It's been a while since I touched generics in Java, I have this:

Map<List<MyGenericType>, Set<List<MyGenericType>>> x = new HashMap<>();

In truth, MyGenericType requires a generic parameter, since it is defined like this:

public class MyGenericType<X> {}

I declared x with pre-emptive type-erasure of MyGenericType because I didn't want to make an empty marker interface just for the sake of grouping things. Will this, for the sake of having a collection, work in my favor or will I have to make a marker interface to make this possible?

(EDIT) That is:

  1. public interface SomeCommonInterface {...}
  2. MyGenericType implements SomeCommonInterface ...
  3. Map<List<SomeCommonInterface>, Set<List<SomeCommonInterface>>> x = new HashMap<>();
  • Not a good idea to use List, i.e. mutable object, as key in a Map – Yousaf Jul 11 '20 at 15:27
  • Why do you want to use MyGenericType without the generic type? Why do you not add the type? – Progman Jul 11 '20 at 15:30
  • Why not use MyGenericType<?> if you don't know the actual type? – Slaw Jul 11 '20 at 15:31
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    It's the difference between having a parameterized type and a raw type. See What is a raw type and why shouldn't we use it?. – Slaw Jul 11 '20 at 15:52
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    @Slaw MyGenericType<?> isn't a bad advice, but it will not stop things like : Map<List<MyGenericType<?>>, Set<List<MyGenericType<?>>>> x = new HashMap<>(); x.put(List.of(new MyGenericType<String>()), Set.of(List.of(new MyGenericType<Integer>())));. there are two unbounded types in the declaration, these are different types for the compiler – Eugene Jul 11 '20 at 20:47

Recall that Integer as well as Double both extend Number and in turn, Number extends Object.

A List<Number> is in no way usable as a List<Integer> and vice versa. List<Number> x = new ArrayList<Integer> does not compile. This is called 'invariance', and it is 'correct', because if it did compile, you could add doubles to a list of integers which is obviously not right. It tends to throw people off, though, which is why I mention it. If you want covariance or contravariance, you must opt into this: List<? extends Number> list = new ArrayList<Integer>(); does compile. But then list.add(5); won't, because if it did, you would again be able to add doubles to a list of integers and that wouldn't be right.

Once you entirely omit generics on a thing, all type checking on generics is right out the door, and you don't want that. Can you 'get away with it'? Well, uh, the compiler will toss a bunch of warnings in your face and you turn off quite a bit of type checking. If you mean with 'get away with it': "Does it compile"? Yes, it does. If you mean: "Would this code pass any reasonable java coder's code review"? No, it won't.

Simple solution: What's wrong with using MyGenericType<?> here?

NB: Keys in maps should be immutable; list is not. Using it is therefore quite a bad plan; what is that supposed to represent?

  • I presume you meant to write list.add(5.0)? Can the standard java compiler not infer that list is actually a list of integers? – Novicegrammer Jul 11 '20 at 16:35
  • Furthermore, I want an immutable ordered collection of objects - I've since changed it to primitive arrays – Novicegrammer Jul 11 '20 at 16:38
  • @Novicegrammer Whether list.add(5) or list.add(5.0), both would fail for a List<? extends Number>. And the compiler has nothing to infer; the code states explicitly that the variable type is a List<? extends Number>, not a List<Integer>. Nor would you want the compiler to infer anything. The whole reason for List<? extends Number> is to describe that the "real" type argument be anything that extends Number (e.g. List<Integer>, List<Double>, List<BigDecimal>, etc.). That's why you can't add anything to such a List, because you don't know what the real element type is. – Slaw Jul 11 '20 at 19:24
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    @Novicegrammer Flexibility. The Q&As I linked to show why you would want to do this. A List<? extends Number> is a producer of some type of Number, but it can't consume anything. The opposite is true of List<? super Number> (though it can produce Object). It may be more obvious if you look at things like Function<? super T, ? extends R> and Consumer<? super T> and Supplier<? extends T> as parameter types; without the wildcards the users of the API lose flexibility. Again, the linked Q&As go into much more detail. – Slaw Jul 11 '20 at 22:56

This is not really an answer, but as said in the comment here, I don't think that adding wildcards solves anything.

Depending were the use-site of this Map is, you could have some kind of safety. I was in your shoes a couple of times, the only solution I know is to do:

static class Box<T> {

    private Map<List<MyGenericType<T>>, Set<List<MyGenericType<T>>>> x = new HashMap<>();


i.e.: expose the Map via a "wrapper", that has a type variable defined. If callers provide a type when instantiating Box, you will get the needed type safety:

new Box<Integer>().getX().put(...); // you can only put a MyGenericType<Integer> in here now

Otherwise when using raw types or even ?, you could put different type in the key and value.

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