I want to do something like this:

List<Child> childList = new List<Child>();
List<Parent> parentList = childList;

However, because parentList is a List of Child's ancestor, rather than a direct ancestor, I am unable to do this. Is there a workaround (other than adding each element individually)?


Casting directly is not allowed because there's no way to make it typesafe. If you have a list of giraffes, and you cast it to a list of animals, you could then put a tiger into a list of giraffes! The compiler wouldn't stop you, because of course a tiger may go into a list of animals. The only place the compiler can stop you is at the unsafe conversion.

In C# 4 we'll be supporting covariance and contravariance of SAFE interfaces and delegate types that are parameterized with reference types. See here for details:


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    Even worse, if the compiler let you do that, your list would end up smaller than expected because the tiger would eat a few of the giraffes. – JoeCool Feb 3 '11 at 22:11
  • Does anything change if the type parameter for the "parent" is an interface? It appears that a covariant collection interface solves OP's original problem. – ryanwebjackson Jun 15 '20 at 22:09

Using LINQ:

List<Parent> parentList = childList.Cast<Parent>().ToList();

Documentation for Cast<>()

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    Note that this creates a copy of childList, exactly like the not-using-LINQ version by @Andre Pena. – dtb Nov 22 '09 at 4:28
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    List<Parent> parentList = childList.OfType<Parent>().ToList(); also works, and is preferable in cases where you are less sure of the content of the starting list. – Cylon Cat Nov 22 '09 at 4:28
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    @dtb, you get a new list, but I suspect there's a good chance that the objects in the list are the same objects. – Cylon Cat Nov 22 '09 at 4:30
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    If Child inherits from Parent, then you can be 100% certain that the cast will work anyway. – recursive Nov 22 '09 at 4:32
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    lextm: not for lists. List<>s are neither covariant nor contravariant. – recursive Nov 23 '09 at 22:34

Back in 2009 Eric teased us that things would change in C# 4. So where do we stand today?

The classes used in my answer can be found at the bottom. To make this easier to follow, we will use a Mammal class as "parent", and Cat and Dog classes as "children". Cats and dogs are both mammals, but a cat is not a dog and a dog is not a cat.

This still isn't legal, and can't be:

List<Cat> cats = new List<Cat>();

List<Mammal> mammals = cats;

Why not? Cats are mammals, so why can't we assign a list of cats to a List<Mammal>?

Because, if we were allowed to store a reference to a List<Cat> in a List<Mammal> variable we would then be able to compile the following code to add a dog to a list of cats:

mammals.Add(new Dog());

We mustn't allow that! Remember, mammals is just a reference to cats. Dog does not descend from Cat and has no business being in a list of Cat objects.

Starting with .NET Framework 4, several generic interfaces have covariant type parameters declared with the out Generic Modifier keyword introduced in C# 4. Amongst these interfaces is IEnumerable<T> which of course is implemented by List<T>.

That means we can now cast a List<Cat> to an IEnumerable<Mammal>:

IEnumerable<Mammal> mammalsEnumerable = cats;

We can't add a new Dog to mammalsEnumerable because IEnumerable<out T> is a "read-only" interface i.e. it has no Add() method, but we can now use cats wherever a IEnumerable<Mammal> can be consumed. For example, we can concatenate mammalsEnumerable with a List<Dog> to return a new sequence:

void Main()
    List<Cat> cats = new List<Cat> { new Cat() };
    IEnumerable<Mammal> mammalsEnumerable =
        AddDogs(cats); // AddDogs() takes an IEnumerable<Mammal>
    Console.WriteLine(mammalsEnumerable.Count()); // Output: 3. One cat, two dogs.

public IEnumerable<Mammal> AddDogs(IEnumerable<Mammal> parentSequence)
    List<Dog> dogs = new List<Dog> { new Dog(), new Dog() };
    return parentSequence.Concat(dogs);

Class definitions:

public abstract class Mammal { }

public class Cat: Mammal { }

public class Dog : Mammal { }

yes, you can do it like

var result = List.And(x => x.Parent.All(b => b.ParentId == value));

You can do this by using a Linq approach of the apply extension method, i.e.:

List<Parent> parentList = childList.Cast<Parent>().ToList();

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