I am having trouble understanding the difference between covariance and contravariance.
The question is "what is the difference between covariance and contravariance?"
Covariance and contravariance are properties of mappings between sets.
Consider the following two sets of types:
And this clearly related set:
There is a mapping from the first set to the second set. That is, for each T in the first set, the corresponding type in the second set is
With me so far?
There is an assignment compatibility relationship between pairs of types in the first set. A value of type Tiger can be assigned to a variable of type Animal. Let's write "a value of type X can be assigned to a variable of type Y" in a shorter form:
In C# 4 there is an assignment compatibility relationship between pairs of types in the second set.
Notice that the mapping
A mapping which has this property is called a "covariant mapping".
Now consider the set
now we have the mapping from the first set to the third set
In C# 4:
That is, the mapping
Such a mapping is called a contravariant mapping.
So that's the difference between covariance and contravariance. Covariance preserves the direction of assignability. Contravariance reverses it.
It's probably easiest to give examples - that's certainly how I remember them.
You can convert from
It works because if you're only taking values out of the API, and it's going to return something specific (like
You can convert from
This time it works because if the API is expecting something general (like
If you have an interface
It gets potentially confusing because "output position" isn't quite as simple as it sounds - a parameter of type
I hope my post helps to get a language-agnostic view of the topic.
For our internal trainings I have worked with the wonderful book "Smalltalk, Objects and Design (Chamond Liu)" and I rephrased following examples.
What does “consistency” mean? The idea is to design type-safe type hierarchies with highly substitutable types. The key to get this consistency is sub type based conformance, if you work in a statically typed language. (We'll discuss the Liskov Substitution Principle (LSP) on a high level here.)
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