What it comes down to is that the
explicit operators aren't true conversion operators; they're entirely compile time syntactic sugar. Once the code is compiled nothing about the conversion operators remains.
When the compiler sees:
B b = (B) new A();
It says, "is there any native conversion (implicit or explicit) from an
A to a
B?" (This would be the case if
B, for example), or for one of the few special cased language conversions such as
int (implicit) or
If not, it then looks for user defined conversion operators (it only looks in the definition of
B, it doesn't look in the definition of
C for an implicit conversion from
A and to
B, for example). If it finds one, then it injects that operator as a static method call, so the code ends up looking like:
B b = B.SomeAutogneratedName(new A());
That way by the time you get to runtime it's just executing another method, something the runtime knows how to do. The only actual runtime conversion operators that are allowed are the handful baked into the language (i.e. from any base type to a parent type, and between certain primitive types).