Getting rid of covariance altogether would of course be unsound, and is not allowed.
m: Map[A, String], and
v : Any, you can do
val mm : Map[A, Any] = m + v. This is what
Map definition says, and all implementors must follow. Your class may be invariant, but it must implement the full covariant interface of Map.
+ to throw an error is a different story (not very sound yet). The problem with your new
+ method is that after generics erasure, it has the same signature than the other
+ method. There is a trick: add in implicit parameter, so that you have two parameters in the signature, which makes it different from the first one.
def +(kv : (A,B))(implicit useless: A <:< A) : MyMap[A,B]
(it doesn't really matter what implicit parameter you're looking for, as long as one is found.
implicit useless: Ordering[String] works just as well)
Doing that, you have the usual problem with overloading. If you add a B without the compiler knowing it to be so, the failing method will be called. It might be better to perform a type check there so that B instances are accepted whatever. That would require getting a Manifest[B] in your map.