# How to determine type parameter's variance?

Inspired by Real-world examples of co- and contravariance in Scala I thought a better question would be:

When designing a library, are there a specific set of questions you should ask yourself when determining whether a type parameter should be covariant or contravariant? Or should you make everything invariant and then change as needed?

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Well, simple, does it make sense? Think of Liskov substitution.

## Co-variance

If `A <: B`, does it make sense to pass a `C[A]` where a `C[B]` is expected? If so, make it `C[+T]`. The classic example is the immutable `List`, where a `List[A]` can be passed to anything expecting a `List[B]`, assuming `A` is a subtype of `B`.

Two counter examples:

Mutable sequences are invariant, because it is possible to have type safety violations otherwise (in fact, Java's co-variant `Array` is vulnerable to just such things, which is why it is invariant in Scala).

Immutable `Set` is invariant, even though its methods are very similar to those of an immutable `Seq`. The difference lies with `contains`, which is typed on sets and untyped (ie, accept `Any`) on sequences. So, even though it would otherwise be possible to make it co-variant, the desire for an increased type safety on a particular method led to a choice of invariance over co-variance.

## Contra-variance

If `A <: B`, does it make sense to pass a `C[B]` where a `C[A]` is expected? If so, make it `C[-T]`. The classic would-be example is `Ordering`. While some unrelated technical problems prevent `Ordering` from being contra-variant, it is intuitive that anything that can order a super-class of `A` can also order `A`. It follows that `Ordering[B]`, which orders all elements of type `B`, a supertype of `A`, can be passed to something expecting an `Ordering[A]`.

While Scala's `Ordering` is not contra-variant, Scalaz's Order is contra-variant as expected. Another example from Scalaz is its Equal trait.

## Mixed Variance?

The most visible example of mixed variance in Scala is `Function1` (and 2, 3, etc). It is contra-variant in the parameter it receives, and co-variant in what it returns. Note, though, that `Function1` is what is used for a lot of closures, and closures are used in a lot of places, and these places are usually where Java uses (or would use) Single Abstract Method classes.

So, if you have a situation where a SAM class applies, that's likely a place for mixed contra-variance and co-variance.

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