I was looking through some code I wrote a while ago and realized I made an assumption about the assignment operator in C#. Here is the line of code in question (it works as expected):
pointsChecked = pointsChecked ?? new List<Point>();
pointsChecked
is a List specified as a parameter to a recursive function. It is a default parameter with default value null
. What I want to do is initialize it once and then build a collection of points that I have already checked, so it should only be initialized during the first iteration.
My assumption was that C# is guarded against self-assignment in the same way that C++ operator=
should provide a guard when overloaded (ie, if(this == &rightHandSide) return *this;
). However, I haven't been able to find any resources that explicitly state that this is true for C#.
The closest example I found was this question about the null-coalescing operator, where it appears that the object is assigned back to itself if it is not null
. No one said anything about the self-assignment in that example, but I want to be certain that this isn't a bad practice and that there are no negative side effects.
Searching on MSDN I also found that (paraphrasing based on my understanding) the value on the right hand side is copied over to the value on the left hand side and returned. So I am, again, unsure if it is a bad thing to do a self-assignment.
I know I could do the following to be safer:
if(pointsChecked == null)
{
pointsChecked = new List<Point>();
}
But I would rather understand what is actually happening with self-assignment.
pointsChecked
variable will either hold its original value, or the object handle for theList
if the original value was0
. It doesn't matter if the original value is self-assigned to itself or not because it's just a pointer or an opaque object reference. Whatever goes on shouldn't really matter - were this not completely transparent to you, it'd be a bug in the C# implementation as long as the concept of self-assignment shouldn't exist in C#.