In Java, it's not possible to create an array of generic type directly:

Test<String>[] t1 = new Test<String>[10]; // Compile-time error

However, we can do this using raw type:

Test<String>[] t2 = new Test[10]; // Compile warning "unchecked"

In Java 8, it's also possible to use a constructor reference:

interface ArrayCreator<T> {
    T create(int n);

ArrayCreator<Test<String>[]> ac = Test[]::new; // No warning
Test<String>[] t3 = ac.create(10);

Why doesn't the compiler display the warning in the last case? It still uses raw type to create the array, right?

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    funny... writing n -> new Test[n]; instead of Test[]::new (which should basically be the same) will again give you an unchecked compile warning – Roland Feb 20 '17 at 14:55
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    @Roland they both are de-sugered to the same exact byte code too. Indeed interesting – Eugene Feb 20 '17 at 15:01
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    @Eugene: well, for the formal rules, it usually doesn’t matter to what the language constructs are desugared. But the compiler clearly should emit an unchecked warning here. – Holger Feb 20 '17 at 18:38
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    @Eugene: well, n -> new Test[n] does produce warnings. But the desugared form isn’t sufficient to derive a rule. E.g., the implementation of Function.identity() is t -> t, which allows to get a singleton Function instance at runtime, whereas any other (non-lambda) code that would produce the same desugared (singleton) code, would produce an unchecked warning, due to different rules. In this case, the rules for n -> new Test[n] and Test[]::new also are different, still, I gathered the relevant parts for ArrayType::new. I also added an emphasis to the conclusion as you suggested. – Holger Feb 20 '17 at 18:49
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    This is indeed a bug. Good catch! We've filed JDK-8175317 to track this. – Stuart Marks Feb 22 '17 at 2:20

Your question is justified. In short, the method reference does indeed use the raw type (or should use the raw type) and the reason, why the creation of generic arrays is forbidden, still applies when using method references, hence, being able to silently create a function creating a generic array clearly violates the intention of the language design.

The reason why the creation of generic array is forbidden, is that the array type inheritance, stemming from a pre-Generics era, is incompatible with the generic type system. I.e. you can write:

IntFunction<List<String>[]> af = List[]::new; // should generate warning
List<String>[] array = af.apply(10);
Object[] objArray = array;
objArray[0] = Arrays.asList(42);
List<String> list = array[0]; // heap pollution

At this place, it must be emphasized that contrary to some answers here, the compiler does not perform type inference on the expression List[]::new to deduce the generic element type List<String>. It’s easy to prove that generic array creation still is forbidden:

IntFunction<List<String>[]> af = List<String>[]::new; // does not compile

Since List<String>[]::new is illegal, it would be strange if List[]::new was accepted without a warning, by inferring it to be effectively the illegal List<String>[]::new.

JLS §15.13 clearly states:

If a method reference expression has the form ArrayType :: new, then ArrayType must denote a type that is reifiable (§4.7), or a compile-time error occurs.

This already implies that List<String>[]::new is illegal, because List<String> is not reifiable, whereas List<?>[]::new is legal, as List<?> is reifiable, and List[]::new is legal if we consider List to be a raw type, as the raw type List is reifiable.

Then §15.13.1 states:

If the method reference expression has the form ArrayType :: new, a single notional method is considered. The method has a single parameter of type int, returns the ArrayType, and has no throws clause. If n = 1, this is the only potentially applicable method; otherwise, there are no potentially applicable methods.

In other words, the behavior of the List[]::new expression above is the same as if you had written:

    IntFunction<List<String>[]> af = MyClass::create;
private static List[] create(int i) {
    return new List[i];

except that the method create is only notional. And indeed, with this explicit method declaration, there are only raw type warnings at the create method, but no unchecked warnings regarding the conversion of List[] to List<String>[] at the method reference. So it’s understandable, what happens in the compiler in the List[]::new case, where the method using raw types is only notional, i.e. doesn’t exist in source code.

But the absence of unchecked warnings is a clear violation of JLS §5.1.9, Unchecked Conversion:

Let G name a generic type declaration with n type parameters.

There is an unchecked conversion from the raw class or interface type (§4.8) G to any parameterized type of the form G<T₁,...,Tₙ>.

There is an unchecked conversion from the raw array type G[]ᵏ to any array type of the form G<T₁,...,Tₙ>[]ᵏ. (The notation []ᵏ indicates an array type of k dimensions.)

Use of an unchecked conversion causes a compile-time unchecked warning unless all type arguments Tᵢ (1 ≤ in) are unbounded wildcards (§4.5.1), or the unchecked warning is suppressed by the SuppressWarnings annotation (§

So, a conversion of List[] to List<?>[] is legal, as List is parameterized with an unbounded wildcard, but the conversion from List[] to List<String>[] must produce an unchecked warning, which is crucial here, as the use of List[]::new does not produce the raw type warning that appears with an explicit creation method. The absence of raw type warnings seems not to be a violation (as far as I understood §4.8) and it wouldn’t be a problem, if javac created the required unchecked warning.

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    Interestingly, it seems like this warning is always silently ignored when an unchecked conversion happens from a raw method return type to a parametrized target-interface type, as long as you use a method reference. +1 – Jorn Vernee Feb 20 '17 at 18:56
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    jdk-9, build 157 - same non-warning behavior – Eugene Feb 20 '17 at 18:57
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    I also noticed, that for the line Test<String>[] arr = new Test[0] there also is no raw type warning. It only emits a warning for the unchecked conversion. Which could be justification for the absence of a raw type warning in Test[]::new. Another option is to assume that Test[]::new does do type inference, but always infers the type Test<?>[], which is reifiable by §4.7, since all type parameters of Test are unbounded wildcards. – Jorn Vernee Feb 20 '17 at 21:45
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    @Jorn Vernee: but Test<?>[] is not compatible with Test<String>[], so inferring Test<?>[] and silently assigning it to Test<String>[] would be worse than assigning Test[] to Test<String>[]. – Holger Feb 21 '17 at 9:53
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    Yep, this is a bug. We've filed JDK-8175317. I think this wasn't caught before because array constructor referencess are more commonly used in Stream.toArray(), and toArray(List[]::new) does issue a warning. This goes through a different path involving the target typing logic. Curiously, this case of a simple assignment doesn't get checked. – Stuart Marks Feb 22 '17 at 2:23

The best that I can come up with is that the JLS specifies that a method reference to the constructor of a generic type infers the generic parameters: "If a method or constructor is generic, the appropriate type arguments may either be inferred or provided explicitly." Later it gives ArrayList::new as an example and describes it as "inferred type arguments for generic class," thus establishing that ArrayList::new (and not ArrayList<>::new) is the syntax that infers arguments.

Given a class:

public static class Test<T> {
    public Test() {}

this gives a warning:

Test<String> = new Test(); // No <String>

but this doesn't:

Supplier<Test<String>> = Test::new; // No <String> but no warning

because Test::new implicitly infers the generic arguments.

So I assume that a method reference to an array constructor works the same way.

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    docs.oracle.com/javase/specs/jls/se8/html/jls-15.html#jls-15.13 "If a method or constructor is generic, the appropriate type arguments may either be inferred or provided explicitly." Later it gives ArrayList::new as an example and describes it as "inferred type arguments for generic class," thus establishing that "ArrayList::new" (and not "ArrayList<>::new") is the syntax that infers arguments. – Willis Blackburn Feb 20 '17 at 15:17
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    But if the type argument is inferred, that would imply a call to new Test<String>[], which is a compiler error, since there is no way to reify over Test<String>. And if it still ends up calling new Test[] (which is my assumption), this type inference is not a good explanation to why there is no warning imho. – Jorn Vernee Feb 20 '17 at 15:31
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    Sure, type inference is a good explanation. The underlying call to the constructor is a runtime issue, where the generics are erased anyway. The type inference happens at compile time, and has nothing to do with the call to the constructor. At all. It just depends on whether the compiler has enough information to enforce the type assertions, and type inference says, "Yes, it does." – Lew Bloch Feb 20 '17 at 15:39
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    The problem with generic array types is that you can always write Object[] oa=genericArray;, followed by storing, i.e. the ` Test<Object>` into oa without getting any warning. Even at runtime, there will be no check. This problem hasn’t been solved with method references and the type inference is irrelevant. – Holger Feb 20 '17 at 15:49
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    @Holger do I understand you correctly? what is described in the answer is only partially true. The referenced JLS-part is not the solution, but rather there must be another part which should describe the behaviour for arrays and generics? if so I would like to see an answer stating what you wrote in your comment ;-) – Roland Feb 20 '17 at 16:14

It still uses raw type to create the array, right?

Java generics are just a compile-time illusion, so the raw type will of course be used at runtime to create the array.

Why doesn't the compiler display the warning in the last case?

Yes, the unchecked cast from Test[] to Test<String>[] is still happening; it's just happening behind the scenes in an anonymous context.

Test<String>[] t3 = ((IntFunction<Test<String>[]>) Test[]::new).apply(10);

Since the anonymous method is doing the dirty work, the unchecked cast effectively disappears from the managed code.

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  • This is similar to my initial answer, but I don't think that it actually answers the question. Even though the "dirty work" is hidden, the effect is still the same, and the question was why the compiler wouldn't emit a warning in that case. I think that the correct answer (which I provided below) is that "new Test[n]" references the raw type Test while the method reference Test[]::new infers the generic type arguments. – Willis Blackburn Feb 20 '17 at 15:20
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    @WillisBlackburn I am not an expert by any means but I think constructor type inference is not the key reason. After all we are talking about arrays here. Guess we will have to wait until an expert weighs in. – Patrick Parker Feb 20 '17 at 15:28

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