Caller information attributes are semantically related to method arguments (Like 'If no value is specified for this string parameter, then put the caller member name in it instead of using null as a default value'), hence I see no reason why they shouldn't be related also syntactically as it currently is.
They violate the DRY principle as you have to rewrite the parameters everywhere you need them
Other approaches would also need to do something each time it wants to assign the caller member name to a variable, like: param = param ?? SomeExpressionToGetSomeValue
They ruin implementation-hiding as you have to specify those parameters already in the interface - even if only a single one of your interface implementation needs them
Regarding implementation-hiding: It is the duty of the caller to provide arguments, so this should be in the interface (unless the runtime decides to always provide such info in all calls which would be like implicitly providing arguments - and providing arguments implicitly/magically behind the scenes doesn't seem like a better approach to me)
Regarding having to specify to specify those parameters already in the interface - even if only a single one of your interface implementation needs them: Only specify the attribute and the parameter if it is needed. This is why Math.Abs is declared as public static int Abs(int value) and not as public static int Abs(int value, object ThisIsNotNeededButLetsJustHaveItHereItAnyways)
They soil your interface, users see them in auto-complete, documentation, etc. pp.
Hmmmm I can't see why you think that's a bad thing - if the caller should supply its name, it should be in documentation etc.
What you seem to suggest yourself is something like reading stack frames, and this will compile and run but might not do what you expect:
private void SomeMethod()
return new StackFrame(1).GetMethod().Name;
The above code will get the name of the caller at runtime, but it might not be the same as the name of the caller at compile time due to inlining or tail call optimization.
Hence, if the method wants caller information as it is during compile time (not runtime), such an approach wouldn't work.