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I had an interview test and saw the following code:


public class TestValue {
    private Value<SomeValue> defaultValue;

    public void Empty_Value_Has_No_Value() {
        Assert.assertFalse(Value.<SomeValue> createEmptyValue()

    public void Default_Value_IsEmpty() {
        Assert.assertEquals(Value.<SomeValue> createEmptyValue(),

    public void Non_Empty_Value_Has_Value() {
        Assert.assertTrue(new Value<SomeValue>(true, new SomeValue())

I had never seen Java generic like


The test is to implement Value class with the given unit test code above.

I tried to figure out the Value method signature below (need implementation):

public interface Value<T> {

    public boolean hasValue();
    public Value<T> createEmptyValue();

Any one know, please help?

Thank you

EDIT: Should be like this according to answers below @marlon

public class Value<T> {

    public boolean hasValue(){}
    public static <M> Value<M> createEmptyValue(){}; //need <M>

The key syntax to know:

Value.<SomeValue>  //ClassName.<Type>method

is way to invoke static method of a class with parameterized argument.

EDIT: according to @snipes83, syntax to invoke non-static method of a class with parameterized argument.

share|improve this question
It could be a typo? Value<SomeValue>.createEmptyValue() makes more sense. – Snps Jun 5 '13 at 1:31
Was that a whiteboard coding? Maybe it is only a reference to a type which can be anything by definition, just meaning they provide a value of that type, but the type doesn't really matter? That's what I would assume in that case. – clement Jun 5 '13 at 1:34
Yeah; kind of curious myself. – Edward Falk Jun 5 '13 at 1:34
I made some research and there are actually cases where you need to use the SomeObject.<Type>method-syntax without the method beeing static. See my answer for an explanation. – Snps Jun 5 '13 at 2:55
The .<T>method syntax has nothing to do with the method being static or the type having a type argument. It only aplies if the method has a type argument (that can not be inferred)! – Joachim Sauer Jun 5 '13 at 14:57

Value.<SomeValue> it's the way generics are represented for methods.

Using Google Guava's Optional as an example:

Optional<String> email = Optional.<String>of(strEmail);

See Generic Types - Invoking generic methods

Since interfaces cannot declare static methods (shame on you java), just declare your method as static and forget about the interface, like this:

class Value<T> {

    public static <T> Value<T> createEmptyValue(){
        return null;
share|improve this answer
Do you mean createEmptyValue() in the above should be static? like public static Value<T> createEmptyValue(); //compile error: Cannot make a static reference to the non-static type T – Eric Jun 5 '13 at 2:07
@Eric: Almost, but you'd parameterize the static method on <T>, like public static <T> Value<T> createEmptyValue() {...}. As the compiler is pointing out, you can't reference a non-static parameter T on the class from a static method. – Ryan Stewart Jun 5 '13 at 2:14
@Eric,Ryan Stewart Updated my answer to reflect your comments. – Marlon Bernardes Jun 5 '13 at 2:18
Static has nothing to do with it, although in this case it appears to be a statics method. Both instance and static methods may be typed – Bohemian Jun 5 '13 at 3:57

Look at the class Test with the method getEmptyList below:

public class Test {
    public <T> List<T> getEmptyList() {
        return new ArrayList<T>();

It returns an empty List containing objects of type T.

If you use Test like this

Test t = new Test();
List<Integer> list = t.getEmptyList();

Then the type inference mechanism is able to infer the type parameter based on the variable type.

However if you need to use the return value of getEmptyList within a method invocation expression like in the following example where the method printList expects a single argument of type List<Integer>, then the type can not be infered from any variable type.

public void printList(List<Integer> list) {
    for (int i : list) {

printList(t.getEmptyList()); // This will FAIL.

In this case you need to specify the type using the following:

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1) This is how generic methods are invoked. Refer >> http://docs.oracle.com/javase/tutorial/java/generics/methods.html

2) <SomeValue> in Value.<SomeValue> is optional. Compiler can infer the type. This is called TypeInference. Refer >> http://docs.oracle.com/javase/tutorial/java/generics/genTypeInference.html

Answer Updated:

3) Value.<SomeValue> createEmptyValue() is right and Value.<SomeValue>createEmptyValue() is right too. Both ways are legal. Just tested it. Didn't notice before.

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I tried it works with space. So both in 3) should be fine? – Eric Jun 5 '13 at 2:23
As it is currently written, the only difference between the two examples given in number (3) is the whitespace; could you elaborate on the supposed difference? – wchargin Jun 5 '13 at 2:24
Awww, just tested it. It does work. Damn it, didn't notice before. – Ravi Trivedi Jun 5 '13 at 2:27

Although Value is itself obviously typed ( based on the instance variable type of Value<SomeValue>), the static createEmptyValue() method is also typed.

A reasonable assumption, if naming conventions have been adhered to, is that SomeValue extends (or implements) Value.

Although there us no one correct answer, a likely possibility for the signature of Value is:

public class Value<T extend Value> {
    public static <V extends Value> V createEmptyValue() {
        // some impl
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