I'm not looking for a replacement for the == operator, I'm looking for an explanation why the compiler can't figure out that both generic properties are of the same type.
There is no explanation that explains a falsehood. The compiler can and does figure out that both generic properties are of the same compile-time type, which you could illustrate with something like:
x.Id = reference.Id;
The compiler would allow that assignment no problem because it knows that there is an identity conversion between two identical at compile time types.
So you must be looking for an explanation of some other thing. I think what you are really looking for is a justification for why operator overload resolution fails to find a best operator for equality on a type parameter.
The answer is: C# generic types are not C++ templates. In C++, if you have ex1 OP ex2
then the resolution of the operator that determines its semantics is performed once per construction of the template. In C#, we don't do that; we perform overload resolution on operators once and must find an operator that works for all possible substitutions of type arguments.
We cannot do that for equality operators on unconstrained types; if TId
is object
then reference equality must be performed; if it is string then string equality must be performed, if it is int then int equality must be performed, if it is "nullable Guid", then lifted-to-nullable Guid equality must be performed, and so on. There is no generalized equality operator in C#, only a collection of specific equality operators, and since there is no generalized operator, there's no single operator for operator overload resolution to choose. Thus you get an error.
That's why in order to do this you would typically constrain the type to implement some interface that can be used; we can generically call interface methods on generic types.
You've rejected that correct solution to the problem, and so there's not much we can do to help you here without knowing more about why you've rejected the standard, safe, efficient solution.
Now, you might note that the compiler could generate code which determines at runtime what the resolution of the overload resolution algorithm is, based on the runtime types. C# cannot do that without excessive performance cost; if you are willing to pay that cost, then cast your operands to dynamic
. That tells the compiler that you are willing to accept overload resolution failures at runtime in exchange for not getting them at compile time; be careful! When you turn off a safety system, you are responsible for ensuring the type safety of your program.