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I am trying to use a generic method for the first time and am somewhat confused. I created a simple example to demonstrate that I am probably going about this the wrong way and need straightening out. I am using Eclipse 3.6.1. I was under the impression that the compiler determined the argument types through inference, but am not sure why it is forcing me use casting in the generic method. This is a simple example.

class Test1 
    Test1 () {};
    public String getX () {return "Test1"};

class Test2 
    Test2 () {};
    public String getX () {return "Test2"};

my main method:

public static void main(String args[]) 
    Test1 tst1 = new Test1();
    Test2 tst2 = new Test2();

    System.out.println("result: " + displayTest(tst1, tst2));

static <T,S> boolean displayTest(T x, S y)
    System.out.println("X: " + ((Test1) x).getX());
    System.out.println("Y: " + ((Test2) y).getX());

    if (((Test1) x).getX().equals(((Test2) y).getX()))
        return true;
        return false;

I thought the compiler would know that T in this case was an instance of Test1 and S was Test2, yet in Eclipse, getX is not a valid method. In order to get this to compile, it forces me to cast the objects to the correct type, which seems to me to be against the general principles of a generic method.

Obviously, I am not getting this and am doing something wrong. How does the compiler know what the types are in the generic method then ? How should something like this be done ? In my large system where I am trying to implement this, I have several methods that operate on different types of objects and am trying to make them generic. i.e. Method 1 calls Method 2 (which uses the generic type), which in turn calls Method 3 (again passing the generic types). I was hoping only the start of the function calls (calling of method 1 in this case) needed to know what type the objects were and all subsequent methods were just generic methods.

Many thanks.

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4 Answers 4

The compiler does not know the types inside the method. They can be anything.

If you use <T extends Y>, where Y is an interface defining getY(), it would work.

The point of generics is to ensure compile-time safety. They are mainly a compile-time notion. For example:

public static <T> T instantiate(Class<T> clazz) throws Exception {
    return clazz.newInstance();

This method can be used, without any cases, like this:

Foo foo = instantiate(Foo.class);
Bar bar = instantiate(Bar.class);

Another example, from the Collections framework. There is Collections.enumeration(collection), which is generic. So:

Enumeration<String> enumeration1 = 
      Collections.enumeration(new ArrayList<String>(..));
Enumeration<Integer> enumeration2 = 
      Collections.enumeration(new ArrayList<Integer>(..));

No casts, but you are certain that these will be the types. And then the nextElement() method will return either String or Integer, without the need to cast:

String s = enumeration1.nextElement();
Integer i = enumeration2.nextElement();

Without generics, you would need to use casts in these examples, and if you have passed the wrong argument, you would get a runtime exception (most likely a ClassCastException). With generics you get the exception at compile-time.

The compiler actually adds these casts on your behalf, but only after it is certain that the cast can't go wrong.

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+1 Beat me to it. –  Poindexter Dec 29 '10 at 23:01

The problem is that at compile time the compiler does not know the concrete type of T and S. Your main method calls displayTest with concrete instances of Test1 and Test2, but there's nothing stopping you from calling it with, say, a String and an Integer.

This means that you can't call getX on x because you can't guarantee that T is a subclass of Test1.

You can constrain the type of T and S with captures:

boolean <T extends Test1, S extends Test2> displayTest(T x, S y)

This tells the compiler that T must be a Test1 (or a subclass of Test1) which means you don't need to cast.

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Ah, Ok. I get it now. Like I said, first time using generics. Thanks for all the quick responses.... –  Marc Dec 29 '10 at 23:07

Why would the compiler know that T and S are Test1 and Test2? You can call displayTest from anywhere in your code, any number of times with any number of different object types. What is it supposed to do there?

Also, eclipse != compiler. Eclipse's code completion doesn't "compile" anything. The compiler knows exactly what types are being put in there, but only for each CALL to that function. That's why it's called generic. It can take any generic type.

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When you say the compiler determines the argument types through inference, it means something different than what you are thinking.

Since displayMethod is a generic method, the "proper" way to call the method is to tell the compiler what T and S stand for in this particular method call by calling it as


But since java is smart, the compiler can infer w/o you telling it exactly what T and S, that T and S are going to be Test1 and Test2 if you just do,

ClassName.displayMethod(tst1, tst2)

Also, like cameron skinner said, you can fix your code by making T extend Test1 and S extend Test2. Another fix that you can do is leave <T, S> as it is, and renaming your getX() method to the override the toString() method. Since toString() is a member of the Object class, the generic classes T and S will have access to it and you won't need to restrict your method to only accept arguments which are of type Test1 and Test2

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I tried that first, but couldn't get to work. –  Marc Dec 29 '10 at 23:22
it didn't work because T and S don't have access to getX(). That is a completely different problem entirely. INFERENCE allows the compiler to infer the type of classes in the method call. But the generic types T and S must have access to all the method that you are calling on T and S. Since, T and S are generic types and thus of type Object, they don't have access to getX() –  Pradeep Gollakota Dec 29 '10 at 23:25
Yea, certainly did not think of that. In my case, however, I need access to multiple methods in the objects, so overloading the toString() would not work for this case. However, I just realized that I do need to constrain both T and S, but I need either of them to be able to be Test1 or Test2 in this case. How would I go about that ? –  Marc Dec 29 '10 at 23:28
So, the two ways you can fix your code is by either changing to <T extends Test1, S extends Test2> or by renaming getX() to override the toString() method –  Pradeep Gollakota Dec 29 '10 at 23:28
Rather than speaking in Test1 and Test2 terms, can you tell me specifically the real problem you are working on? because the way i would implement the Test1 and Test2 is very different from yours –  Pradeep Gollakota Dec 29 '10 at 23:30

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