The simplest way to understand why this is not allowed is the following example:
abstract class Fruit
class Apple : Fruit
class Banana : Fruit
// This should intuitively compile right? Cause an Apple is Fruit.
List<Fruit> fruits = new List<Apple>();
// But what if I do this? Adding a Banana to a list of Apples
The last statement would ruin the type safety of .NET.
Arrays however, do allow this:
Fruit fruits = new Apple; // This is perfectly fine
However, putting a
fruits would still break type safety, so therefor .NET has to do a type check on every array insertion and throw an exception if it's not actually an
Apple. This is potentially a (small) performance hit, but this can be circumvented by creating a
struct wrapper around either type as this check does not happen for value types (because they can't inherit from anything). At first, I didn't understand why this decision was made, but you'll encounter quite often why this can be useful. Most common is
String.Format, which takes
params object and any array can be passed into this.
In .NET 4 though, there's type safe covariance/contravariance, which allows you to make some assignments like these, but only if they're provably safe. What's provably safe?
IEnumerable<Fruit> fruits = new List<Apple>();
The above works in .NET 4, because
IEnumerable<out T>. The
out means that
T can only ever come out of
fruits and that there's no method at all on
IEnumerable<out T> that ever takes
T as a parameter, so you can never incorrectly pass a
Contravariance is much the same but I always forget the exact details on it. Unsurprisingly, for that there's now the
in keyword on type parameters.