cemu-DS4Windows/DS4Windows/DS4Control/MouseCursor.cs

298 lines
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C#
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namespace DS4Windows
{
class MouseCursor
{
private readonly int deviceNumber;
public MouseCursor(int deviceNum)
{
deviceNumber = deviceNum;
}
// Keep track of remainders when performing moves or we lose fractional parts.
private double horizontalRemainder = 0.0, verticalRemainder = 0.0;
private double hRemainder = 0.0, vRemainder = 0.0;
/** Indicate x/y direction for doing jitter compensation, etc. */
public enum Direction { Negative, Neutral, Positive }
// Track direction vector separately and very trivially for now.
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private Direction horizontalDirection = Direction.Neutral,
verticalDirection = Direction.Neutral;
private Direction hDirection = Direction.Neutral, vDirection = Direction.Neutral;
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private const double GYRO_MOUSE_COEFFICIENT = 0.0095;
private const int GYRO_MOUSE_DEADZONE = 12;
private const double GYRO_MOUSE_OFFSET = 0.1463;
private const double GYRO_SMOOTH_MOUSE_OFFSET = 0.14698;
private const double TOUCHPAD_MOUSE_OFFSET = 0.015;
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private const int SMOOTH_BUFFER_LEN = 3;
private double[] xSmoothBuffer = new double[SMOOTH_BUFFER_LEN];
private double[] ySmoothBuffer = new double[SMOOTH_BUFFER_LEN];
private int smoothBufferTail = 0;
double coefficient = 0.0;
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double verticalScale = 0.0;
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bool gyroSmooth = false;
int tempInt = 0;
double tempDouble = 0.0;
bool tempBool = false;
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public virtual void sixaxisMoved(SixAxisEventArgs arg)
{
int deltaX = 0, deltaY = 0;
deltaX = Global.getGyroMouseHorizontalAxis(deviceNumber) == 0 ? arg.sixAxis.gyroYawFull :
arg.sixAxis.gyroRollFull;
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deltaY = -arg.sixAxis.gyroPitchFull;
//tempDouble = arg.sixAxis.elapsed * 0.001 * 200.0; // Base default speed on 5 ms
tempDouble = arg.sixAxis.elapsed * 200.0; // Base default speed on 5 ms
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gyroSmooth = Global.getGyroSmoothing(deviceNumber);
double gyroSmoothWeight = 0.0;
coefficient = (Global.getGyroSensitivity(deviceNumber) * 0.01) * GYRO_MOUSE_COEFFICIENT;
double offset = GYRO_MOUSE_OFFSET;
if (gyroSmooth)
{
gyroSmoothWeight = Global.getGyroSmoothingWeight(deviceNumber);
if (gyroSmoothWeight > 0.0)
{
offset = GYRO_SMOOTH_MOUSE_OFFSET;
}
}
double tempAngle = System.Math.Atan2(-deltaY, deltaX);
double normX = System.Math.Abs(System.Math.Cos(tempAngle));
double normY = System.Math.Abs(System.Math.Sin(tempAngle));
int signX = System.Math.Sign(deltaX);
int signY = System.Math.Sign(deltaY);
if (deltaX == 0 || (hRemainder > 0 != deltaX > 0))
{
hRemainder = 0.0;
}
if (deltaY == 0 || (vRemainder > 0 != deltaY > 0))
{
vRemainder = 0.0;
}
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int deadzoneX = (int)System.Math.Abs(normX * GYRO_MOUSE_DEADZONE);
int deadzoneY = (int)System.Math.Abs(normY * GYRO_MOUSE_DEADZONE);
if (System.Math.Abs(deltaX) > deadzoneX)
{
deltaX -= signX * deadzoneX;
}
else
{
deltaX = 0;
}
if (System.Math.Abs(deltaY) > deadzoneY)
{
deltaY -= signY * deadzoneY;
}
else
{
deltaY = 0;
}
double xMotion = deltaX != 0 ? coefficient * (deltaX * tempDouble)
+ (normX * (offset * signX)) : 0;
int xAction = 0;
if (xMotion != 0.0)
{
xMotion += hRemainder;
}
else
{
hRemainder = 0.0;
}
verticalScale = Global.getGyroSensVerticalScale(deviceNumber) * 0.01;
double yMotion = deltaY != 0 ? (coefficient * verticalScale) * (deltaY * tempDouble)
+ (normY * (offset * signY)) : 0;
int yAction = 0;
if (yMotion != 0.0)
{
yMotion += vRemainder;
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}
else
{
vRemainder = 0.0;
}
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if (gyroSmooth)
{
int iIndex = smoothBufferTail % SMOOTH_BUFFER_LEN;
xSmoothBuffer[iIndex] = xMotion;
ySmoothBuffer[iIndex] = yMotion;
smoothBufferTail = iIndex + 1;
double currentWeight = 1.0;
double finalWeight = 0.0;
double x_out = 0.0, y_out = 0.0;
int idx = 0;
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for (int i = 0; i < SMOOTH_BUFFER_LEN; i++)
{
idx = System.Math.Abs(smoothBufferTail - i - 1) % SMOOTH_BUFFER_LEN;
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x_out += xSmoothBuffer[idx] * currentWeight;
y_out += ySmoothBuffer[idx] * currentWeight;
finalWeight += currentWeight;
currentWeight *= gyroSmoothWeight;
}
x_out /= finalWeight;
xMotion = x_out;
y_out /= finalWeight;
yMotion = y_out;
}
hRemainder = vRemainder = 0.0;
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if (xMotion != 0.0)
{
xAction = (int)xMotion;
hRemainder = xMotion - xAction;
}
if (yMotion != 0.0)
{
yAction = (int)yMotion;
vRemainder = yMotion - yAction;
}
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int gyroInvert = Global.getGyroInvert(deviceNumber);
if ((gyroInvert & 0x02) == 2)
xAction *= -1;
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if ((gyroInvert & 0x01) == 1)
yAction *= -1;
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if (yAction != 0 || xAction != 0)
InputMethods.MoveCursorBy(xAction, yAction);
hDirection = xMotion > 0.0 ? Direction.Positive : xMotion < 0.0 ? Direction.Negative : Direction.Neutral;
vDirection = yMotion > 0.0 ? Direction.Positive : yMotion < 0.0 ? Direction.Negative : Direction.Neutral;
}
public void mouseRemainderReset()
{
hRemainder = vRemainder = 0.0;
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int iIndex = smoothBufferTail % SMOOTH_BUFFER_LEN;
xSmoothBuffer[iIndex] = 0.0;
ySmoothBuffer[iIndex] = 0.0;
smoothBufferTail = iIndex + 1;
}
public void touchesBegan(TouchpadEventArgs arg)
{
if (arg.touches.Length == 1)
{
horizontalRemainder = verticalRemainder = 0.0;
horizontalDirection = verticalDirection = Direction.Neutral;
}
}
private byte lastTouchID;
public void touchesMoved(TouchpadEventArgs arg, bool dragging, bool disableInvert = false)
{
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int touchesLen = arg.touches.Length;
if ((!dragging && touchesLen != 1) || (dragging && touchesLen < 1))
return;
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int deltaX = 0, deltaY = 0;
if (arg.touches[0].touchID != lastTouchID)
{
deltaX = deltaY = 0;
horizontalRemainder = verticalRemainder = 0.0;
horizontalDirection = verticalDirection = Direction.Neutral;
lastTouchID = arg.touches[0].touchID;
}
else
{
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if (dragging && touchesLen > 1)
{
deltaX = arg.touches[1].deltaX;
deltaY = arg.touches[1].deltaY;
}
else
{
deltaX = arg.touches[0].deltaX;
deltaY = arg.touches[0].deltaY;
}
}
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double tempAngle = System.Math.Atan2(-deltaY, deltaX);
double normX = System.Math.Abs(System.Math.Cos(tempAngle));
double normY = System.Math.Abs(System.Math.Sin(tempAngle));
int signX = System.Math.Sign(deltaX);
int signY = System.Math.Sign(deltaY);
double coefficient = Global.getTouchSensitivity(deviceNumber) * 0.01;
bool jitterCompenstation = Global.getTouchpadJitterCompensation(deviceNumber);
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double xMotion = deltaX != 0 ?
coefficient * deltaX + (normX * (TOUCHPAD_MOUSE_OFFSET * signX)) : 0.0;
double yMotion = deltaY != 0 ?
coefficient * deltaY + (normY * (TOUCHPAD_MOUSE_OFFSET * signY)) : 0.0;
if (jitterCompenstation)
{
double absX = System.Math.Abs(xMotion);
if (absX <= normX * 1.0)
{
xMotion = signX * System.Math.Pow(absX, 1.0725);
}
double absY = System.Math.Abs(yMotion);
if (absY <= normY * 1.0)
{
yMotion = signY * System.Math.Pow(absY, 1.0725);
}
}
// Collect rounding errors instead of losing motion.
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if (xMotion > 0.0 && horizontalRemainder > 0.0)
{
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xMotion += horizontalRemainder;
}
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else if (xMotion < 0.0 && horizontalRemainder < 0.0)
{
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xMotion += horizontalRemainder;
}
int xAction = (int)xMotion;
horizontalRemainder = xMotion - xAction;
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if (yMotion > 0.0 && verticalRemainder > 0.0)
{
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yMotion += verticalRemainder;
}
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else if (yMotion < 0.0 && verticalRemainder < 0.0)
{
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yMotion += verticalRemainder;
}
int yAction = (int)yMotion;
verticalRemainder = yMotion - yAction;
if (disableInvert == false)
{
int touchpadInvert = tempInt = Global.getTouchpadInvert(deviceNumber);
if ((touchpadInvert & 0x02) == 2)
xAction *= -1;
if ((touchpadInvert & 0x01) == 1)
yAction *= -1;
}
if (yAction != 0 || xAction != 0)
InputMethods.MoveCursorBy(xAction, yAction);
horizontalDirection = xMotion > 0.0 ? Direction.Positive : xMotion < 0.0 ? Direction.Negative : Direction.Neutral;
verticalDirection = yMotion > 0.0 ? Direction.Positive : yMotion < 0.0 ? Direction.Negative : Direction.Neutral;
}
}
}