public static NumSnapSteps CalculateNumSnapSteps(float snapStep, float total)
{
NumSnapSteps numSteps = new NumSnapSteps();
numSteps.FltNumSteps = total / snapStep;
numSteps.AbsFltNumSteps = Mathf.Abs(numSteps.FltNumSteps);
numSteps.IntNumSteps = (int)numSteps.FltNumSteps;
numSteps.AbsIntNumSteps = Mathf.Abs(numSteps.IntNumSteps);
numSteps.AbsFracSteps = numSteps.AbsFltNumSteps - numSteps.AbsIntNumSteps;
return(numSteps);
}
protected override void CalculateDragValues()
{
IInputDevice inputDevice = RTInputDevice.Get.Device;
Vector2 inputDeviceDelta = inputDevice.GetFrameDelta();
_relativeRotation0 = Vector2.Dot(inputDeviceDelta, _workData.ScreenAxis0) * Sensitivity;
_relativeRotation1 = Vector2.Dot(inputDeviceDelta, _workData.ScreenAxis1) * Sensitivity;
if (_relativeRotation0 == 0.0f && _relativeRotation1 == 0.0f)
{
_relativeDragRotation = Quaternion.identity;
return;
}
if (CanSnap())
{
_accumSnapDrag0 += _relativeRotation0;
_accumSnapDrag0 %= 360.0f;
_accumSnapDrag1 += _relativeRotation1;
_accumSnapDrag1 %= 360.0f;
if (_workData.SnapMode == GizmoSnapMode.Absolute && _adjustRotationForAbsSnap)
{
NumSnapSteps numSnapSteps = SnapMath.CalculateNumSnapSteps(_workData.SnapStep0, _totalRotation0);
float oldRotation = _totalRotation0;
if (numSnapSteps.AbsFracSteps < 0.5f)
{
_totalRotation0 = numSnapSteps.AbsIntNumSteps * _workData.SnapStep0 * Mathf.Sign(_totalRotation0);
}
else
{
_totalRotation0 = (numSnapSteps.AbsIntNumSteps + 1) * _workData.SnapStep0 * Mathf.Sign(_totalRotation0);
}
_accumSnapDrag0 = 0.0f;
_relativeRotation0 = _totalRotation0 - oldRotation;
numSnapSteps = SnapMath.CalculateNumSnapSteps(_workData.SnapStep1, _totalRotation1);
oldRotation = _totalRotation1;
if (numSnapSteps.AbsFracSteps < 0.5f)
{
_totalRotation1 = numSnapSteps.AbsIntNumSteps * _workData.SnapStep1 * Mathf.Sign(_totalRotation1);
}
else
{
_totalRotation1 = (numSnapSteps.AbsIntNumSteps + 1) * _workData.SnapStep1 * Mathf.Sign(_totalRotation1);
}
_accumSnapDrag1 = 0.0f;
_relativeRotation1 = _totalRotation1 - oldRotation;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation1, _workData.Axis1) * Quaternion.AngleAxis(_relativeRotation0, _workData.Axis0);
_adjustRotationForAbsSnap = false;
}
else
{
_relativeDragRotation = Quaternion.identity;
if (SnapMath.CanExtractSnap(_workData.SnapStep0, _accumSnapDrag0))
{
_relativeRotation0 = SnapMath.ExtractSnap(_workData.SnapStep0, ref _accumSnapDrag0);
_totalRotation0 += _relativeRotation0;
_totalRotation0 %= 360.0f;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation0, _workData.Axis0);
}
if (SnapMath.CanExtractSnap(_workData.SnapStep1, _accumSnapDrag1))
{
_relativeRotation1 = SnapMath.ExtractSnap(_workData.SnapStep1, ref _accumSnapDrag1);
_totalRotation1 += _relativeRotation1;
_totalRotation1 %= 360.0f;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation1, _workData.Axis1) * _relativeDragRotation;
}
}
}
else
{
_adjustRotationForAbsSnap = true;
_accumSnapDrag0 = _accumSnapDrag1 = 0.0f;
_totalRotation0 += _relativeRotation0;
_totalRotation1 += _relativeRotation1;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation1, _workData.Axis1) * Quaternion.AngleAxis(_relativeRotation0, _workData.Axis0);
}
_totalDragRotation = _relativeDragRotation * _totalDragRotation;
}
protected override void CalculateDragValues()
{
IInputDevice inputDevice = RTInputDevice.Get.Device;
_relativeRotation = Vector2.Dot(_screenDragCircleTangent, inputDevice.GetFrameDelta()) * Sensitivity;
if (_relativeRotation == 0.0f)
{
_relativeDragRotation = Quaternion.identity;
return;
}
if (CanSnap())
{
_accumSnapDrag += _relativeRotation;
_accumSnapDrag %= 360.0f;
if (_workData.SnapMode == GizmoSnapMode.Absolute && _adjustRotationForAbsSnap)
{
NumSnapSteps numSnapSteps = SnapMath.CalculateNumSnapSteps(_workData.SnapStep, _totalRotation);
float oldRotation = _totalRotation;
if (numSnapSteps.AbsFracSteps < 0.5f)
{
_totalRotation = numSnapSteps.AbsIntNumSteps * _workData.SnapStep * Mathf.Sign(_totalRotation);
}
else
{
_totalRotation = (numSnapSteps.AbsIntNumSteps + 1) * _workData.SnapStep * Mathf.Sign(_totalRotation);
}
_relativeRotation = _totalRotation - oldRotation;
_accumSnapDrag = 0.0f;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation, _workData.Axis);
_adjustRotationForAbsSnap = false;
}
else
if (SnapMath.CanExtractSnap(_workData.SnapStep, _accumSnapDrag))
{
_relativeRotation = SnapMath.ExtractSnap(_workData.SnapStep, ref _accumSnapDrag);
_totalRotation += _relativeRotation;
_totalRotation %= 360.0f;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation, _workData.Axis);
}
else
{
_relativeDragRotation = Quaternion.identity;
}
}
else
{
_accumSnapDrag = 0.0f;
_adjustRotationForAbsSnap = true;
_totalRotation += _relativeRotation;
_totalRotation %= 360.0f;
_relativeDragRotation = Quaternion.AngleAxis(_relativeRotation, _workData.Axis);
}
_totalDragRotation = Quaternion.AngleAxis(_totalRotation, _workData.Axis);
}
