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I was wondering, why can't I overload '=' in C#? Can I get a better explanation?

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Do you have a specific case in mind you could share with us in which you want to overload the = ? – Neil N Mar 1 '09 at 6:40

10 Answers 10

up vote 23 down vote accepted

Memory managed languages usually work with references rather than objects. When you define a class and its members you are defining the object behavior, but when you create a variable you are working with references to those objects.

Now, the operator = is applied to references, not objects. When you assign a reference to another you are actually making the receiving reference point to the same object that the other reference is.

Type var1 = new Type();
Type var2 = new Type();

var2 = var1;

In the code above, two objects are created on the heap, one referred by var1 and the other by var2. Now the last statement makes the var2 reference point to the same object that var1 is referring. After that line, the garbage collector can free the second object and there is only one object in memory. In the whole process, no operation is applied to the objects themselves.

Going back to why = cannot be overloaded, the system implementation is the only sensible thing you can do with references. You can overload operations that are applied to the objects, but not to references.

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Thanks, but I cannot see, how this answers the question ? – user492238 Feb 13 '12 at 16:37
@user492238: operator= is not an operation on the object, but on the reference. You can overload operators that are applied to objects, but you cannot redefine operators applied to references, and in this particular case, doing so would change the semantics of the language: a reference type would behave as a value type. – David Rodríguez - dribeas Feb 13 '12 at 17:21

If you overloaded '=' you would never be able to change an object reference after it's been created. ... think about it - any call to theObjectWithOverloadedOperator=something inside the overloaded operator would result in another call to the overloaded operator... so what would the overloaded operator really be doing ? Maybe setting some other properties - or setting the value to a new object (immutability) ? Generally not what '=' implies..

You can, however, override the implicit & explicit cast operators:

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The use of such an overloadable = operator would not be to make something with the object pointed to by the reference, but to 'know' that something was assigned to the variable. This is important in scenarios, where value type semantic is needed and/or for immediate disposal (at least). – user492238 Feb 13 '12 at 16:41

Because it doesn't really make sense to do so.

In C# = assigns an object reference to a variable. So it operates on variables and object references, not objects themselves. There is no point in overloading it depending on object type.

In C++ defining operator= makes sense for classes whose instances can be created e.g. on stack because the objects themselves are stored in variables, not references to them. So it makes sense to define how to perform such assignment. But even in C++, if you have set of polymorphic classes which are typically used via pointers or references, you usually explicitly forbid copying them like this by declaring operator= and copy constructor as private (or inheriting from boost::noncopyable), because of exactly the same reasons as why you don't redefine = in C#. Simply, if you have reference or pointer of class A, you don't really know whether it points to an instance of class A or class B which is a subclass of A. So do you really know how to perform = in this situation?

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Ok using your terms, it would then make sense to overload the "reference assignment operator". Following Scenario: You want to get a notification for a reference in a collection being updated/changed. so collection[0] = new Value()... So some framework could update a Data Binding properly without ugly work around code. You would just write a generic Observable<T> : T and override that operator and you can do whatever you want. C# could even restrict you so you really must assign the value. There cant be a physical law preventing this from working – ecreif Jun 8 at 16:43
@ecreif: I am not sure what you are really asking about, but if we are still within the reality of CLI/.NET/C# I would say 'no'. Although in general It might be an interesting question; if you could think about it some more and reword it to be a question on its own here or on programmers. – Tomek Szpakowicz Jun 11 at 6:38
@ecreif: As for your scenario: "You want to get a notification for a reference in a collection being updated/changed." I would see it more as a feature of a collection. Implement a collection with notifications and design the rest of your code to use interfaces rather than concrete collections (e.g. IList instead List, IDictionary instead Dictionary) to be able to switch to your special collection. – Tomek Szpakowicz Jun 11 at 6:45
@ecreif: Some food for thought: What do you mean by "overloading the reference assignment operator"? What would it be overloaded over? Nothing: all assignments? Assignments of references to specific type? Static type: based on compile time reference type? Or runtime type: based on actual type of the referenced object? Or maybe you want to base it on the object that owns the reference? But do you need it? Do you want it? What about cost of runtime type checking on each assignment? What about the compiler optimising assignments out? What about reasoning about program correctness? – Tomek Szpakowicz Jun 11 at 6:53
It was a statement. In my scenario how would you implement that observer? I want to listen to changes of the content of the collection. Looking at the logical hierarchy there is no 'entity' this change belongs to. It does not belong to the collection because the collection is not touched or resized and it doesn't belong to Observable<T> because it is not touched either. What is touched is a reference inside the collection. To get a change notification I would like to override the reference assignment operator of Observable<T>. Should be called whenever an assignment occurs. – ecreif Jul 20 at 13:01

Actually, overloading operator = would make sense if you could define classes with value semantics and allocate objects of these classes in the stack. But, in C#, you can't.

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Actually, it would make sense if you could define classes with value semantics, even if instances of such classes always had to be allocated on the heap. – supercat Jun 7 '12 at 22:13
@supercat: Totally agreed. But cut me a little slack: Back then I did not know languages that did value semantics better than C++. – Eduardo León May 19 at 20:36
I've never used any languages that do value semantics better than C++, and for .NET to support them anywhere near as well would require that it be much more complicated. Still, it would be helpful if there were a means by which a value type could specify that code outside the type itself should not be allowed to box or copy it; if such a thing existed, having = invoke a method in the type would then be very useful. Many things which can work with any type would be unable to work with such special types, but many kinds of mistakes could generate compile-time squawks. – supercat May 19 at 21:30

One possible explanation is that you can't do proper reference updates if you overload assignment operator. It would literally screw up semantics because when people would be expecting references to update, your = operator may as well be doing something else entirely. Not very programmer friendly.

You can use implicit and explicit to/from conversion operators to mitigate some of the seeming shortcomings of not able to overload assignment.

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ok, but that argumentation would just as well be true for overloads to Equals() or ToString() or | or ... ? – user492238 Feb 13 '12 at 16:44
Incidentally, vb6 did allow one to effectively override the assignment operator in some cases; one would use Set xxx=yyy if one wanted reference assignment. That led to some truly hideous semantics when applied to variant types. – supercat Jun 7 '12 at 22:14

You can overload assignment in C#. Just not on an entire object, only on members of it. You declare a property with a setter:

class Complex
    public double Real
        get { ... }
        set { /* do something with value */ }

    // more members

Now when you assign to Real, your own code runs.

The reason assignment to an object is not replaceable is because it is already defined by the language to mean something vitally important.

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I don't think there's any really particular single reason to point to. Generally, I think the idea goes like this:

  • If your object is a big, complicated object, doing something that isn't assignment with the = operator is probably misleading.

  • If your object is a small object, you may as well make it immutable and return new copies when performing operations on it, so that the assignment operator works the way you expect out of the box (as System.String does.)

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It's allowed in C++ and if not careful , it can result in a lot of confusion and bug hunting.

This article explains this in great detail.

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The C++ orthodox canonical form, see Coplien and Stroustrup, which requires the assignment operator for user defined types to behave robustly like built-in types, results in clean code without bugs. – subsci Feb 8 '14 at 8:23

Because shooting oneself in the foot is frowned upon.

On a more serious note one can only hope you meant comparison rather than assignment. The framework makes elaborate provision for interfering with equality/equivalence evaluation, look for "compar" in help or online with msdn.

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Being able to define special semantics for assignment operations would be useful, but only if such semantics could be applied to all situations where one storage location of a given type was copied to another. Although standard C++ implements such assignment rules, it has the luxury of requiring that all types be defined at compile time. Things get much more complicated when Reflection and and generics are added to the list.

Presently, the rules in .net specify that a storage location may be set to the default value for its type--regardless of what that type is--by zeroing out all the bytes. They further specify that any storage location can be copied to another of the same type by copying all the bytes. These rules apply to all types, including generics. Given two variables of type KeyValuePair<t1,t2>, the system can copy one to another without having to know anything but the size and alignment requirements of that type. If it were possible for t1, t2, or the type of any field within either of those types, to implement a copy constructor, code which copied one struct instance to another would have to be much more complicated.

That's not to say that such an ability offer some significant benefits--it's possible that, were a new framework being designed, the benefits of custom value assignment operators and default constructors would exceed the costs. The costs of implementation, however, would be substantial in a new framework, and likely insurmountable for an existing one.

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