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The JLS mentions in the type inference algorithm (§15.12.2):

It is possible that the process above yields an infinite type. This is permissible, and Java compilers must recognize such situations and represent them appropriately using cyclic data structures.

However, I'm unable to find an actual example where javac produces an infinite type. I think it ought to produce one in the following case:

<T> T pick(T a, T b) { ... }

pick("string", 3);

Both String and Integer are Comparable<themselve>, so their common supertype should be Comparable<? extends Comparable<? extends Comparable<? ...>>> (infinite).

I can do:

Comparable<? extends Comparable<?>> x = pick("string", 3);

but then I tried:

Comparable<? extends Comparable<? extends Comparable<?>>> x = pick("string", 3);

and this doesn't compile. It seems that the recursion is aborted after 2 steps.

Do you know of any case to make Java actually produce an infinite type?


Edit: it seems that the above is a compiler bug. Reading the specification, let's see how the calculation of lub(String, Integer) works out:

ST(String) = { String, Comparable<String>, Serializable, CharSequence, Object }
ST(Integer) = { Integer, Comparable<Integer>, Serializable, Number, Object }
EC = { Comparable, Serializable, Object }
MEC = { Comparable, Serializable }
Inv(Comparable) = { Comparable<String>, Comparable<Integer> }
lcta(String, Integer) = ? extends lub(String, Integer)
lci(Inv(Comparable)) = Comparable<? extends lub(String, Integer)>
lub(String, Integer) = Serializable & Comparable<? extends lub(String, Integer)>

So lub(String, Integer) should be an infinite type. Javac seems to be wrong here. Maybe it doesn't implement infinite types after all?

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Keep in mind the last part of your quote: "...Java compilers must recognize such situations and represent them appropriately...". Any compiler that conforms to specs wouldn't even blink if you handed it an "infinite type". Add type erasure to the mix, and everything in your example just gets turned into Comparable or Object. So unless you're building a Java compiler, you'll probably never even notice. –  cHao Aug 10 '10 at 17:18
@cHao: Looks like Sun's javac doesn't conform to the spec. I wasn't able to produce any infinite type with it, that's why I'm asking this question. Seems like they simply left this language feature unimplemented. –  Daniel Aug 11 '10 at 12:54
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3 Answers

up vote 7 down vote accepted

The following code sends javac to an infinite loop. Presumably, it tries to build an infinite type, but does not manage to represent it as a finite cyclic data structure.

interface I<T> {}
interface A<T> extends I<A<A<T>>>{}
abstract class X {
    abstract <T> T foo(T x, T y);

    void bar(A<Integer> x, A<String> y){
        foo(x, y);
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Very nice example! –  Oksana Gimmel May 4 '13 at 23:46
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From what I recall from Types and Programming Languages, recursive types are infinite.

This means that List< List<?> > is already recursive. Indeed, purely from a typing point of view, the following is ok:

    List< List<?> > x = null;
    x.add( x );

At run-time it of course fails with NPE.

I should double-check all that, and whether if that's what is meant by the JLS, but that brings maybe some light on this interesting question.

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A possibility of infinite types could be (for example, an object of Map inside a map inside a map, etc.....

Map<? extends Serializable, Map<? extends Serializable, Map<? extends Serializable, Map<? extends Serializable, Map<? extends Serializable, Map>>>>> objectMap;

(This is done to depth 5 for readability...but you can add maps inside a map infinitely deep.

I don't know if that's what you're looking for....

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So how do you produce such a type? It cannot be named (would need an infinite source file), so it can occur only as result of type inference. I'm looking for an example method call where Java infers such an infinite type. –  Daniel Aug 10 '10 at 17:26
You will have to do this reflectively.... –  Buhake Sindi Aug 10 '10 at 17:39
Reflection won't be able to get the type parameters -- they're gone by the time compilation is done. "Infinite types" are only relevant during compilation, not before (type inference generates them, and handles them more-or-less transparently), and not after (type erasure gets rid of the type parameters, turning an infinite type into a normal type like Object). –  cHao Aug 11 '10 at 10:27
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