public bool CheckConstraint(Behaviors.ValidateFunctionArguments validateFunctionArguments, CheckConstraintArguments checkConstraintArguments)
{
if (this.UpstreamConstraint != null)
{
if (!this.UpstreamConstraint.CheckConstraint(validateFunctionArguments, checkConstraintArguments))
{
return(false);
}
}
if (!validateFunctionArguments.ActionsApplied.Contains(Behaviors.ActionsApplied.Translate))
{
// Ignore if no translate applied
return(true);
}
Vector3D rotation, scale, translation;
Matrix4x4Utils.Decompose(validateFunctionArguments.Transform
, out scale
, out rotation
, out translation);
var translation2 = new Vector2D(translation.x, translation.y);
var result = translation2.x >= this.Minimum.x &&
translation2.y >= this.Minimum.y &&
translation2.x <= this.Maximum.x &&
translation2.y <= this.Maximum.y;
return(result);
}
public bool CheckConstraint(Behaviors.ValidateFunctionArguments validateFunctionArguments, CheckConstraintArguments checkConstraintArguments)
{
if (this.UpstreamConstraint != null)
{
if (!this.UpstreamConstraint.CheckConstraint(validateFunctionArguments, checkConstraintArguments))
{
return(false);
}
}
if (!validateFunctionArguments.ActionsApplied.Contains(Behaviors.ActionsApplied.Rotate))
{
// Ignore if no rotation applied
return(true);
}
Vector3D rotation, scale, translation;
Matrix4x4Utils.Decompose(validateFunctionArguments.Transform
, out scale
, out rotation
, out translation);
return(rotation.z / (Math.PI * 2.0) >= this.Minimum && rotation.z / (Math.PI * 2.0) <= this.Maximum);
}
