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I have a generics class Foo<T>. In a method of Foo, i want to get the class instance of type T. But i just can't call T.class

Please tell me your preferred way to get around with the T.class ?

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Are you trying to get a new instance, the instance passed, or the Type of T? –  Sruly Aug 9 '10 at 7:03
Try answers in this question.I think its similar. stackoverflow.com/questions/1942644/… –  Emil Aug 9 '10 at 7:37
possible duplicate of Get generic type of class at runtime –  7hi4g0 Apr 1 '14 at 14:06
possible duplicate of Instantiating a generic class in Java –  matiasg Oct 14 '14 at 17:12

11 Answers 11

up vote 139 down vote accepted

The short answer is, that there is no way to find out the runtime type of generic type parameters in Java. I suggest reading the chapter about type erasure in the Java Tutorial for more details.

A popular solution to this is to pass the Class of the type parameter into the constructor of the generic type, e.g.

class Foo<T> {
    final Class<T> typeParameterClass;

    public Foo(Class<T> typeParameterClass) {
        this.typeParameterClass = typeParameterClass;

    public void bar() {
        // you can access the typeParameterClass here and do whatever you like
share|improve this answer
This answer does provide a valid solution but it is inaccurate to say there is no way to find the generic type at runtime. It turns out type erasure is far more complex than a blanket erasure. My answer shows you how to get the classes generic type. –  Ben Thurley Nov 22 '12 at 10:58
@BenThurley Neat trick, but as far as I can see it only works if there is a generic supertype for it to use. In my example, you can't retrieve the type of T in Foo<T>. –  Zsolt Török Jun 10 '13 at 9:54
Fair point about a generic supertype. I can't think of an occasion where I've used generics without one though, except in exam questions. I've added the extra detail to my answer to make it clearer. Thanks. –  Ben Thurley Jun 17 '13 at 11:09
@ses I've yet to see a language that is. They're all a compromise in one way or another. Anyone who tells you otherwise has yet to learn. ;) –  Ben Thurley Sep 14 '13 at 22:47

I was looking for a way to do this myself without adding an extra dependency to the classpath. After some investigation I found that it is possible as long as you have a generic supertype. This was ok for me as I was working with a DAO layer with a generic layer supertype. If this fits your scenario then it's the neatest approach IMHO.

Most generics use cases I've come across have some kind of generic supertype e.g. List for ArrayList or GenericDAO for DAO etc.

Pure Java solution
This article explains how you can do it using pure java. http://blog.xebia.com/2009/02/07/acessing-generic-types-at-runtime-in-java/

Spring solution
My project was using spring which is even better as spring has a handy utility method for finding the type. This for me is the best approach as it looks neatest. I guess if you weren't using spring you could write your own utility method.

import org.springframework.core.GenericTypeResolver;

public abstract class AbstractHibernateDao<T extends DomainObject> implements DataAccessObject<T>

private SessionFactory sessionFactory;

private final Class<T> genericType;

private final String RECORD_COUNT_HQL;
private final String FIND_ALL_HQL;

public AbstractHibernateDao()
    this.genericType = (Class<T>) GenericTypeResolver.resolveTypeArgument(getClass(), AbstractHibernateDao.class);
    this.RECORD_COUNT_HQL = "select count(*) from " + this.genericType.getName();
    this.FIND_ALL_HQL = "from " + this.genericType.getName() + " t ";
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There is a small loophole however: if you define your Foo class as abstract. That would mean you have to instantiate you class as:

Foo<MyType> myFoo = new Foo<MyType>(){};

(Note the double braces at the end.)

Now you can retrieve the type of T at runtime:

Type mySuperclass = myFoo.getClass().getGenericSuperclass();
Type tType = ((ParameterizedType)mySuperclass).getActualTypeArguments()[0];

Note however that mySuperclass has to be the superclass of the class definition actually defining the final type for T.

It is also not very elegant, but you have to decide whether you prefer new Foo<MyType>(){} or new Foo<MyType>(MyType.class); in your code. Personally, I prefer the first form because I am allergic to any form of duplication...

For example:

import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;

import java.util.ArrayDeque;
import java.util.Deque;
import java.util.NoSuchElementException;

 * Captures and silently ignores stack exceptions upon popping.
public abstract class SilentStack<E> extends ArrayDeque<E> {
  public E pop() {
    try {
      return super.pop();
    catch( NoSuchElementException nsee ) {
      return create();

  public E create() {
    try {
      Type sooper = getClass().getGenericSuperclass();
      Type t = ((ParameterizedType)sooper).getActualTypeArguments()[ 0 ];

      return (E)(Class.forName( t.toString() ).newInstance());
    catch( Exception e ) {
      return null;


public class Main {
    // Note the braces...
    private Deque<String> stack = new SilentStack<String>(){};

    public static void main( String args[] ) {
      // Returns a new instance of String.
      String s = stack.pop();
      System.out.printf( "s = '%s'\n", s );
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This is easily the best answer on here! Also, for what it's worth, this is the strategy that Google Guice uses for binding classes with TypeLiteral –  ATG Jun 5 '14 at 23:44
Note that every time this method of object construction is used, a new anonymous class is created. In other words, two objects a and b created this way will both extend the same class but not have identical instance classes. a.getClass() != b.getClass() –  Martin Serrano Mar 20 at 17:04
There is one scenario in which this doesn't work. If Foo should implement an interface, such as Serializable, than the anonymous class would not be Serializable unless the class instantiating is. I tried to workaround it by creating a serializable factory class that creates the anonymous class derived from Foo, but then, for some reason, getActualTypeArguments returns the generic type instead of the actual class. For example: (new FooFactory<MyType>()).createFoo() –  Lior Chaga May 7 at 9:25

A standard approach/workaround/solution is to add a class object to the constructor(s), like:

 public class Foo<T> {

    private Class<T> type;
    public Foo(Class<T> type) {
      this.type = type;

    public Class<T> getType() {
      return type;

    public T newInstance() {
      return type.newInstance();
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Imagine you have an abstract superclass that is generic:

public abstract class Foo<? extends T> {}

And then you have a second class that extends Foo with a generic Bar that extends T:

public class Second extends Foo<Bar> {}

You can get the class Bar.class in the Foo class by selecting the Type (from bert bruynooghe answer) and infering it using Class instance:

Type mySuperclass = myFoo.getClass().getGenericSuperclass();
Type tType = ((ParameterizedType)mySuperclass).getActualTypeArguments()[0];
//Parse it as String
String className = tType.toString().split(" ")[1];
Class clazz = Class.forName(className);

You have to note this operation is not ideal, so it is a good idea to cache the computed value to avoid multiple calculations on this. One of the typical uses is in generic DAO implementation.

The final implementation:

public abstract class Foo<T> {

    private Class<T> inferedClass;

    public Class<T> getGenericClass(){
        if(inferedClass == null){
            Type mySuperclass = getClass().getGenericSuperclass();
            Type tType = ((ParameterizedType)mySuperclass).getActualTypeArguments()[0];
            String className = tType.toString().split(" ")[1];
            inferedClass = Class.forName(className);
        return inferedClass;

The value returned is Bar.class when invoked from Foo class in other function or from Bar class.

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You can't do it because of type erasure.

See also: http://stackoverflow.com/questions/339699/java-generics-type-erasure-when-and-what-happens

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A better route than the Class the others suggested is to pass in an object that can do what you would have done with the Class, e.g., create a new instance.

interface Factory<T> {
  T apply();

<T> void List<T> make10(Factory<T> factory) {
  List<T> result = new ArrayList<T>();
  for (int a = 0; a < 10; a++)
  return result;

class FooFactory<T> implements Factory<Foo<T>> {
  public Foo<T> apply() {
    return new Foo<T>();

List<Foo<Integer>> foos = make10(new FooFactory<Integer>());
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Elegant solution –  Stephan Nov 17 '11 at 15:37
@ Ricky Clarkson: I don't see how this factory should return parametrized foos. Could you please explain how you get Foo<T> out of this? It seems to me this gives only unparametrized Foo. Isn't the T in make10 simply Foo here? –  ib84 Mar 13 '13 at 9:03
@ib84 I've fixed the code; I seem to have missed that Foo was parameterised when I wrote the answer originally. –  Ricky Clarkson Mar 14 '13 at 13:04

I had this problem in an abstract generic class. In this particular case, the solution is simpler:

abstract class Foo<T> {
    abstract Class<T> getTClass();

and later on the derived class:

class Bar extends Foo<Whatever> {
    Class<T> getTClass() {
        return Whatever.class;
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It's possible:

class Foo<T> {
  Class<T> clazz = (Class<T>) DAOUtil.getTypeArguments(Foo.class, this.getClass()).get(0);

You need two functions from this file: http://code.google.com/p/hibernate-generic-dao/source/browse/trunk/dao/src/main/java/com/googlecode/genericdao/dao/DAOUtil.java

For more explanation: http://www.artima.com/weblogs/viewpost.jsp?thread=208860

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Actually, I suppose you have a field in your class of type T. If there's no field of type T, what's the point of having a generic Type? So, you can simply do an instanceof on that field.

In my case, I have a

List<T> items;
in my class, and I check if the class type is "Locality" by

if (items.get(0) instanceof Locality) ...

Of course, this only works if the total number of possible classes is limited.

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What do I do if items.isEmpty() is true? –  chaotic3quilibrium May 24 '13 at 19:21
   public <T> T yourMethodSignature(Class<T> type) {

        // get some object and check the type match the given type
        Object result = ...            

        if (type.isAssignableFrom(result.getClass())) {
            return (T)result;
        } else {
            // handle the error
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