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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.

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  • Trying to optimize self assignment on field (not normal local variables) might have some non trivial effects on multi-threaded code. Not sure if the CLR memory model allows that optimization. Sep 15, 2013 at 18:12
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    C# is not C++. The whole idea of guarding against self-assignment in an overloaded assignment operator makes no sense whatsoever. Objects cannot mutate when a variable holding them is assigned to, it's either a reference to an object being made to point someplace else, or the contents of a value type are overwritten, as-is, by the contents of another instance of that type.
    – millimoose
    Sep 15, 2013 at 18:20
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    @millimose I realize that. I'm not asking about guarding against self-assignment, you can't even overload the assignment operator in C#. I was saying I made the assumption that a similar construct was in place behind the scenes and wanted some clarification on what was actually happening.
    – E. Moffat
    Sep 15, 2013 at 18:23
  • @prettycooldevguy Behind the scenes the bucket for the pointsChecked variable will either hold its original value, or the object handle for the List if the original value was 0. 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#.
    – millimoose
    Sep 15, 2013 at 18:24

1 Answer 1

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Assignment copies the reference to an object, not the object contents. No customizable code runs as part of an assignment to a variable holding an object reference, ever. This is also true for structs.

In C++ assignment is customizable, in C# it is not.

It is safe to assign the same object reference to a variable already holding it:

object someRef = new object();
someRef = someRef; //always does nothing

This is as safe as assigning any other value:

int someVal = 123;
someVal = someVal; //always does nothing

Note, that no general way exists to clone/copy an object. Any explanation relying on the presence of such a mechanism must be wrong.

Self-assignment is safe because it translates to the following approximate IL instructions:

ldloc someRef
stloc someRef

This has clearly defined semantics. It first loads someRef onto the stack, then stores whatever is on the stack to someRef.

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  • Interesting, can you go in to more detail about what happens when you overload the operator = on a struct and how it may (or can't) effect this? Sep 15, 2013 at 18:34
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    The assignment operator cannot be overloaded. Neither for ref types nor for structs. A struct copy is a designated IL instruction that directs the runtime to perform a bitwise copy.
    – usr
    Sep 15, 2013 at 18:35
  • Ah, I see. Goes to show you how often I attempt to overload operators. Sep 15, 2013 at 18:36
  • +1. Note that "C++ assignment is customizable" is not complete - C++ - assignment to pointer can't be overloaded (and pointers to objects represent what someVar in SomeNonValueType someVar essentially is)... Sep 15, 2013 at 20:32
  • Thank you, I guess I was just over-thinking it. Its nice to know for sure and I haven't seen another explanation on SO yet so hopefully this helps someone else as well!
    – E. Moffat
    Sep 15, 2013 at 21:03

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