static public VFXExpression SequentialCircle(VFXExpression center, VFXExpression radius, VFXExpression normal, VFXExpression up, VFXExpression index, VFXExpression count)
{
VFXExpression dt = new VFXExpressionCastUintToFloat(VFXOperatorUtility.Modulo(index, count));
dt = dt / new VFXExpressionCastUintToFloat(count);
var cos = new VFXExpressionCos(dt * VFXOperatorUtility.TauExpression[VFXValueType.Float]) as VFXExpression;
var sin = new VFXExpressionSin(dt * VFXOperatorUtility.TauExpression[VFXValueType.Float]) as VFXExpression;
var left = VFXOperatorUtility.Normalize(VFXOperatorUtility.Cross(normal, up));
radius = new VFXExpressionCombine(radius, radius, radius);
sin = new VFXExpressionCombine(sin, sin, sin);
cos = new VFXExpressionCombine(cos, cos, cos);
return(center + (cos * up + sin * left) * radius);
}
static public VFXExpression SequentialCircle(VFXExpression center, VFXExpression radius, VFXExpression normal, VFXExpression up, VFXExpression index, VFXExpression count, SequentialAddressingMode mode)
{
VFXExpression countForAddressing = count;
if (mode == SequentialAddressingMode.Clamp || mode == SequentialAddressingMode.Mirror)
{
//Explicitly close the circle loop, if `index` equals to `count`, adds an extra step.
countForAddressing = count + OneExpression[VFXValueType.Uint32];
}
VFXExpression dt = ApplyAddressingMode(index, countForAddressing, mode);
dt = new VFXExpressionCastUintToFloat(dt);
dt = dt / new VFXExpressionCastUintToFloat(count);
var cos = new VFXExpressionCos(dt * VFXOperatorUtility.TauExpression[VFXValueType.Float]) as VFXExpression;
var sin = new VFXExpressionSin(dt * VFXOperatorUtility.TauExpression[VFXValueType.Float]) as VFXExpression;
var left = VFXOperatorUtility.Normalize(VFXOperatorUtility.Cross(normal, up));
radius = new VFXExpressionCombine(radius, radius, radius);
sin = new VFXExpressionCombine(sin, sin, sin);
cos = new VFXExpressionCombine(cos, cos, cos);
return(center + (cos * up + sin * left) * radius);
}
