAM . MAV_DATA_STREAM_RAW_CONTROLLER , 0 ) ; // request servoout
}
else
{
comPort . requestDatastream ( ( byte ) ArdupilotMega . MAVLink . MAV_DATA_STREAM . MAV_DATA_STREAM_RAW_CONTROLLER , 50 ) ; // request servoout
}
}
catch { }
lastdata = DateTime . Now ; // prevent flooding
}
if ( SimulatorRECV . Available > 0 )
{
udpdata = new byte [ udpdata . Length ] ;
try
{
int recv = SimulatorRECV . ReceiveFrom ( udpdata , ref Remote ) ;
RECVprocess ( udpdata , recv , comPort ) ;
}
catch ( Exception ex ) { OutputLog . AppendText ( "Xplanes Data Problem - You need DATA IN/OUT 3, 4, 17, 18, 19, 20\n" + ex . Message + "\n" ) ; }
}
if ( MavLink ! = null & & MavLink . Client ! = null & & MavLink . Client . Connected & & MavLink . Available > 0 )
{
IPEndPoint RemoteIpEndPoint = new IPEndPoint ( IPAddress . Any , 0 ) ;
try
{
Byte [ ] receiveBytes = MavLink . Receive ( ref RemoteIpEndPoint ) ;
Console . WriteLine ( "sending " + receiveBytes [ 5 ] ) ;
if ( receiveBytes [ 5 ] = = 39 )
{
Console . WriteLine ( "wp no " + receiveBytes [ 9 ] ) ; // ??
}
comPort . BaseStream . Write ( receiveBytes , 0 , receiveBytes . Length ) ;
}
catch { }
}
if ( comPort . BaseStream . IsOpen = = false ) { break ; }
try
{
MainV2 . cs . UpdateCurrentSettings ( null ) ; // when true this uses alot more cpu time
if ( ( DateTime . Now - simsendtime ) . TotalMilliseconds > 19 )
{
hzcount + + ;
simsendtime = DateTime . Now ;
processArduPilot ( ) ;
}
}
catch { }
if ( hzcounttime . Second ! = DateTime . Now . Second )
{
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// Console.WriteLine("SIM hz {0}", hzcount);
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hzcount = 0 ;
hzcounttime = DateTime . Now ;
}
System . Threading . Thread . Sleep ( 5 ) ; // this controls send speed to sim
}
}
int hzcount = 0 ;
DateTime hzcounttime = DateTime . Now ;
DateTime simsendtime = DateTime . Now ;
private void SetupUDPRecv ( )
{
// setup receiver
IPEndPoint ipep = new IPEndPoint ( IPAddress . Any , recvPort ) ;
SimulatorRECV = new Socket ( AddressFamily . InterNetwork ,
SocketType . Dgram , ProtocolType . Udp ) ;
SimulatorRECV . Bind ( ipep ) ;
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OutputLog . AppendText ( "Listerning on port " + recvPort + " (sim->planner)\n" ) ;
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}
private void SetupUDPXplanes ( )
{
// setup sender
XplanesSEND = new UdpClient ( simIP , simPort ) ;
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OutputLog . AppendText ( "Sending to port " + simPort + " (planner->sim)\n" ) ;
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}
private void SetupUDPMavLink ( )
{
// setup sender
MavLink = new UdpClient ( "127.0.0.1" , 14550 ) ;
}
/// <summary>
/// From http://code.google.com/p/gentlenav/source/browse/trunk/Tools/XP_UDB_HILSIM/utility.cpp
/// Converts from xplanes to fixed body ref
/// </summary>
/// <param name="x"></param>
/// <param name="y"></param>
/// <param name="z"></param>
/// <param name="alpha"></param>
/// <param name="beta"></param>
public static void FLIGHTtoBCBF ( ref float x , ref float y , ref float z , float alpha , float beta )
{
float Ca = ( float ) Math . Cos ( alpha ) ;
float Cb = ( float ) Math . Cos ( beta ) ;
float Sa = ( float ) Math . Sin ( alpha ) ;
float Sb = ( float ) Math . Sin ( beta ) ;
float X_plane = ( x * Ca * Cb ) - ( z * Sa * Cb ) - ( y * Sb ) ;
float Y_plane = ( z * Sa * Sb ) - ( x * Ca * Sb ) - ( y * Cb ) ;
float Z_plane = ( x * Sa ) + ( z * Ca ) ;
x = X_plane ;
y = Y_plane ;
z = Z_plane ;
}
void OGLtoBCBF ( ref float x , ref float y , ref float z , float phi , float theta , float psi )
{
float x_NED , y_NED , z_NED ;
float Cr , Cp , Cy ;
float Sr , Sp , Sy ;
//Accelerations in X-Plane are expressed in the local OpenGL reference frame, for whatever reason.
//This coordinate system is defined as follows (taken from the X-Plane SDK Wiki):
// The origin 0,0,0 is on the surface of the earth at sea level at some "reference point".
// The +X axis points east from the reference point.
// The +Z axis points south from the reference point.
// The +Y axis points straight up away from the center of the earth at the reference point.
// First we shall convert from this East Up South frame, to a more conventional NED (North East Down) frame.
x_NED = - 1.0f * z ;
y_NED = x ;
z_NED = - 1.0f * y ;
// Next calculate cos & sin of angles for use in the transformation matrix.
// r, p & y subscripts stand for roll pitch and yaw.
Cr = ( float ) Math . Cos ( phi ) ;
Cp = ( float ) Math . Cos ( theta ) ;
Cy = ( float ) Math . Cos ( psi ) ;
Sr = ( float ) Math . Sin ( phi ) ;
Sp = ( float ) Math . Sin ( theta ) ;
Sy = ( float ) Math . Sin ( psi ) ;
// Next we need to rotate our accelerations from the NED reference frame, into the body fixed reference frame
// THANKS TO GEORGE M SIOURIS WHOSE "MISSILE GUIDANCE AND CONTROL SYSTEMS" BOOK SEEMS TO BE THE ONLY EASY TO FIND REFERENCE THAT
// ACTUALLY GETS THE NED TO BODY FRAME ROTATION MATRIX CORRECT!!
// CpCy, CpSy, -Sp | local_ax
// SrSpCy-CrSy, SrSpSy+CrCy, SrCp | local_ay
// CrSpCy+SrSy, CrSpSy-SrCy, CrCp | local_az
x = ( x_NED * Cp * Cy ) + ( y_NED * Cp * Sy ) - ( z_NED * Sp ) ;
y = ( x_NED * ( ( Sr * Sp * Cy ) - ( Cr * Sy ) ) ) + ( y_NED * ( ( Sr * Sp * Sy ) + ( Cr * Cy ) ) ) + ( z_NED * Sr * Cp ) ;
z = ( x_NED * ( ( Cr * Sp * Cy ) + ( Sr * Sy ) ) ) + ( y_NED * ( ( Cr * Sp * Sy ) - ( Sr * Cy ) ) ) + ( z_NED * Cr * Cp ) ;
}
double sin ( double rad )
{
return Math . Sin ( rad ) ;
}
double cos ( double rad )
{
return Math . Cos ( rad ) ;
}
//float oldax =0, olday =0, oldaz = 0;
DateTime oldtime = DateTime . Now ;
ArdupilotMega . MAVLink . __mavlink_attitude_t oldatt = new ArdupilotMega . MAVLink . __mavlink_attitude_t ( ) ;
/// <summary>
/// Recevied UDP packet, process and send required data to serial port.
/// </summary>
/// <param name="data">Packet</param>
/// <param name="receviedbytes">Length</param>
/// <param name="comPort">Com Port</param>
private void RECVprocess ( byte [ ] data , int receviedbytes , ArdupilotMega . MAVLink comPort )
{
ArdupilotMega . MAVLink . __mavlink_raw_imu_t imu = new ArdupilotMega . MAVLink . __mavlink_raw_imu_t ( ) ;
ArdupilotMega . MAVLink . __mavlink_gps_raw_t gps = new ArdupilotMega . MAVLink . __mavlink_gps_raw_t ( ) ;
ArdupilotMega . MAVLink . __mavlink_attitude_t att = new ArdupilotMega . MAVLink . __mavlink_attitude_t ( ) ;
ArdupilotMega . MAVLink . __mavlink_vfr_hud_t asp = new ArdupilotMega . MAVLink . __mavlink_vfr_hud_t ( ) ;
if ( data [ 0 ] = = 'D' & & data [ 1 ] = = 'A' )
{
// Xplanes sends
// 5 byte header
// 1 int for the index - numbers on left of output
// 8 floats - might be useful. or 0 if not
int count = 5 ;
while ( count < receviedbytes )
{
int index = BitConverter . ToInt32 ( data , count ) ;
DATA [ index ] = new float [ 8 ] ;
DATA [ index ] [ 0 ] = BitConverter . ToSingle ( data , count + 1 * 4 ) ; ;
DATA [ index ] [ 1 ] = BitConverter . ToSingle ( data , count + 2 * 4 ) ; ;
DATA [ index ] [ 2 ] = BitConverter . ToSingle ( data , count + 3 * 4 ) ; ;
DATA [ index ] [ 3 ] = BitConverter . ToSingle ( data , count + 4 * 4 ) ; ;
DATA [ index ] [ 4 ] = BitConverter . ToSingle ( data , count + 5 * 4 ) ; ;
DATA [ index ] [ 5 ] = BitConverter . ToSingle ( data , count + 6 * 4 ) ; ;
DATA [ index ] [ 6 ] = BitConverter . ToSingle ( data , count + 7 * 4 ) ; ;
DATA [ index ] [ 7 ] = BitConverter . ToSingle ( data , count + 8 * 4 ) ; ;
count + = 36 ; // 8 * float
}
att . pitch = ( DATA [ 18 ] [ 0 ] * deg2rad ) ;
att . roll = ( DATA [ 18 ] [ 1 ] * deg2rad ) ;
att . yaw = ( DATA [ 18 ] [ 2 ] * deg2rad ) ;
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att . pitchspeed = ( DATA [ 17 ] [ 0 ] ) ;
att . rollspeed = ( DATA [ 17 ] [ 1 ] ) ;
att . yawspeed = ( DATA [ 17 ] [ 2 ] ) ;
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TimeSpan timediff = DateTime . Now - oldtime ;
float pdiff = ( float ) ( ( att . pitch - oldatt . pitch ) / timediff . TotalSeconds ) ;
float rdiff = ( float ) ( ( att . roll - oldatt . roll ) / timediff . TotalSeconds ) ;
float ydiff = ( float ) ( ( att . yaw - oldatt . yaw ) / timediff . TotalSeconds ) ;
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// Console.WriteLine("{0:0.00000} {1:0.00000} {2:0.00000} \t {3:0.00000} {4:0.00000} {5:0.00000}", pdiff, rdiff, ydiff, DATA[17][0], DATA[17][1], DATA[17][2]);
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oldatt = att ;
rdiff = DATA [ 17 ] [ 1 ] ;
pdiff = DATA [ 17 ] [ 0 ] ;
ydiff = DATA [ 17 ] [ 2 ] ;
Int16 xgyro = Constrain ( rdiff * 1000.0 , Int16 . MinValue , Int16 . MaxValue ) ;
Int16 ygyro = Constrain ( pdiff * 1000.0 , Int16 . MinValue , Int16 . MaxValue ) ;
Int16 zgyro = Constrain ( ydiff * 1000.0 , Int16 . MinValue , Int16 . MaxValue ) ;
oldtime = DateTime . Now ;
YLScsDrawing . Drawing3d . Vector3d accel3D = HIL . QuadCopter . RPY_to_XYZ ( DATA [ 18 ] [ 1 ] , DATA [ 18 ] [ 0 ] , 0 , - 9.8 ) ; //DATA[18][2]
//accel3D += new YLScsDrawing.Drawing3d.Vector3d(0, 0, -9.8);
double head = DATA [ 18 ] [ 2 ] - 90 ;
imu . usec = ( ( ulong ) DateTime . Now . ToBinary ( ) ) ;
imu . xgyro = xgyro ; // roll - yes
imu . xmag = ( short ) ( Math . Sin ( head * deg2rad ) * 1000 ) ;
imu . ygyro = ygyro ; // pitch - yes
imu . ymag = ( short ) ( Math . Cos ( head * deg2rad ) * 1000 ) ;
imu . zgyro = zgyro ;
imu . zmag = 0 ;
imu . xacc = ( Int16 ) ( accel3D . X * 1000 ) ; // pitch
imu . yacc = ( Int16 ) ( accel3D . Y * 1000 ) ; // roll
imu . zacc = ( Int16 ) ( accel3D . Z * 1000 ) ;
//Console.WriteLine("ax " + imu.xacc + " ay " + imu.yacc + " az " + imu.zacc);
gps . alt = ( ( float ) ( DATA [ 20 ] [ 2 ] * ft2m ) ) ;
gps . fix_type = 3 ;
gps . hdg = ( ( float ) DATA [ 19 ] [ 2 ] ) ;
gps . lat = ( ( float ) DATA [ 20 ] [ 0 ] ) ;
gps . lon = ( ( float ) DATA [ 20 ] [ 1 ] ) ;
gps . usec = ( ( ulong ) 0 ) ;
gps . v = ( ( float ) ( DATA [ 3 ] [ 7 ] * 0.44704 ) ) ;
gps . eph = 0 ;
gps . epv = 0 ;
asp . airspeed = ( ( float ) ( DATA [ 3 ] [ 6 ] * 0.44704 ) ) ;
}
else if ( receviedbytes = = 0x64 ) // FG binary udp
{
//FlightGear
object imudata = new fgIMUData ( ) ;
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MAVLink . ByteArrayToStructureEndian ( data , ref imudata , 0 ) ;
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imudata = ( fgIMUData ) ( imudata ) ;
fgIMUData imudata2 = ( fgIMUData ) imudata ;
if ( imudata2 . magic ! = 0x4c56414d )
return ;
if ( imudata2 . latitude = = 0 )
return ;
chkSensor . Checked = true ;
imu . usec = ( ( ulong ) DateTime . Now . Ticks ) ;
imu . xacc = ( ( Int16 ) ( imudata2 . accelX * 9808 / 32.2 ) ) ;
imu . xgyro = ( ( Int16 ) ( imudata2 . rateRoll * 17.453293 ) ) ;
imu . xmag = 0 ;
imu . yacc = ( ( Int16 ) ( imudata2 . accelY * 9808 / 32.2 ) ) ;
imu . ygyro = ( ( Int16 ) ( imudata2 . ratePitch * 17.453293 ) ) ;
imu . ymag = 0 ;
imu . zacc = ( ( Int16 ) ( imudata2 . accelZ * 9808 / 32.2 ) ) ; // + 1000
imu . zgyro = ( ( Int16 ) ( imudata2 . rateYaw * 17.453293 ) ) ;
imu . zmag = 0 ;
gps . alt = ( ( float ) ( imudata2 . altitude * ft2m ) ) ;
gps . fix_type = 3 ;
gps . hdg = ( ( float ) Math . Atan2 ( imudata2 . velocityE , imudata2 . velocityN ) * rad2deg ) ;
gps . lat = ( ( float ) imudata2 . latitude ) ;
gps . lon = ( ( float ) imudata2 . longitude ) ;
gps . usec = ( ( ulong ) DateTime . Now . Ticks ) ;
gps . v = ( ( float ) Math . Sqrt ( ( imudata2 . velocityN * imudata2 . velocityN ) + ( imudata2 . velocityE * imudata2 . velocityE ) ) * ft2m ) ;
//FileStream stream = File.OpenWrite("fgdata.txt");
//stream.Write(data, 0, receviedbytes);
//stream.Close();
}
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else if ( receviedbytes = = 582 )
{
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aeroin = new TDataFromAeroSimRC ( ) ;
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object temp = aeroin ;
MAVLink . ByteArrayToStructure ( data , ref temp , 0 ) ;
aeroin = ( TDataFromAeroSimRC ) ( temp ) ;
att . pitch = ( aeroin . Model_fPitch ) ;
att . roll = ( aeroin . Model_fRoll * - 1 ) ;
att . yaw = ( float ) ( ( aeroin . Model_fHeading ) ) ;
att . pitchspeed = ( aeroin . Model_fAngVelX ) ;
att . rollspeed = ( aeroin . Model_fAngVelY ) ;
att . yawspeed = ( aeroin . Model_fAngVelZ ) ;
imu . usec = ( ( ulong ) DateTime . Now . ToBinary ( ) ) ;
imu . xgyro = ( short ) ( aeroin . Model_fAngVelX * 1000 ) ; // roll - yes
//imu.xmag = (short)(Math.Sin(head * deg2rad) * 1000);
imu . ygyro = ( short ) ( aeroin . Model_fAngVelY * 1000 ) ; // pitch - yes
//imu.ymag = (short)(Math.Cos(head * deg2rad) * 1000);
imu . zgyro = ( short ) ( aeroin . Model_fAngVelZ * 1000 ) ;
//imu.zmag = 0;
imu . xacc = ( Int16 ) ( aeroin . Model_fAccelX * 1000 ) ; // pitch
imu . yacc = ( Int16 ) ( aeroin . Model_fAccelY * 1000 ) ; // roll
imu . zacc = ( Int16 ) ( aeroin . Model_fAccelZ * 1000 ) ;
gps . alt = ( ( float ) ( aeroin . Model_fPosZ ) ) ;
gps . fix_type = 3 ;
gps . hdg = ( ( float ) Math . Atan2 ( aeroin . Model_fVelX , aeroin . Model_fVelY ) * rad2deg ) ;
gps . lat = ( ( float ) aeroin . Model_fLatitude ) ;
gps . lon = ( ( float ) aeroin . Model_fLongitude ) ;
gps . usec = ( ( ulong ) DateTime . Now . Ticks ) ;
gps . v = ( ( float ) Math . Sqrt ( ( aeroin . Model_fVelY * aeroin . Model_fVelY ) + ( aeroin . Model_fVelX * aeroin . Model_fVelX ) ) ) ;
}
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else if ( receviedbytes > 0x100 )
{
FGNetFDM fdm = new FGNetFDM ( ) ;
object temp = fdm ;
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MAVLink . ByteArrayToStructureEndian ( data , ref temp , 0 ) ;
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fdm = ( FGNetFDM ) ( temp ) ;
lastfdmdata = fdm ;
att . roll = fdm . phi ;
att . pitch = fdm . theta ;
att . yaw = fdm . psi ;
imu . usec = ( ( ulong ) DateTime . Now . ToBinary ( ) ) ;
imu . xgyro = ( short ) ( fdm . phidot * 1150 ) ; // roll - yes
//imu.xmag = (short)(Math.Sin(head * deg2rad) * 1000);
imu . ygyro = ( short ) ( fdm . thetadot * 1150 ) ; // pitch - yes
//imu.ymag = (short)(Math.Cos(head * deg2rad) * 1000);
imu . zgyro = ( short ) ( fdm . psidot * 1150 ) ;
imu . zmag = 0 ;
imu . xacc = ( Int16 ) Math . Min ( Int16 . MaxValue , Math . Max ( Int16 . MinValue , ( fdm . A_X_pilot * 9808 / 32.2 ) ) ) ; // pitch
imu . yacc = ( Int16 ) Math . Min ( Int16 . MaxValue , Math . Max ( Int16 . MinValue , ( fdm . A_Y_pilot * 9808 / 32.2 ) ) ) ; // roll
imu . zacc = ( Int16 ) Math . Min ( Int16 . MaxValue , Math . Max ( Int16 . MinValue , ( fdm . A_Z_pilot / 32.2 * 9808 ) ) ) ;
//Console.WriteLine("ax " + imu.xacc + " ay " + imu.yacc + " az " + imu.zacc);
gps . alt = ( ( float ) ( fdm . altitude * ft2m ) ) ;
gps . fix_type = 3 ;
gps . hdg = ( float ) ( ( ( Math . Atan2 ( fdm . v_east , fdm . v_north ) * rad2deg ) + 360 ) % 360 ) ;
//Console.WriteLine(gps.hdg);
gps . lat = ( ( float ) fdm . latitude * rad2deg ) ;
gps . lon = ( ( float ) fdm . longitude * rad2deg ) ;
gps . usec = ( ( ulong ) DateTime . Now . Ticks ) ;
gps . v = ( ( float ) Math . Sqrt ( ( fdm . v_north * fdm . v_north ) + ( fdm . v_east * fdm . v_east ) ) * ft2m ) ;
asp . airspeed = fdm . vcas * kts2fps * ft2m ;
}
else
{
//FlightGear - old style udp
DATA [ 20 ] = new float [ 8 ] ;
DATA [ 18 ] = new float [ 8 ] ;
DATA [ 19 ] = new float [ 8 ] ;
DATA [ 3 ] = new float [ 8 ] ;
// this text line is defined from ardupilot.xml
string telem = Encoding . ASCII . GetString ( data , 0 , data . Length ) ;
try
{
// should convert this to regex.... or just leave it.
int oldpos = 0 ;
int pos = telem . IndexOf ( "," ) ;
DATA [ 20 ] [ 0 ] = float . Parse ( telem . Substring ( oldpos , pos - 1 ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
oldpos = pos ;
pos = telem . IndexOf ( "," , pos + 1 ) ;
DATA [ 20 ] [ 1 ] = float . Parse ( telem . Substring ( oldpos + 1 , pos - 1 - oldpos ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
oldpos = pos ;
pos = telem . IndexOf ( "," , pos + 1 ) ;
DATA [ 20 ] [ 2 ] = float . Parse ( telem . Substring ( oldpos + 1 , pos - 1 - oldpos ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
oldpos = pos ;
pos = telem . IndexOf ( "," , pos + 1 ) ;
DATA [ 18 ] [ 1 ] = float . Parse ( telem . Substring ( oldpos + 1 , pos - 1 - oldpos ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
oldpos = pos ;
pos = telem . IndexOf ( "," , pos + 1 ) ;
DATA [ 18 ] [ 0 ] = float . Parse ( telem . Substring ( oldpos + 1 , pos - 1 - oldpos ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
oldpos = pos ;
pos = telem . IndexOf ( "," , pos + 1 ) ;
DATA [ 19 ] [ 2 ] = float . Parse ( telem . Substring ( oldpos + 1 , pos - 1 - oldpos ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
oldpos = pos ;
pos = telem . IndexOf ( "\n" , pos + 1 ) ;
DATA [ 3 ] [ 6 ] = float . Parse ( telem . Substring ( oldpos + 1 , pos - 1 - oldpos ) , new System . Globalization . CultureInfo ( "en-US" ) ) ;
DATA [ 3 ] [ 7 ] = DATA [ 3 ] [ 6 ] ;
}
catch ( Exception ) { }
chkSensor . Checked = false ;
att . pitch = ( DATA [ 18 ] [ 0 ] ) ;
att . roll = ( DATA [ 18 ] [ 1 ] ) ;
att . yaw = ( DATA [ 19 ] [ 2 ] ) ;
gps . alt = ( ( float ) ( DATA [ 20 ] [ 2 ] * ft2m ) ) ;
gps . fix_type = 3 ;
gps . hdg = ( ( float ) DATA [ 18 ] [ 2 ] ) ;
gps . lat = ( ( float ) DATA [ 20 ] [ 0 ] ) ;
gps . lon = ( ( float ) DATA [ 20 ] [ 1 ] ) ;
gps . usec = ( ( ulong ) 0 ) ;
gps . v = ( ( float ) ( DATA [ 3 ] [ 7 ] * 0.44704 ) ) ;
gps . eph = 0 ;
gps . epv = 0 ;
asp . airspeed = ( ( float ) ( DATA [ 3 ] [ 6 ] * 0.44704 ) ) ;
}
// write arduimu to ardupilot
if ( CHK_quad . Checked ) // quad does its own
{
return ;
}
if ( chkSensor . Checked = = false ) // attitude
{
comPort . generatePacket ( ArdupilotMega . MAVLink . MAVLINK_MSG_ID_ATTITUDE , att ) ;
comPort . generatePacket ( ArdupilotMega . MAVLink . MAVLINK_MSG_ID_VFR_HUD , asp ) ;
}
else // raw imu
{
// imudata
comPort . generatePacket ( ArdupilotMega . MAVLink . MAVLINK_MSG_ID_RAW_IMU , imu ) ;
MAVLink . __mavlink_raw_pressure_t pres = new MAVLink . __mavlink_raw_pressure_t ( ) ;
double calc = ( 101325 * Math . Pow ( 1 - 2.25577 * Math . Pow ( 10 , - 5 ) * gps . alt , 5.25588 ) ) ;
pres . press_diff1 = ( short ) ( int ) ( calc - 101325 ) ; // 0 alt is 0 pa
comPort . generatePacket ( ArdupilotMega . MAVLink . MAVLINK_MSG_ID_RAW_PRESSURE , pres ) ;
comPort . generatePacket ( ArdupilotMega . MAVLink . MAVLINK_MSG_ID_VFR_HUD , asp ) ;
}
TimeSpan gpsspan = DateTime . Now - lastgpsupdate ;
if ( gpsspan . TotalMilliseconds > = GPS_rate )
{
lastgpsupdate = DateTime . Now ;
comPort . generatePacket ( ArdupilotMega . MAVLink . MAVLINK_MSG_ID_GPS_RAW , gps ) ;
}
}
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HIL . QuadCopter quad = new HIL . QuadCopter ( ) ;
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/// <summary>
///
/// </summary>
/// <param name="lat">rads </param>
/// <param name="lng">rads </param>
/// <param name="alt">m</param>
/// <param name="roll">rads</param>
/// <param name="pitch">rads</param>
/// <param name="heading">rads</param>
/// <param name="yaw">rads</param>
/// <param name="roll_out">-1 to 1</param>
/// <param name="pitch_out">-1 to 1</param>
/// <param name="rudder_out">-1 to 1</param>
/// <param name="throttle_out">0 to 1</param>
private void updateScreenDisplay ( double lat , double lng , double alt , double roll , double pitch , double heading , double yaw , double roll_out , double pitch_out , double rudder_out , double throttle_out )
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{
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try
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{
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// Update Sim stuff
this . Invoke ( ( MethodInvoker ) delegate
{
TXT_servoroll . Text = roll_out . ToString ( "0.000" ) ;
TXT_servopitch . Text = pitch_out . ToString ( "0.000" ) ;
TXT_servorudder . Text = rudder_out . ToString ( "0.000" ) ;
TXT_servothrottle . Text = throttle_out . ToString ( "0.000" ) ;
TXT_lat . Text = ( lat * rad2deg ) . ToString ( "0.00000" ) ;
TXT_long . Text = ( lng * rad2deg ) . ToString ( "0.00000" ) ;
TXT_alt . Text = ( alt ) . ToString ( "0.00" ) ;
TXT_roll . Text = ( roll * rad2deg ) . ToString ( "0.000" ) ;
TXT_pitch . Text = ( pitch * rad2deg ) . ToString ( "0.000" ) ;
TXT_heading . Text = ( heading * rad2deg ) . ToString ( "0.000" ) ;
TXT_yaw . Text = ( yaw * rad2deg ) . ToString ( "0.000" ) ;
TXT_wpdist . Text = MainV2 . cs . wp_dist . ToString ( ) ;
TXT_bererror . Text = MainV2 . cs . ber_error . ToString ( ) ;
TXT_alterror . Text = MainV2 . cs . alt_error . ToString ( ) ;
TXT_WP . Text = MainV2 . cs . wpno . ToString ( ) ;
TXT_control_mode . Text = MainV2 . cs . mode ;
} ) ;
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}
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catch { this . Invoke ( ( MethodInvoker ) delegate { OutputLog . AppendText ( "NO SIM data - exep\n" ) ; } ) ; }
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}
private void processArduPilot ( )
{
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bool heli = CHK_heli . Checked ;
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if ( CHK_quad . Checked )
{
double [ ] m = new double [ 4 ] ;
m [ 0 ] = ( ushort ) MainV2 . cs . ch1out ;
m [ 1 ] = ( ushort ) MainV2 . cs . ch2out ;
m [ 2 ] = ( ushort ) MainV2 . cs . ch3out ;
m [ 3 ] = ( ushort ) MainV2 . cs . ch4out ;
if ( ! RAD_softFlightGear . Checked )
{
lastfdmdata . latitude = DATA [ 20 ] [ 0 ] * deg2rad ;
lastfdmdata . longitude = DATA [ 20 ] [ 1 ] * deg2rad ;
lastfdmdata . altitude = ( DATA [ 20 ] [ 2 ] ) ;
}
try
{
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if ( lastfdmdata . version = = 0 )
return ;
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quad . update ( ref m , lastfdmdata ) ;
}
catch ( Exception e ) { Console . WriteLine ( "Quad hill error " + e . ToString ( ) ) ; }
byte [ ] FlightGear = new byte [ 8 * 11 ] ; // StructureToByteArray(fg);
Array . Copy ( BitConverter . GetBytes ( ( double ) ( m [ 0 ] ) ) , 0 , FlightGear , 0 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( m [ 1 ] ) ) , 0 , FlightGear , 8 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( m [ 2 ] ) ) , 0 , FlightGear , 16 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( m [ 3 ] ) ) , 0 , FlightGear , 24 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( quad . latitude ) ) , 0 , FlightGear , 32 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( quad . longitude ) ) , 0 , FlightGear , 40 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( quad . altitude * 1 / ft2m ) ) , 0 , FlightGear , 48 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( ( quad . altitude - quad . ground_level ) * 1 / ft2m ) ) , 0 , FlightGear , 56 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( quad . roll ) ) , 0 , FlightGear , 64 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( quad . pitch ) ) , 0 , FlightGear , 72 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( quad . yaw ) ) , 0 , FlightGear , 80 , 8 ) ;
if ( RAD_softFlightGear . Checked )
{
Array . Reverse ( FlightGear , 0 , 8 ) ;
Array . Reverse ( FlightGear , 8 , 8 ) ;
Array . Reverse ( FlightGear , 16 , 8 ) ;
Array . Reverse ( FlightGear , 24 , 8 ) ;
Array . Reverse ( FlightGear , 32 , 8 ) ;
Array . Reverse ( FlightGear , 40 , 8 ) ;
Array . Reverse ( FlightGear , 48 , 8 ) ;
Array . Reverse ( FlightGear , 56 , 8 ) ;
Array . Reverse ( FlightGear , 64 , 8 ) ;
Array . Reverse ( FlightGear , 72 , 8 ) ;
Array . Reverse ( FlightGear , 80 , 8 ) ;
}
try
{
XplanesSEND . Send ( FlightGear , FlightGear . Length ) ;
}
catch ( Exception ) { Console . WriteLine ( "Socket Write failed, FG closed?" ) ; }
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updateScreenDisplay ( lastfdmdata . latitude , lastfdmdata . longitude , lastfdmdata . altitude * . 3048 , lastfdmdata . phi , lastfdmdata . theta , lastfdmdata . psi , lastfdmdata . psi , m [ 0 ] , m [ 1 ] , m [ 2 ] , m [ 3 ] ) ;
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return ;
}
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float roll_out , pitch_out , throttle_out , rudder_out , collective_out ;
collective_out = 0 ;
if ( heli )
{
roll_out = ( float ) MainV2 . cs . hilch1 / rollgain ;
pitch_out = ( float ) MainV2 . cs . hilch2 / pitchgain ;
throttle_out = 1 ;
rudder_out = ( float ) MainV2 . cs . hilch4 / - ruddergain ;
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collective_out = ( float ) ( MainV2 . cs . hilch3 - 1500 ) / throttlegain ;
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}
else
{
roll_out = ( float ) MainV2 . cs . hilch1 / rollgain ;
pitch_out = ( float ) MainV2 . cs . hilch2 / pitchgain ;
throttle_out = ( ( float ) MainV2 . cs . hilch3 + 5000 ) / throttlegain ;
rudder_out = ( float ) MainV2 . cs . hilch4 / ruddergain ;
}
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/ *
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if ( ( roll_out = = - 1 | | roll_out = = 1 ) & & ( pitch_out = = - 1 | | pitch_out = = 1 ) )
{
this . Invoke ( ( MethodInvoker ) delegate
{
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try
{
OutputLog . AppendText ( "Please check your radio setup - CLI -> setup -> radio!!!\n" ) ;
}
catch { }
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} ) ;
}
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* /
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// Limit min and max
roll_out = Constrain ( roll_out , - 1 , 1 ) ;
pitch_out = Constrain ( pitch_out , - 1 , 1 ) ;
rudder_out = Constrain ( rudder_out , - 1 , 1 ) ;
throttle_out = Constrain ( throttle_out , 0 , 1 ) ;
try
{
if ( displayfull )
{
// This updates the servo graphs
double time = ( Environment . TickCount - tickStart ) / 1000.0 ;
if ( CHKgraphroll . Checked )
{
list . Add ( time , roll_out ) ;
}
else { list . Clear ( ) ; }
if ( CHKgraphpitch . Checked )
{
list2 . Add ( time , pitch_out ) ;
}
else { list2 . Clear ( ) ; }
if ( CHKgraphrudder . Checked )
{
list3 . Add ( time , rudder_out ) ;
}
else { list3 . Clear ( ) ; }
if ( CHKgraphthrottle . Checked )
{
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if ( heli )
{
list4 . Add ( time , collective_out ) ;
}
else
{
list4 . Add ( time , throttle_out ) ;
}
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}
else { list4 . Clear ( ) ; }
}
if ( packetssent % 10 = = 0 ) // reduce cpu usage
{
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if ( RAD_softXplanes . Checked )
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{
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updateScreenDisplay ( DATA [ 20 ] [ 0 ] * deg2rad , DATA [ 20 ] [ 1 ] * deg2rad , DATA [ 20 ] [ 2 ] * . 3048 , DATA [ 18 ] [ 1 ] * deg2rad , DATA [ 18 ] [ 0 ] * deg2rad , DATA [ 19 ] [ 2 ] * deg2rad , DATA [ 18 ] [ 2 ] * deg2rad , roll_out , pitch_out , rudder_out , throttle_out ) ;
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}
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if ( RAD_softFlightGear . Checked )
{
updateScreenDisplay ( lastfdmdata . latitude , lastfdmdata . longitude , lastfdmdata . altitude * . 3048 , lastfdmdata . phi , lastfdmdata . theta , lastfdmdata . psi , lastfdmdata . psi , roll_out , pitch_out , rudder_out , throttle_out ) ;
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}
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if ( RAD_aerosimrc . Checked )
{
updateScreenDisplay ( aeroin . Model_fLatitude * deg2rad , aeroin . Model_fLongitude * deg2rad , aeroin . Model_fPosZ , aeroin . Model_fRoll , aeroin . Model_fPitch , aeroin . Model_fHeading , aeroin . Model_fHeading , roll_out , pitch_out , rudder_out , throttle_out ) ;
}
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}
}
catch ( Exception e ) { Console . WriteLine ( "Error updateing screen stuff " + e . ToString ( ) ) ; }
packetssent + + ;
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if ( RAD_aerosimrc . Checked )
{
//AeroSimRC
byte [ ] AeroSimRC = new byte [ 4 * 8 ] ; // StructureToByteArray(fg);
Array . Copy ( BitConverter . GetBytes ( ( double ) ( roll_out * REV_roll ) ) , 0 , AeroSimRC , 0 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( pitch_out * REV_pitch * - 1 ) ) , 0 , AeroSimRC , 8 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( rudder_out * REV_rudder ) ) , 0 , AeroSimRC , 16 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( throttle_out ) ) , 0 , AeroSimRC , 24 , 8 ) ;
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if ( heli )
{
Array . Copy ( BitConverter . GetBytes ( ( double ) ( collective_out ) ) , 0 , AeroSimRC , 24 , 8 ) ;
}
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try
{
SimulatorRECV . SendTo ( AeroSimRC , Remote ) ;
}
catch { }
}
// Flightgear
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if ( RAD_softFlightGear . Checked )
{
//if (packetssent % 2 == 0) { return; } // short supply buffer.. seems to reduce lag
byte [ ] FlightGear = new byte [ 4 * 8 ] ; // StructureToByteArray(fg);
Array . Copy ( BitConverter . GetBytes ( ( double ) ( roll_out * REV_roll ) ) , 0 , FlightGear , 0 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( pitch_out * REV_pitch * - 1 ) ) , 0 , FlightGear , 8 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( rudder_out * REV_rudder ) ) , 0 , FlightGear , 16 , 8 ) ;
Array . Copy ( BitConverter . GetBytes ( ( double ) ( throttle_out ) ) , 0 , FlightGear , 24 , 8 ) ;
Array . Reverse ( FlightGear , 0 , 8 ) ;
Array . Reverse ( FlightGear , 8 , 8 ) ;
Array . Reverse ( FlightGear , 16 , 8 ) ;
Array . Reverse ( FlightGear , 24 , 8 ) ;
try
{
XplanesSEND . Send ( FlightGear , FlightGear . Length ) ;
}
catch ( Exception ) { Console . WriteLine ( "Socket Write failed, FG closed?" ) ; }
}
// Xplanes
if ( RAD_softXplanes . Checked )
{
// sending only 1 packet instead of many.
byte [ ] Xplane = new byte [ 5 + 36 + 36 ] ;
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if ( heli )
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{
Xplane = new byte [ 5 + 36 + 36 + 36 ] ;
}
Xplane [ 0 ] = ( byte ) 'D' ;
Xplane [ 1 ] = ( byte ) 'A' ;
Xplane [ 2 ] = ( byte ) 'T' ;
Xplane [ 3 ] = ( byte ) 'A' ;
Xplane [ 4 ] = 0 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) 25 ) , 0 , Xplane , 5 , 4 ) ; // packet index
Array . Copy ( BitConverter . GetBytes ( ( float ) throttle_out ) , 0 , Xplane , 9 , 4 ) ; // start data
Array . Copy ( BitConverter . GetBytes ( ( float ) throttle_out ) , 0 , Xplane , 13 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( float ) throttle_out ) , 0 , Xplane , 17 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( float ) throttle_out ) , 0 , Xplane , 21 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 25 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 29 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 33 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 37 , 4 ) ;
// NEXT ONE - control surfaces
Array . Copy ( BitConverter . GetBytes ( ( int ) 11 ) , 0 , Xplane , 41 , 4 ) ; // packet index
Array . Copy ( BitConverter . GetBytes ( ( float ) ( pitch_out * REV_pitch ) ) , 0 , Xplane , 45 , 4 ) ; // start data
Array . Copy ( BitConverter . GetBytes ( ( float ) ( roll_out * REV_roll ) ) , 0 , Xplane , 49 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( float ) ( rudder_out * REV_rudder ) ) , 0 , Xplane , 53 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 57 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( float ) ( roll_out * REV_roll * 5 ) ) , 0 , Xplane , 61 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 65 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 69 , 4 ) ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , 73 , 4 ) ;
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if ( heli )
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{
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Array . Copy ( BitConverter . GetBytes ( ( float ) ( 0 ) ) , 0 , Xplane , 53 , 4 ) ;
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int a = 73 + 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) 39 ) , 0 , Xplane , a , 4 ) ; // packet index
a + = 4 ;
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Array . Copy ( BitConverter . GetBytes ( ( float ) ( 12 * collective_out ) ) , 0 , Xplane , a , 4 ) ; // main rotor 0 - 12
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a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( float ) ( 12 * rudder_out ) ) , 0 , Xplane , a , 4 ) ; // tail rotor -12 - 12
a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , a , 4 ) ;
a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , a , 4 ) ;
a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , a , 4 ) ;
a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , a , 4 ) ;
a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , a , 4 ) ;
a + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( int ) - 999 ) , 0 , Xplane , a , 4 ) ;
}
try
{
XplanesSEND . Send ( Xplane , Xplane . Length ) ;
}
catch ( Exception e ) { Console . WriteLine ( "Xplanes udp send error " + e . Message ) ; }
}
}
private void RAD_softXplanes_CheckedChanged ( object sender , EventArgs e )
{
if ( RAD_softXplanes . Checked & & RAD_softFlightGear . Checked )
{
RAD_softFlightGear . Checked = false ;
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RAD_aerosimrc . Checked = false ;
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}
}
private void RAD_softFlightGear_CheckedChanged ( object sender , EventArgs e )
{
if ( RAD_softFlightGear . Checked & & RAD_softXplanes . Checked )
{
RAD_softXplanes . Checked = false ;
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RAD_aerosimrc . Checked = false ;
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}
}
private void CHKREV_roll_CheckedChanged ( object sender , EventArgs e )
{
if ( CHKREV_roll . Checked )
{
REV_roll = - 1 ;
}
else
{
REV_roll = 1 ;
}
}
private void CHKREV_pitch_CheckedChanged ( object sender , EventArgs e )
{
if ( CHKREV_pitch . Checked )
{
REV_pitch = - 1 ;
}
else
{
REV_pitch = 1 ;
}
}
private void CHKREV_rudder_CheckedChanged ( object sender , EventArgs e )
{
if ( CHKREV_rudder . Checked )
{
REV_rudder = - 1 ;
}
else
{
REV_rudder = 1 ;
}
}
private void GPSrate_SelectedIndexChanged ( object sender , EventArgs e )
{
try
{
GPS_rate = int . Parse ( GPSrate . Text ) ; //GPSrate.SelectedItem.ToString());
}
catch { }
}
private void OutputLog_TextChanged ( object sender , EventArgs e )
{
if ( OutputLog . TextLength > = 10000 )
{
OutputLog . Text = OutputLog . Text . Substring ( OutputLog . TextLength / 2 ) ;
}
// auto scroll
OutputLog . SelectionStart = OutputLog . Text . Length ;
OutputLog . ScrollToCaret ( ) ;
OutputLog . Refresh ( ) ;
}
private float Constrain ( float value , float min , float max )
{
if ( value > max ) { value = max ; }
if ( value < min ) { value = min ; }
return value ;
}
private short Constrain ( double value , double min , double max )
{
if ( value > max ) { value = max ; }
if ( value < min ) { value = min ; }
return ( short ) value ;
}
public void CreateChart ( ZedGraphControl zgc )
{
GraphPane myPane = zgc . GraphPane ;
// Set the titles and axis labels
myPane . Title . Text = "Servo Output" ;
myPane . XAxis . Title . Text = "Time" ;
myPane . YAxis . Title . Text = "Output" ;
LineItem myCurve ;
myCurve = myPane . AddCurve ( "Roll" , list , Color . Red , SymbolType . None ) ;
myCurve = myPane . AddCurve ( "Pitch" , list2 , Color . Blue , SymbolType . None ) ;
myCurve = myPane . AddCurve ( "Rudder" , list3 , Color . Green , SymbolType . None ) ;
myCurve = myPane . AddCurve ( "Throttle" , list4 , Color . Orange , SymbolType . None ) ;
// Show the x axis grid
myPane . XAxis . MajorGrid . IsVisible = true ;
myPane . XAxis . Scale . Min = 0 ;
myPane . XAxis . Scale . Max = 5 ;
// Make the Y axis scale red
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//myPane.YAxis.Scale.FontSpec.FontColor = Color.Red;
//myPane.YAxis.Title.FontSpec.FontColor = Color.Red;
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// turn off the opposite tics so the Y tics don't show up on the Y2 axis
myPane . YAxis . MajorTic . IsOpposite = false ;
myPane . YAxis . MinorTic . IsOpposite = false ;
// Don't display the Y zero line
myPane . YAxis . MajorGrid . IsZeroLine = true ;
// Align the Y axis labels so they are flush to the axis
myPane . YAxis . Scale . Align = AlignP . Inside ;
// Manually set the axis range
//myPane.YAxis.Scale.Min = -1;
//myPane.YAxis.Scale.Max = 1;
// Fill the axis background with a gradient
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//myPane.Chart.Fill = new Fill(Color.White, Color.LightGray, 45.0f);
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// Sample at 50ms intervals
timer1 . Interval = 50 ;
timer1 . Enabled = true ;
timer1 . Start ( ) ;
// Calculate the Axis Scale Ranges
zgc . AxisChange ( ) ;
tickStart = Environment . TickCount ;
}
private void timer1_Tick ( object sender , EventArgs e )
{
// Make sure that the curvelist has at least one curve
if ( zg1 . GraphPane . CurveList . Count < = 0 )
return ;
// Get the first CurveItem in the graph
LineItem curve = zg1 . GraphPane . CurveList [ 0 ] as LineItem ;
if ( curve = = null )
return ;
// Get the PointPairList
IPointListEdit list = curve . Points as IPointListEdit ;
// If this is null, it means the reference at curve.Points does not
// support IPointListEdit, so we won't be able to modify it
if ( list = = null )
return ;
// Time is measured in seconds
double time = ( Environment . TickCount - tickStart ) / 1000.0 ;
// Keep the X scale at a rolling 30 second interval, with one
// major step between the max X value and the end of the axis
Scale xScale = zg1 . GraphPane . XAxis . Scale ;
if ( time > xScale . Max - xScale . MajorStep )
{
xScale . Max = time + xScale . MajorStep ;
xScale . Min = xScale . Max - 30.0 ;
}
// Make sure the Y axis is rescaled to accommodate actual data
try
{
zg1 . AxisChange ( ) ;
}
catch { }
// Force a redraw
zg1 . Invalidate ( ) ;
}
private void SaveSettings_Click ( object sender , EventArgs e )
{
xmlconfig ( true ) ;
}
private void GPSrate_Leave ( object sender , EventArgs e )
{
// user entered values
GPSrate_SelectedIndexChanged ( sender , e ) ;
}
private void GPSrate_KeyDown ( object sender , KeyEventArgs e )
{
// user entered values
GPSrate_SelectedIndexChanged ( sender , e ) ;
}
private void but_advsettings_Click ( object sender , EventArgs e )
{
InputBox ( "IP" , "Enter Sim pc IP (def 127.0.0.1)" , ref simIP ) ;
string temp = simPort . ToString ( ) ;
InputBox ( "Port" , "Enter Sim pc Port (def 49000)" , ref temp ) ;
simPort = int . Parse ( temp ) ;
temp = recvPort . ToString ( ) ;
InputBox ( "Port" , "Enter Planner pc Port (def 49005)" , ref temp ) ;
recvPort = int . Parse ( temp ) ;
xmlconfig ( true ) ;
//Microsoft.VisualBasic.Interaction.InputBox("Enter Xplane pc IP", "IP", "127.0.0.1", -1, -1);
//Microsoft.VisualBasic.Interaction.InputBox("Enter Xplane pc IP", "IP", "127.0.0.1", -1, -1);
}
//from http://www.csharp-examples.net/inputbox/
public static DialogResult InputBox ( string title , string promptText , ref string value )
{
Form form = new Form ( ) ;
System . Windows . Forms . Label label = new System . Windows . Forms . Label ( ) ;
TextBox textBox = new TextBox ( ) ;
Button buttonOk = new Button ( ) ;
Button buttonCancel = new Button ( ) ;
form . Text = title ;
label . Text = promptText ;
textBox . Text = value ;
buttonOk . Text = "OK" ;
buttonCancel . Text = "Cancel" ;
buttonOk . DialogResult = DialogResult . OK ;
buttonCancel . DialogResult = DialogResult . Cancel ;
label . SetBounds ( 9 , 20 , 372 , 13 ) ;
textBox . SetBounds ( 12 , 36 , 372 , 20 ) ;
buttonOk . SetBounds ( 228 , 72 , 75 , 23 ) ;
buttonCancel . SetBounds ( 309 , 72 , 75 , 23 ) ;
label . AutoSize = true ;
textBox . Anchor = textBox . Anchor | AnchorStyles . Right ;
buttonOk . Anchor = AnchorStyles . Bottom | AnchorStyles . Right ;
buttonCancel . Anchor = AnchorStyles . Bottom | AnchorStyles . Right ;
form . ClientSize = new Size ( 396 , 107 ) ;
form . Controls . AddRange ( new Control [ ] { label , textBox , buttonOk , buttonCancel } ) ;
form . ClientSize = new Size ( Math . Max ( 300 , label . Right + 10 ) , form . ClientSize . Height ) ;
form . FormBorderStyle = FormBorderStyle . FixedDialog ;
form . StartPosition = FormStartPosition . CenterScreen ;
form . MinimizeBox = false ;
form . MaximizeBox = false ;
form . AcceptButton = buttonOk ;
form . CancelButton = buttonCancel ;
DialogResult dialogResult = form . ShowDialog ( ) ;
if ( dialogResult = = DialogResult . OK )
{
value = textBox . Text ;
}
return dialogResult ;
}
private void CHK_quad_CheckedChanged ( object sender , EventArgs e )
{
}
private void BUT_startfgquad_Click ( object sender , EventArgs e )
{
string extra = "" ;
OpenFileDialog ofd = new OpenFileDialog ( )
{
Filter = "fgfs|*fgfs*"
} ;
if ( File . Exists ( @"C:\Program Files (x86)\FlightGear\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files (x86)\FlightGear\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files (x86)\\FlightGear\\data\"" ;
}
else if ( File . Exists ( @"C:\Program Files\FlightGear\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files\FlightGear\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files\\FlightGear\\data\"" ;
}
2011-10-04 08:19:25 -03:00
else if ( File . Exists ( @"C:\Program Files\FlightGear 2.4.0\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files\FlightGear 2.4.0\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files\\FlightGear 2.4.0\\data\"" ;
}
else if ( File . Exists ( @"C:\Program Files (x86)\FlightGear 2.4.0\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files (x86)\FlightGear 2.4.0\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files (x86)\\FlightGear 2.4.0\\data\"" ;
}
2011-09-08 22:31:32 -03:00
else if ( File . Exists ( @"/usr/games/fgfs" ) )
{
ofd . InitialDirectory = @"/usr/games" ;
}
if ( File . Exists ( MainV2 . getConfig ( "fgexe" ) ) | | ofd . ShowDialog ( ) = = DialogResult . OK )
{
if ( ofd . FileName ! = "" )
{
MainV2 . config [ "fgexe" ] = ofd . FileName ;
}
else
{
ofd . FileName = MainV2 . config [ "fgexe" ] . ToString ( ) ;
}
System . Diagnostics . Process P = new System . Diagnostics . Process ( ) ;
P . StartInfo . FileName = ofd . FileName ;
P . StartInfo . Arguments = extra + @" --geometry=400x300 --aircraft=arducopter --native-fdm=socket,out,50,127.0.0.1,49005,udp --generic=socket,in,50,127.0.0.1,49000,udp,quadhil --fdm=external --roll=0 --pitch=0 --wind=0@0 --turbulence=0.0 --prop:/sim/frame-rate-throttle-hz111111=30 --timeofday=noon --shading-flat --fog-disable --disable-specular-highlight --disable-skyblend --disable-random-objects --disable-panel --disable-horizon-effect --disable-clouds --disable-anti-alias-hud " ;
P . Start ( ) ;
}
}
private void BUT_startfgplane_Click ( object sender , EventArgs e )
{
string extra = "" ;
OpenFileDialog ofd = new OpenFileDialog ( )
{
Filter = "fgfs|*fgfs*"
} ;
if ( File . Exists ( @"C:\Program Files (x86)\FlightGear\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files (x86)\FlightGear\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files (x86)\\FlightGear\\data\"" ;
}
else if ( File . Exists ( @"C:\Program Files\FlightGear\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files\FlightGear\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files\\FlightGear\\data\"" ;
}
2011-10-09 04:00:12 -03:00
else if ( File . Exists ( @"C:\Program Files\FlightGear 2.4.0\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files\FlightGear 2.4.0\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files\\FlightGear 2.4.0\\data\"" ;
}
else if ( File . Exists ( @"C:\Program Files (x86)\FlightGear 2.4.0\bin\Win32\fgfs.exe" ) )
{
ofd . InitialDirectory = @"C:\Program Files (x86)\FlightGear 2.4.0\bin\Win32\" ;
extra = " --fg-root=\"C:\\Program Files (x86)\\FlightGear 2.4.0\\data\"" ;
}
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else if ( File . Exists ( @"/usr/games/fgfs" ) )
{
ofd . InitialDirectory = @"/usr/games" ;
}
if ( File . Exists ( MainV2 . getConfig ( "fgexe" ) ) | | ofd . ShowDialog ( ) = = DialogResult . OK )
{
if ( ofd . FileName ! = "" )
{
MainV2 . config [ "fgexe" ] = ofd . FileName ;
}
else
{
ofd . FileName = MainV2 . config [ "fgexe" ] . ToString ( ) ;
}
System . Diagnostics . Process P = new System . Diagnostics . Process ( ) ;
P . StartInfo . FileName = ofd . FileName ;
P . StartInfo . Arguments = extra + @" --geometry=400x300 --native-fdm=socket,out,50,127.0.0.1,49005,udp --generic=socket,in,50,127.0.0.1,49000,udp,MAVLink --roll=0 --pitch=0 --wind=0@0 --turbulence=0.0 --prop:/sim/frame-rate-throttle-hz=30 --timeofday=noon --shading-flat --fog-disable --disable-specular-highlight --disable-skyblend --disable-random-objects --disable-panel --disable-horizon-effect --disable-clouds --disable-anti-alias-hud " ;
P . Start ( ) ;
}
}
private void BUT_startxplane_Click ( object sender , EventArgs e )
{
OpenFileDialog ofd = new OpenFileDialog ( )
{
Filter = "X-Plane|*X-Plane*"
} ;
try
{
ofd . InitialDirectory = Path . GetDirectoryName ( MainV2 . config [ "xplaneexe" ] . ToString ( ) ) ;
}
catch { }
if ( File . Exists ( MainV2 . getConfig ( "xplaneexe" ) ) | | ofd . ShowDialog ( ) = = DialogResult . OK )
{
if ( ofd . FileName ! = "" )
{
MainV2 . config [ "xplaneexe" ] = ofd . FileName ;
}
else
{
ofd . FileName = MainV2 . config [ "xplaneexe" ] . ToString ( ) ;
}
System . Diagnostics . Process P = new System . Diagnostics . Process ( ) ;
P . StartInfo . FileName = ofd . FileName ;
P . StartInfo . Arguments = "" ;
P . Start ( ) ;
}
}
private void TXT_rollgain_TextChanged ( object sender , EventArgs e )
{
updateGains ( ) ;
}
private void TXT_pitchgain_TextChanged ( object sender , EventArgs e )
{
updateGains ( ) ;
}
private void TXT_ruddergain_TextChanged ( object sender , EventArgs e )
{
updateGains ( ) ;
}
private void TXT_throttlegain_TextChanged ( object sender , EventArgs e )
{
updateGains ( ) ;
}
void updateGains ( )
{
try
{
rollgain = int . Parse ( TXT_rollgain . Text ) ;
pitchgain = int . Parse ( TXT_pitchgain . Text ) ;
ruddergain = int . Parse ( TXT_ruddergain . Text ) ;
throttlegain = int . Parse ( TXT_throttlegain . Text ) ;
}
catch ( Exception ) { this . Invoke ( ( MethodInvoker ) delegate { OutputLog . AppendText ( "Bad Gains!!!\n" ) ; } ) ; }
}
private void CHKdisplayall_CheckedChanged ( object sender , EventArgs e )
{
displayfull = CHKdisplayall . Checked ;
if ( displayfull )
{
//this.Width = 651;
timer1 . Start ( ) ;
zg1 . Visible = true ;
CHKgraphpitch . Visible = true ;
CHKgraphroll . Visible = true ;
CHKgraphrudder . Visible = true ;
CHKgraphthrottle . Visible = true ;
}
else
{
//651, 457
//this.Width = 651;
//this.Height = 457;
timer1 . Stop ( ) ;
zg1 . Visible = false ;
CHKgraphpitch . Visible = false ;
CHKgraphroll . Visible = false ;
CHKgraphrudder . Visible = false ;
CHKgraphthrottle . Visible = false ;
}
}
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private void RAD_aerosimrc_CheckedChanged ( object sender , EventArgs e )
{
if ( RAD_aerosimrc . Checked & & RAD_softXplanes . Checked )
{
RAD_softXplanes . Checked = false ;
RAD_softFlightGear . Checked = false ;
}
}
2011-09-08 22:31:32 -03:00
}
}
