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using System ;
namespace DS4Windows
{
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public delegate void SixAxisHandler < TEventArgs > ( DS4SixAxis sender , TEventArgs args ) ;
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public class SixAxisEventArgs : EventArgs
{
public readonly SixAxis sixAxis ;
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public readonly DateTime timeStamp ;
public SixAxisEventArgs ( DateTime utcTimestamp , SixAxis sa )
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{
sixAxis = sa ;
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timeStamp = utcTimestamp ;
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}
}
public class SixAxis
{
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public const int ACC_RES_PER_G = 8192 ;
private const float F_ACC_RES_PER_G = ACC_RES_PER_G ;
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public const int GYRO_RES_IN_DEG_SEC = 16 ;
private const float F_GYRO_RES_IN_DEG_SEC = GYRO_RES_IN_DEG_SEC ;
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public int gyroYaw , gyroPitch , gyroRoll , accelX , accelY , accelZ ;
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public int outputAccelX , outputAccelY , outputAccelZ ;
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public double accelXG , accelYG , accelZG ;
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public double angVelYaw , angVelPitch , angVelRoll ;
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public int gyroYawFull , gyroPitchFull , gyroRollFull ;
public int accelXFull , accelYFull , accelZFull ;
public double elapsed ;
public SixAxis previousAxis = null ;
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private double tempDouble = 0d ;
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public SixAxis ( int X , int Y , int Z ,
int aX , int aY , int aZ ,
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double elapsedDelta , SixAxis prevAxis = null )
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{
populate ( X , Y , Z , aX , aY , aZ , elapsedDelta , prevAxis ) ;
}
public void copy ( SixAxis src )
{
gyroYaw = src . gyroYaw ;
gyroPitch = src . gyroPitch ;
gyroRoll = src . gyroRoll ;
gyroYawFull = src . gyroYawFull ;
accelXFull = src . accelXFull ; accelYFull = src . accelYFull ; accelZFull = src . accelZFull ;
angVelYaw = src . angVelYaw ;
angVelPitch = src . angVelPitch ;
angVelRoll = src . angVelRoll ;
accelXG = src . accelXG ;
accelYG = src . accelYG ;
accelZG = src . accelZG ;
// Put accel ranges between 0 - 128 abs
accelX = src . accelX ;
accelY = src . accelY ;
accelZ = src . accelZ ;
outputAccelX = accelX ;
outputAccelY = accelY ;
outputAccelZ = accelZ ;
elapsed = src . elapsed ;
previousAxis = src . previousAxis ;
}
public void populate ( int X , int Y , int Z ,
int aX , int aY , int aZ ,
double elapsedDelta , SixAxis prevAxis = null )
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{
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gyroYaw = - X / 256 ;
gyroPitch = Y / 256 ;
gyroRoll = - Z / 256 ;
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gyroYawFull = - X ; gyroPitchFull = Y ; gyroRollFull = - Z ;
accelXFull = - aX ; accelYFull = - aY ; accelZFull = aZ ;
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angVelYaw = gyroYawFull / F_GYRO_RES_IN_DEG_SEC ;
angVelPitch = gyroPitchFull / F_GYRO_RES_IN_DEG_SEC ;
angVelRoll = gyroRollFull / F_GYRO_RES_IN_DEG_SEC ;
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accelXG = tempDouble = accelXFull / F_ACC_RES_PER_G ;
accelYG = tempDouble = accelYFull / F_ACC_RES_PER_G ;
accelZG = tempDouble = accelZFull / F_ACC_RES_PER_G ;
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// Put accel ranges between 0 - 128 abs
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accelX = - aX / 64 ;
accelY = - aY / 64 ;
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accelZ = aZ / 64 ;
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outputAccelX = accelX ;
outputAccelY = accelY ;
outputAccelZ = accelZ ;
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elapsed = elapsedDelta ;
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previousAxis = prevAxis ;
}
}
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internal class CalibData
{
public int bias ;
public int sensNumer ;
public int sensDenom ;
public const int GyroPitchIdx = 0 , GyroYawIdx = 1 , GyroRollIdx = 2 ,
AccelXIdx = 3 , AccelYIdx = 4 , AccelZIdx = 5 ;
}
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public class DS4SixAxis
{
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//public event EventHandler<SixAxisEventArgs> SixAccelMoved = null;
public event SixAxisHandler < SixAxisEventArgs > SixAccelMoved = null ;
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private SixAxis sPrev = null , now = null ;
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private CalibData [ ] calibrationData = new CalibData [ 6 ] { new CalibData ( ) , new CalibData ( ) ,
new CalibData ( ) , new CalibData ( ) , new CalibData ( ) , new CalibData ( )
} ;
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private bool calibrationDone = false ;
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public DS4SixAxis ( )
{
sPrev = new SixAxis ( 0 , 0 , 0 , 0 , 0 , 0 , 0.0 ) ;
now = new SixAxis ( 0 , 0 , 0 , 0 , 0 , 0 , 0.0 ) ;
}
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int temInt = 0 ;
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public void setCalibrationData ( ref byte [ ] calibData , bool fromUSB )
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{
int pitchPlus , pitchMinus , yawPlus , yawMinus , rollPlus , rollMinus ,
accelXPlus , accelXMinus , accelYPlus , accelYMinus , accelZPlus , accelZMinus ,
gyroSpeedPlus , gyroSpeedMinus ;
calibrationData [ 0 ] . bias = ( short ) ( ( ushort ) ( calibData [ 2 ] < < 8 ) | calibData [ 1 ] ) ;
calibrationData [ 1 ] . bias = ( short ) ( ( ushort ) ( calibData [ 4 ] < < 8 ) | calibData [ 3 ] ) ;
calibrationData [ 2 ] . bias = ( short ) ( ( ushort ) ( calibData [ 6 ] < < 8 ) | calibData [ 5 ] ) ;
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if ( ! fromUSB )
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{
pitchPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 8 ] < < 8 ) | calibData [ 7 ] ) ;
yawPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 10 ] < < 8 ) | calibData [ 9 ] ) ;
rollPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 12 ] < < 8 ) | calibData [ 11 ] ) ;
pitchMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 14 ] < < 8 ) | calibData [ 13 ] ) ;
yawMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 16 ] < < 8 ) | calibData [ 15 ] ) ;
rollMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 18 ] < < 8 ) | calibData [ 17 ] ) ;
}
else
{
pitchPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 8 ] < < 8 ) | calibData [ 7 ] ) ;
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pitchMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 10 ] < < 8 ) | calibData [ 9 ] ) ;
yawPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 12 ] < < 8 ) | calibData [ 11 ] ) ;
yawMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 14 ] < < 8 ) | calibData [ 13 ] ) ;
rollPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 16 ] < < 8 ) | calibData [ 15 ] ) ;
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rollMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 18 ] < < 8 ) | calibData [ 17 ] ) ;
}
gyroSpeedPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 20 ] < < 8 ) | calibData [ 19 ] ) ;
gyroSpeedMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 22 ] < < 8 ) | calibData [ 21 ] ) ;
accelXPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 24 ] < < 8 ) | calibData [ 23 ] ) ;
accelXMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 26 ] < < 8 ) | calibData [ 25 ] ) ;
accelYPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 28 ] < < 8 ) | calibData [ 27 ] ) ;
accelYMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 30 ] < < 8 ) | calibData [ 29 ] ) ;
accelZPlus = temInt = ( short ) ( ( ushort ) ( calibData [ 32 ] < < 8 ) | calibData [ 31 ] ) ;
accelZMinus = temInt = ( short ) ( ( ushort ) ( calibData [ 34 ] < < 8 ) | calibData [ 33 ] ) ;
int gyroSpeed2x = temInt = ( gyroSpeedPlus + gyroSpeedMinus ) ;
calibrationData [ 0 ] . sensNumer = gyroSpeed2x * SixAxis . GYRO_RES_IN_DEG_SEC ;
calibrationData [ 0 ] . sensDenom = pitchPlus - pitchMinus ;
calibrationData [ 1 ] . sensNumer = gyroSpeed2x * SixAxis . GYRO_RES_IN_DEG_SEC ;
calibrationData [ 1 ] . sensDenom = yawPlus - yawMinus ;
calibrationData [ 2 ] . sensNumer = gyroSpeed2x * SixAxis . GYRO_RES_IN_DEG_SEC ;
calibrationData [ 2 ] . sensDenom = rollPlus - rollMinus ;
int accelRange = temInt = accelXPlus - accelXMinus ;
calibrationData [ 3 ] . bias = accelXPlus - accelRange / 2 ;
calibrationData [ 3 ] . sensNumer = 2 * SixAxis . ACC_RES_PER_G ;
calibrationData [ 3 ] . sensDenom = accelRange ;
accelRange = temInt = accelYPlus - accelYMinus ;
calibrationData [ 4 ] . bias = accelYPlus - accelRange / 2 ;
calibrationData [ 4 ] . sensNumer = 2 * SixAxis . ACC_RES_PER_G ;
calibrationData [ 4 ] . sensDenom = accelRange ;
accelRange = temInt = accelZPlus - accelZMinus ;
calibrationData [ 5 ] . bias = accelZPlus - accelRange / 2 ;
calibrationData [ 5 ] . sensNumer = 2 * SixAxis . ACC_RES_PER_G ;
calibrationData [ 5 ] . sensDenom = accelRange ;
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// Check that denom will not be zero.
calibrationDone = calibrationData [ 0 ] . sensDenom ! = 0 & &
calibrationData [ 1 ] . sensDenom ! = 0 & &
calibrationData [ 2 ] . sensDenom ! = 0 & &
accelRange ! = 0 ;
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}
private void applyCalibs ( ref int yaw , ref int pitch , ref int roll ,
ref int accelX , ref int accelY , ref int accelZ )
{
CalibData current = calibrationData [ 0 ] ;
temInt = pitch - current . bias ;
pitch = temInt = ( int ) ( temInt * ( current . sensNumer / ( float ) current . sensDenom ) ) ;
current = calibrationData [ 1 ] ;
temInt = yaw - current . bias ;
yaw = temInt = ( int ) ( temInt * ( current . sensNumer / ( float ) current . sensDenom ) ) ;
current = calibrationData [ 2 ] ;
temInt = roll - current . bias ;
roll = temInt = ( int ) ( temInt * ( current . sensNumer / ( float ) current . sensDenom ) ) ;
current = calibrationData [ 3 ] ;
temInt = accelX - current . bias ;
accelX = temInt = ( int ) ( temInt * ( current . sensNumer / ( float ) current . sensDenom ) ) ;
current = calibrationData [ 4 ] ;
temInt = accelY - current . bias ;
accelY = temInt = ( int ) ( temInt * ( current . sensNumer / ( float ) current . sensDenom ) ) ;
current = calibrationData [ 5 ] ;
temInt = accelZ - current . bias ;
accelZ = temInt = ( int ) ( temInt * ( current . sensNumer / ( float ) current . sensDenom ) ) ;
}
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public unsafe void handleSixaxis ( byte * gyro , byte * accel , DS4State state ,
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double elapsedDelta )
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{
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int currentYaw = ( short ) ( ( ushort ) ( gyro [ 3 ] < < 8 ) | gyro [ 2 ] ) ;
int currentPitch = ( short ) ( ( ushort ) ( gyro [ 1 ] < < 8 ) | gyro [ 0 ] ) ;
int currentRoll = ( short ) ( ( ushort ) ( gyro [ 5 ] < < 8 ) | gyro [ 4 ] ) ;
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int AccelX = ( short ) ( ( ushort ) ( accel [ 1 ] < < 8 ) | accel [ 0 ] ) ;
int AccelY = ( short ) ( ( ushort ) ( accel [ 3 ] < < 8 ) | accel [ 2 ] ) ;
int AccelZ = ( short ) ( ( ushort ) ( accel [ 5 ] < < 8 ) | accel [ 4 ] ) ;
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if ( calibrationDone )
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applyCalibs ( ref currentYaw , ref currentPitch , ref currentRoll , ref AccelX , ref AccelY , ref AccelZ ) ;
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SixAxisEventArgs args = null ;
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if ( AccelX ! = 0 | | AccelY ! = 0 | | AccelZ ! = 0 )
{
if ( SixAccelMoved ! = null )
{
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sPrev . copy ( now ) ;
now . populate ( currentYaw , currentPitch , currentRoll ,
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AccelX , AccelY , AccelZ , elapsedDelta , sPrev ) ;
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args = new SixAxisEventArgs ( state . ReportTimeStamp , now ) ;
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state . Motion = now ;
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SixAccelMoved ( this , args ) ;
}
}
}
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public bool fixupInvertedGyroAxis ( )
{
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bool result = false ;
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// Some, not all, DS4 rev1 gamepads have an inverted YAW gyro axis calibration value (sensNumber>0 but at the same time sensDenom value is <0 while other two axies have both attributes >0).
// If this gamepad has YAW calibration with weird mixed values then fix it automatically to workaround inverted YAW axis problem.
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if ( calibrationData [ 1 ] . sensNumer > 0 & & calibrationData [ 1 ] . sensDenom < 0 & &
calibrationData [ 0 ] . sensDenom > 0 & & calibrationData [ 2 ] . sensDenom > 0 )
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{
calibrationData [ 1 ] . sensDenom * = - 1 ;
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result = true ; // Fixed inverted axis
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}
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return result ;
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}
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}
}