public static void ShowCalibration(Point point)
{
if (form == null)
{
form = new CalibrationForm();
form.TopMost = true;
}
form.ShowCalibration(point, CROSSHAIR_SIZE, p);
form.Show();
}
void controller_CalibrationStateChanged(object sender, EventArgs <Controller.CalibrationStateInfo> e)
{
if (e.Value.State > 0)
{
BeginInvoke((MethodInvoker) delegate() { TopMost = false; CalibrationForm.ShowCalibration(e.Value.TargetPoint); });
}
else
{
BeginInvoke((MethodInvoker) delegate() { CalibrationForm.HideCalibration(); UpdateTrackingUtilization(controller.SourceLayout); TopMost = cbAlwaysOnTop.Checked; });
}
}
public static void ShowCalibration(Point point)
{
if (form == null)
{
form = new CalibrationForm();
form.TopMost = true;
}
form.ShowCalibration(point, CROSSHAIR_SIZE, p);
form.Show();
}
private void btnCalibrate_Click(object sender, EventArgs e)
{
if (cf == null || cf.IsDisposed)
{
cf = new CalibrationForm();
}
cf.Show();
_cursorControl = false;
_calibrationState = 1;
DoCalibration();
}
void controller_CalibrationStateChanged(object sender, EventArgs <Controller.CalibrationStateInfo> e)
{
try
{
if (e.Value.State > 0)
{
BeginInvoke((MethodInvoker) delegate() { TopMost = false; CalibrationForm.ShowCalibration(e.Value.TargetPoint); });
}
else
{
BeginInvoke((MethodInvoker) delegate()
{
CalibrationForm.HideCalibration(); UpdateTrackingUtilization(controller.SourceLayout);
TopMost = cbAlwaysOnTop.Checked;
});
}
}
catch (Exception) {
MessageBox.Show("Error! Problema Con La Wiilib", "Error!", MessageBoxButtons.OK, MessageBoxIcon.Error);
this.Close();
}
}
public void doCalibration()
{
if (cf == null)
{
return;
}
int x = 0;
int y = 0;
int size = 25;
Pen p = new Pen(Color.Red);
switch (calibrationState)
{
case 1:
x = (int)(screenWidth * calibrationMargin);
y = (int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 2:
x = screenWidth - (int)(screenWidth * calibrationMargin);
y = (int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 3:
x = (int)(screenWidth * calibrationMargin);
y = screenHeight - (int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 4:
x = screenWidth - (int)(screenWidth * calibrationMargin);
y = screenHeight - (int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 5:
//compute warp
warper.setDestination(dstX[0], dstY[0], dstX[1], dstY[1], dstX[2], dstY[2], dstX[3], dstY[3]);
warper.setSource(srcX[0], srcY[0], srcX[1], srcY[1], srcX[2], srcY[2], srcX[3], srcY[3]);
warper.computeWarp();
f.Close();
cf = null;
calibrationState = 0;
cursorControl = true;
BeginInvoke((MethodInvoker) delegate() { cbCursorControl.Checked = cursorControl; });
// saveCalibrationData();
UpdateTrackingUtilization();
break;
default:
break;
}
}
private void btnCalibrate_Click(object sender, EventArgs e)
{
if (cf == null)
{
cf = new CalibrationForm();
cf.Show();
}
if (cf.IsDisposed)
{
cf = new CalibrationForm();
cf.Show();
}
cursorControl = false;
calibrationState = 1;
doCalibration();
}
public void doCalibration()
{
if (cf == null)
return;
int x = 0;
int y = 0;
int size = 25;
Pen p = new Pen(Color.Red);
switch (calibrationState)
{
case 1:
x = (int)(screenWidth * calibrationMargin);
y = (int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 2:
x = screenWidth - (int)(screenWidth * calibrationMargin);
y = (int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 3:
x = (int)(screenWidth * calibrationMargin);
y = screenHeight -(int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 4:
x = screenWidth - (int)(screenWidth * calibrationMargin);
y = screenHeight -(int)(screenHeight * calibrationMargin);
cf.showCalibration(x, y, size, p);
dstX[calibrationState - 1] = x;
dstY[calibrationState - 1] = y;
break;
case 5:
//compute warp
warper.setDestination(dstX[0], dstY[0], dstX[1], dstY[1], dstX[2], dstY[2], dstX[3], dstY[3]);
warper.setSource(srcX[0], srcY[0], srcX[1], srcY[1], srcX[2], srcY[2], srcX[3], srcY[3]);
warper.computeWarp();
cf.Close();
cf = null;
calibrationState = 0;
cursorControl = true;
BeginInvoke((MethodInvoker)delegate() { cbCursorControl.Checked = cursorControl; });
saveCalibrationData();
UpdateTrackingUtilization();
break;
default:
break;
}
}