33

Consider the following API method taken from Shiro's org.apache.shiro.subject.PrincipalCollection interface but probably present in other libraries as well:

Collection fromRealm(String realmName);

Yes even nowadays there are still libraries that are using raw-types, probably to preserve pre Java 1.5 compatibility?!

If I now want to use this method together with streams or optionals like this:

principals.fromRealm(realmName).stream().collect(Collectors.toSet());

I get a warning about unchecked conversion and using raw types and that I should prefer using parameterized types.

Eclipse:

Type safety: The method collect(Collector) belongs to the raw type Stream. References to generic type Stream<T> should be parameterized

javac:

Note: GenericsTest.java uses unchecked or unsafe operations.

As I can't change the API method's signature to get rid of this warning I can either annotate with @SuppressWarnings("unchecked") or simply cast to Collection<?> like this:

((Collection<?>) principals.fromRealm(realmName)).stream().collect(Collectors.toSet());

As this cast of course always works I'm wondering why the compilers are not simply treating Collection as Collection<?> but warn about this situation. Adding the annotation or the cast doesn't improve the code a single bit, but decreases readability or might even shadow actual valid warnings about usage of unparameterized types.

  • 1
    The question mark type is a bit tricky. It can be anything, e.g. Collection<?> x; Collection<?> y; doesn't mean x can be cast to y, because it could be different. e. g. x = new ArrayList<String>() ; y=new ArrayList<Integer>() ; – Martin Strejc Apr 4 at 11:06
  • Inserting Collection<?> in the place of Collection would be tantamount to saying "don't worry about raw types, I've got you covered", whereas developers should actively avoid raw types. – ernest_k Apr 4 at 11:08
  • I checked their source code and the date when it was first released. They were actually using generic types at that time, but not for that method for some reasons.. – Murat Karagöz Apr 4 at 11:19
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    Collection is not equivalent to Collection<?>, it's closer to Collection<Object>... – Stobor Apr 5 at 1:36
  • You can't insert anything into a Collection<?> because you don't know what the correct type is. – immibis Apr 5 at 2:30
61

The reason is quite simple:

You may read Objects from a Collection<?> the same way as from Collection. But you can't add Objects to a Collection<?> (The compiler forbids this) whereas to a Collection you can.

If after the release of Java 5 the compiler had translated every Collection to Collection<?>, then previously written code would not compile anymore and thus would destroy the backward compatibility.

  • 3
    To add to this: Collection<?> is not "a Collection of any types." It's "a Collection of some type, but that type is unknown." That's why you can't add non-null objects to it: the compiler is trying to tell you that to add those objects, you'd have to know that the Collection's <T> is a superclass of those objects (whereas you don't actually know anything about T, since you typed the Collection to <?>). – yshavit Apr 5 at 7:27
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    Just to prevent the impression that Collection<?> was kind of immutable: you can add null to a Collection<?>, further, you can pass a Collection<?> to a generic method expecting a Collection<T>, which then may add elements of type T, i.e. duplicates of elements already in the collection. As a practical example, you can invoke Collections.swap(list, ix1, ix2) with a List<?>. And, of course, removing elements always works. But you can not add an arbitrary Object to it like with the raw typed Collection. – Holger Apr 5 at 9:18
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    FWIW: I think Scala's syntax for existential types may also help to understand the meaning of Collection<?>. Scala's equivalent of this is Collection[_]. And this is shorthand for Collection[T] forSome { type T }. The latter should be understood as This is a collection of instances of T. There is some specific type which is equal to T but which one is not known at this location in the code. – Feuermurmel Apr 5 at 15:18
19

The major difference between raw type and unbounded wildcard <?> is that the latter is type safe, that is, on a compile level, it checks whether the items in the collection are of the same type. Compiler won't allow you to add string and integer to the collection of wildcard type, but it will allow you to do this:

List raw = new ArrayList();
raw.add("");
raw.add(1);

Actually, in case of unbounded wildcard collections (List<?> wildcard = new ArrayList<String>()), you can't add anything at all to the list but null (from Oracle docs):

Since we don't know what the element type of c stands for, we cannot add objects to it. The add() method takes arguments of type E, the element type of the collection. When the actual type parameter is ?, it stands for some unknown type. Any parameter we pass to add would have to be a subtype of this unknown type. Since we don't know what type that is, we cannot pass anything in. The sole exception is null, which is a member of every type.

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    "the [unbounded wildcard <?>] is type safe, that is, on a compile level, it checks whether the items in the collection are of the same type." - Huh?! This is in contradiction to the rest of your answer. - Or maybe not quite; one could say that it is type safe in that it disallows any objects to be put into a collection of <?>. – JimmyB Apr 4 at 15:29
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    The compiler performs no checks at all on what is in a generic collection. Rather, it performs checks on the (declared) types of the arguments to its constructors and methods, and on the expectations of the types of its methods' return values. – John Bollinger Apr 4 at 21:53
4

This may be a bit too opinion-based for SO, but I believe the point of the compiler giving you a warning rather than silently assuming Collection<?> is that using raw types is something to avoid doing where possible. It's not an error because you can't always avoid it, but it's something that should be discouraged. A warning discourages using raw types, making you question whether a particular use was necessary. Silently treating it as Collection<?> doesn't.

  • OP mentioned leaving the error in, and I agree with (both of) you. – jpaugh Apr 5 at 6:14
  • Well, if Collection was always treated like Collection<?>, in other words, raw types did not exist, there was no reason to discourage them. Then, insisting on <?> would be nonsense. Just like insisting on repeating types in constructor invocations like new ArrayList<VeryLongType>(). Since Java 7, you can use <> instead, but if this constructor type inference existed right from the start, even writing <> would be unnecessary. – Holger Apr 5 at 9:39
3

A use-case that I can think of as to why Collection is not considered as Collection<?> is let say we have a instance of ArrayList

Now if the instance is of type ArrayList<Integer> or ArrayList<Double> or ArrayList<String>, you can add that type only(type checking). ArrayList<?> is not equivalent to ArrayList<Object>.

But with only ArrayList, you can add object of any type. This may be one of the reason why compiler is not considering ArrayList as ArrayList<?> (type checking).

One more reason could be backward compatibility with Java version that didn't have generics.

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