Now, to my untrained eye, covariance seems to be the same as upcasting, except that it refers the casting of collections. (And of a similar statement can be made regarding contravariance and downcasting).

Is it really that simple?

Covariance isn't about upcasting, although I can see why you think it's related.

Covariance is about the following very simple idea. Let's say you have a variable `derivedSequence`

of type `IEnumerable<Derived>`

. Let's say you have a variable `baseSequence`

of type `IEnumerable<Base>`

. Here, `Derived`

derives from `Base`

. Then, with covariance, the following is a legal assignment, and an implicit reference conversion occurs:

```
baseSequence = derivedSequence;
```

Note that this is not upcasting. It is not the case that `IEnumerable<Derived>`

derives from `IEnumerable<Base>`

. Rather, it is covariance that allows you to assign the value of the variable `derivedSequence`

to the variable `baseSequence`

. The idea is that variables of type `Base`

can be assigned from objects of type `Derived`

, and since `IEnumerable<T>`

is covariant in its parameter, objects of type `IEnumerable<Derived>`

can be assigned to variables of type `IEnumerable<Base>`

.

Of course, I haven't yet really explained what covariance is. In general, covariance is about the following simple idea. Let's say you have a mapping `F`

from types to types (I'll denote this mapping by `F<T>`

; given a type `T`

its image under the mapping `F`

is `F<T>`

.) Let's say that this mapping has the following very special property:

if `X`

is assignment compatible with `Y`

, then `F<X>`

is assignment compatible with `F<Y>`

as well.

In this case, we say that `F`

is covariant in its parameter `T`

. (Here, to say that "`A`

is assignment compatible with `B`

" where `A`

and `B`

are reference types means that instances of `B`

can be stored in variables of type `A`

.)

In our case, `IEnumerable<T>`

in C# 4.0, an implicit reference conversion from instances of `IEnumerable<Derived>`

to `IEnumerable<Base>`

if `Derived`

is derived from `Base`

. The direction of assignment compatibility is preserved, and this is why we say that `IEnumerable<T>`

is covariant in its type parameter.