I was just looking at this answer, which contains the code for
Nullable<T> from .NET Reflector, and I noticed two things:
- An explicit conversion is required when going from
==operator is not defined.
Given these two facts, it surprises me that this compiles:
int? value = 10; Assert.IsTrue(value == 10);
With the code
value == 10, either
value is being magically converted to an
int (hence allowing
== operator to be used, or the
== operator is being magically defined for
Nullable<int>. (Or, I presume less likely, Reflector is leaving out some of the code.)
I would expect to have to do one of the following:
Assert.IsTrue((value.Equals(10)); // works because Equals *is* defined Assert.IsTrue(value.Value == 10); // works because == is defined for int Assert.IsTrue((int?)value == 10); // works because of the explicit conversion
These of course work, but
== also works, and that's the part I don't get.
The reason I noticed this and am asking this question is that I'm trying to write a struct that works somewhat similarly to
Nullable<T>. I began with the Reflector code linked above, and just made some very minor modifications. Unfortunately, my
CustomNullable<T> doesn't work the same way. I am not able to do
Assert.IsTrue(value == 10). I get "Operator
== cannot be applied to operands of type
Now, no matter how minor the modification, I would not expect to be able to do...
CustomNullable<T> value = null;
...because I understand that there is some compiler magic behind
Nullable<T> that allows values to be set to
null even though
Nullable<T> is a struct, but I would expect I should be able to mimic all the other behaviors of
Nullable<T> if my code is written (almost) identically.
Can anyone shed light on how the various operators of
Nullable<T> work when they appear not to be defined?