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This thing is troubling me for a while now. I have asked questions before, but probably with a bad phrasing and an example that was too abstract. So it wasn't clear what I was actually asking. I'll try again. And please don't jump to conclusions. I expect that the question is not easy at all to answer!

why can't I have an enum with generic type parameters in Java?

The question is not about why it's not possible, syntactically. I know it's just not supported. The question is: why did the JSR people "forget" or "omit" this very useful feature? I can't imagine a compiler-related reason, why it wouldn't be feasible.

Here's what I would love to do. This is possible in Java. It's the Java 1.4 way to create typesafe enums:

// A model class for SQL data types and their mapping to Java types
public class DataType<T> implements Serializable, Comparable<DataType<T>> {
    private final String name;
    private final Class<T> type;

    public static final DataType<Integer> INT      = new DataType<Integer>("int", Integer.class);
    public static final DataType<Integer> INT4     = new DataType<Integer>("int4", Integer.class);
    public static final DataType<Integer> INTEGER  = new DataType<Integer>("integer", Integer.class);
    public static final DataType<Long>    BIGINT   = new DataType<Long>   ("bigint", Long.class);    

    private DataType(String name, Class<T> type) {
        this.name = name;
        this.type = type;

    // Returns T. I find this often very useful!
    public T parse(String string) throws Exception {
        // [...]

    // Check this out. Advanced generics:
    public T[] parseArray(String string) throws Exception {
        // [...]

    // Even more advanced:
    public DataType<T[]> getArrayType() {
        // [...]

    // [ ... more methods ... ]

And then, you could use <T> in many other places

public class Utility {

    // Generic methods...
    public static <T> T doStuff(DataType<T> type) {
        // [...]

But these things are not possible with an enum:

// This can't be done
public enum DataType<T> {

    // Neither can this...
    INT<Integer>("int", Integer.class), 
    INT4<Integer>("int4", Integer.class), 

    // [...]

Now, as I said. I know these things have been designed exactly that way. enum is syntactic sugar. So are generics. Actually, the compiler does all the work and transforms enums into subclasses of java.lang.Enum and generics into casts and synthetic methods.

but why can't the compiler go further and allow for generic enums??

EDIT: This is what I would expect as compiler-generated Java code:

public class DataType<T> extends Enum<DataType<?>> {
    // [...]
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Well, I said I asked the question again but in a clearer phrasing because the other question just gave me rubbish answers (in my opinion). I'd prefer closing the other one... –  Lukas Eder Feb 24 '11 at 18:26
@Lukas Eder So improve the original question. Doesn't look like re-asking the question has helped. –  Tom Hawtin - tackline Feb 24 '11 at 18:34
It is not a matter of feasibility its a matter of what will this actually break in deployments? Also, why do you need this functionality? –  Woot4Moo Feb 24 '11 at 18:37
I have done that before on stackoverflow and then I was criticised and told to ask a new question... could you guys make up your mind? :) –  Lukas Eder Feb 24 '11 at 18:37
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5 Answers 5

up vote 4 down vote accepted

I'm going to guess a bit and say that it is because of covariance issues on the type parameter of the Enum class itself, which is defined as Enum<E extends Enum<E>>, although it is a bit much to investigate all the corner cases of that.

Besides that, a primary use case of enums is with things like EnumSet and valueOf where you have a collection of things with different generic parameters and get the value from a string, all of which would not support or worse the generic parameter on the enum itself.

I know I'm always in a world of pain when I try to get that fancy with Generics, and I imagine the language designers peeked at that abyss and decided to not go there, especially since the features were developed concurrently, which would mean even more uncertainty for the Enum side of things.

Or put another way, it would have all the problems of Class<T> in dealing with classes which themselves have generic parameters, and you would have to do a lot of casting and dealing with raw types. Not truly something that the language designers felt was worth it for the type of use case you are looking at.

EDIT: In response to the comments (and Tom - a downvote?), nested generic parameter makes all kinds of bad things happen. Enum implements Comparable. That simply would not work to compare two arbitrary elements of the enum in client code if generics were in play. Once you deal with a Generic parameter of a Generic parameter, you end up with all kinds of bounds problems and headaches. It is hard to design a class that handles it well. In the case of comparable, I could not figure out a way to make it work to compare two arbitrary members of an enum without reverting to raw types and getting a compiler warning. Could you?

Actually the above is embarrassingly wrong, as I was using the DataType in the question as my template for thinking about this, but in fact an Enum would have a subclass, so that isn't quite right.

However, I stand by the gist of my answer. Tom brought up EnumSet.complementOf and of course we still have valueOf that produces problems, and to the degree that the design of Enum could have worked, we have to realize that that is a 20/20 hindsight thing. Enum was being designed concurrently with generics and didn't have the benefit of validating all such corner cases. Especially considering that the use case for an Enum with a generic parameter is rather limited. (But then again, so is the use case for EnumSet).

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+1 Very nice answer. I hardly use EnumSet. I can see that they would get in the way with my <T> generic type –  Lukas Eder Feb 24 '11 at 18:54
One example (that involves Class being generic) that would be strange is the Enum.valueOf method. Its first argument should be the enum class. But now you have a problem: if you pass it Class<DataType>, you get a raw type warning, and you can't pass it Class<DataType<Integer>> (what would that even mean, if you could get a hold of it in a type-safe way?). –  waxwing Feb 24 '11 at 22:10
I can't see anything that makes sense in there. –  Tom Hawtin - tackline Feb 25 '11 at 2:49
I thought about this again. public enum DataType<T> being generated to public class DataType<T> extends Enum<DataType<T>> is wrong, because <T> can be bound for every instance, which is not supported by Enum<E>. This might work though: public class DataType<T> extends Enum<DataType<?>>. And I don't see a problem for EnumSet when E is bound to DataType<?>... –  Lukas Eder Feb 25 '11 at 7:30
class En<T extends En<T>> { } class DateType<T> extends En<DateType<T>> { } class IntegerDateType extends DateType<Integer> { } Works out fine for me. At least that far. We will have EnumSet<DataType<?>> semi-usefully, although we also have EnumSet<DataType<Integer>>. And unfortunately the last becomes a little problematic when we use EnumSet.complementOf or EnumSet.range. –  Tom Hawtin - tackline Feb 25 '11 at 15:02
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I don't think it is impossible to have generified enum. If you could hack into compiler, you can have a subclass of Enum that is generic, and the class file of your generic enum wouldn't cause problems.

But in the end, enum is pretty much a syntax sugar. In C, C++, C#, enums are basically alias for int constants. Java gives it more power, but it is still supposed to represent simple items.

Somewhere people have to draw the line. Just because a class has enumerated instances, doesn't mean it must be an enum. If it is sophisticated enough in other areas, it deserves to be a regular class.

In your case, there is not much advantage to make DataType an enum. You can use enum in switch-case, that's about it, big deal. The non-enum verion of DataType works just fine.

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I see your point. But the point of having equals(), hashCode(), toString(), Serializable, Comparable, values(), valueOf(), etc implemented is a big plus for enum as well. That's usually the reason, why I choose enum, not just the switch-case statement. –  Lukas Eder Feb 25 '11 at 7:16
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This is how I think of it -

Regular classes have instances. You create a new instance of a class use it for some purpose and then dispose it. For example List<String> is a list of strings. I can do what ever I want to do with strings and then when I am done I can later do the same functionality with integers.

To me enumerators are not types that you create instances of. Its same thing as a singleton. So I can see why JAVA wouldn't allow generics for Enums because you really can't create a new instance of type Enum to use temporary like you do with classes. Enums are supposed to be static and only have one instance globally. To me, it wouldn't make sense to allow generics for a class that only has one instance globally.

I hope this helps.

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Enums have as many instances as you declare. –  Tom Hawtin - tackline Feb 24 '11 at 18:31
It does make sense to me. I provided a good example of why I want to do this. It works with the classic way of creating typesafe enums. But not with the enum way. And a static instance is still an instance. Why shouldn't it have a generic type parameter? –  Lukas Eder Feb 24 '11 at 18:33
@Tom - What do you mean? If I create an enum Color{red, green, white} there is only one Color.white in the system. I have declared Color once and there is only one instance of Color. –  Amir Raminfar Feb 24 '11 at 18:34
@Amir Raminfar There are three instance of Color there: red, green and white. –  Tom Hawtin - tackline Feb 24 '11 at 18:35
Correct, I didn't mean three instance of Color, I meant only one instance of Red. Sorry for the confusion. –  Amir Raminfar Feb 24 '11 at 18:38
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I think that the reason why you wish to parameterize the enum with <T> boils down to being able to have different method signatures for the various constants of the enum.

In your example, the signature (type of parameters and return type) for parse would be:

  • for Datatype.INT: int parse(String)
  • for Datatype.VARCHAR: String parse(String)
  • and so on

So how would the compiler be able to typecheck something like:

Datatype type = ...
int x = type.parse("45");


To apply static typing and typechecking to this kind of expression, the signature of the method must be the same for all the instances. However, in the end you suggest to have different method signatures for different instances... That's why it's not possible to do it in Java.

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Then tell me how this would be possible in the 1.4-way of implementing typesafe enums (yes it is possible), but not with an enum? –  Lukas Eder Feb 24 '11 at 18:29
N.B: The compiler does this to your example: int x = ((Integer) type.parse("45")).intValue() –  Lukas Eder Feb 24 '11 at 18:30
In 1.4 you have “constants” (instances actually) of different types: INT is of type Datatype<Integer>, VARCHAR of type Datatype<String> and so on. These types are incompatible with each other. And this is incompatible with the definition (understand use cases) of an enum, for which the constants have to be of the same type! –  ChrisJ Feb 24 '11 at 18:32
Datatype has a generic parameter (or would), so Datatype<Integer> type = .... –  Tom Hawtin - tackline Feb 24 '11 at 18:33
@Lukas, yes you're right about the unboxing thing, but it's not my point. My point was: “how does the compiler know that parse returns an Integer?” Indeed, it could be a Long, a String, and so on. And the compiler does not have this information. –  ChrisJ Feb 24 '11 at 18:34
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public enum GenericEnum<T> {

  public T parse(String s) {
    return T.parse(s);

public void doSomething() {
  GenericEnum<Long> longGE = GenericEnum<Long>.SIMPLE;
  GenericEnum<Integer> intGE = GenericEnum<Integer>.SIMPLE;

  List<Long> longList = new LinkedList<Long>();
  List<Integer> intList = new LinkedList<Integer>();

  assert(longGE == intGE);              // 16
  assert(stringList.equals(intList));   // 17

  Object x = longGE.parse("1");  // 19

The asserts at line 16 and 17 are both true. The generic types are not available at run time.

One of the advantages of an enum is that you can use == to compare them. The assert at line 16 will evaluate to true.

At line 19 we run into a problem though. longGE and intGE are the same object (as the assert at line 16 shows.) What will be returned by the parse("1")? The generic type information is not available at run time. So there would be no way to determine T for the parse method at run time.

Enums are basically static, they only exist once. And it doesn't make sense to apply generic typing to static types.

I hope this helps.

Note - this is not meant to be working code. It is using the syntax suggested in the original question.

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Hmm, I don't think this will work: ... = GenericEnum<Long>.SIMPLE, because GenericEnum.SIMPLE is a constant. It's generic type <T> has been bound finally (i.e. SIMPLE is actually public static final GenericEnum SIMPLE;) and cannot be changed anymore. You could unsafely cast it, i.e. GenericEnum<Long> longGE = (GenericEnum<Long>) GenericEnum.SIMPLE;, but as I said, that's an unsafe cast... –  Lukas Eder Feb 24 '11 at 21:14
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