I don't really understand how the class keywords work in some instances.

For example, the get(ClientResponse.class) method takes the ClientResponse.class. How does it use this when it gets it, and what are the advantages over just passing an instance of it?


returns a Java Class object. Class is genericized, so the actual type of SomeClass.class will be Class<SomeType> .

There are lots of uses for this object, and you can read the Javadoc for it here: http://docs.oracle.com/javase/6/docs/api/java/lang/Class.html

  • 2
    +1 for docs reference. The actual type in runtime however is plain java/lang/Class and it's generic type argument is not preserved due to java generics implementation (type erasure). – Krzysztof Jabłoński Dec 6 '13 at 15:58
  • @KrzysztofJabłoński in code if you do Class clazz = someClass.getClass() it will ask you to parameterize the variable. is it correct to say that the type will be Class<SomeClass> at compile time but java.lang.Class at runtime? – smcg Dec 6 '13 at 16:39
  • Yes. Generics introduced in Java 5 improves type safety at compile time, by introducing so called type parameters. When you're doing some type-risky operations compiler compares type parameters and warns you. In bytecode type parameters are replaced by their bounds (or Object when none) - so that information is erased. Paper says that it's done that way in java (unlike for example C#). – Krzysztof Jabłoński Dec 6 '13 at 23:38

In ClientResponse.class, class is not a keyword, neither a static field in the class ClientResponse.

The keyword is the one that we use to define a class in Java. e.g.

public class MyClass { } /* class used here is one of the keywords in Java */

The class in ClientResponse.class is a short-cut to the instance of Class<T> that represents the class ClientResponse.

There is another way to get to that instance for which you need an instance of ClientResponse. e.g

ClientResponse obj = new ClientResponse();
Class clazz = obj.getClass(); 

what are the advantage over just passing a instance of it?

In the above example you can see what would happen in case obj was null (an NPE). Then there would be no way for the method to get the reference to the Class instance for ClientResponse.

  • There could also be some dynamic proxying going on as well by something like cglib or javassist. In addition, it's also possible that you want to work with an interface or abstract class, rather than the actual concrete class type. By referring to the class directly, you are very specific about what you want. Also you could be in a context where you don't have an instance to work with: LogManager.getLogger(MyClass.class) – Matt Oct 20 '12 at 2:13

The very most important fact is - you don't need to have an instance to call the method. It's critically useful in situations when you cannot for some reason instantiate a class, e.g. it's abstract, or have only private constructor, or can only be correctly instantiated by some framework, like Spring or JSF.

You can then call get to obtain an object of a requested type without even knowing where it does come from and how it get's created.


The Class class, which is different from the class keyword, is meta-data describing instances. It tells you about the methods, data members, constructors, and other features of the instances that you create by calling new.

For example get(ClientResponse.class) method takes the ClientResponse.class how does it uses this when it gets it and what are the advantage over just passing a instance of it?

You can't pass an instance of ClientResponse to this method; it's expecting meta-data about all instances of ClientResponse. If you passed an instance, you'd expect that the method might change the state of that instance. But passing the meta-data about all instances might allow the method to create a new kind of instance (e.g. a dynamic proxy) or do something else that depends on the meta-data about all instances of ClientResponse. See the difference?


A class is a "blueprint" of the object. The instance is a object.

If we have

public class SomeClass {
   int a;
   SomeClass(int a) {
      this.a = a

We can have an instance of this class

SomeClass c = new SomeClass(10);

c is an instance of the class. It has a integer a with value 10.

The object SomeClass.class represents a Class.

Here SomeClass.class is a object of the type Class which has the information that SomeClass is

  1. a concrete class with
  2. one constructor
  3. with a integer member variable

    and lots more other metadata about the class SomeClass. Note that it does not have a value for a.

You should use get(c) incase you are planning to do something with a instance of c like call c.a or other useful functions to manupulate/get data of the instance.

You should use get(SomeClass.class) when the get returns something based on the fact that the argument is some type of class. For example, if this is a method on a Registry class which has a map which retrieves a implementation class based on type of class passed in.


Here ClientResponse.class is an instance of Class<ClientResponse>. In general Class object represents type of an object. When you create new instance:

Object obj = new ClientResponse()

you can retrieve the class (type) of that object by calling:


So, why would you pass Class objects around? It's less common, but one reason is to allow some method create arbitrary number of instances of a given class:

ClientResponse resp = ClientResponse.newInstance();

There's a lot of ways Class objects can be used. This is used for Reflection. Below is a link that can help you understand more.



Whenever we compile any Java file, the compiler will embed a public, static, final field named class, of the type java.lang.Class, in the emitted byte code. Since this field is public and static, we can access it using dotted notation along with class name as in your case it is ClientResponse.class.

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