Is it possible to get the type of a generic parameter?

An example:

public final class Voodoo {
    public static void chill(List<?> aListWithTypeSpiderMan) {
        // Here I'd like to get the Class-Object 'SpiderMan'
        Class typeOfTheList = ???;

    public static void main(String... args) {
        chill(new ArrayList<SpiderMan>());

18 Answers 18


One construct, I once stumbled upon looked like

Class<T> persistentClass = (Class<T>)

So there seems to be some reflection-magic around that I unfortunetly don't fully understand... Sorry.

  • 2
    But declare it as abstract then. when you want to use it, then sublclass it inline.
    – Snicolas
    Feb 13, 2012 at 14:55
  • 48
    Even though this is very old and accepted for some reason, I've downvoted because it simply doesn't answer the question. It would not give "SpiderMan" in the example given in the question. It's undoubtedly useful in some situations, but it doesn't work for the question that was asked.
    – Jon Skeet
    May 21, 2014 at 9:18
  • 22
    Nobody who's come this far is about to accept "It can't be done" for an answer. We're here because we're desperate.
    – Addison
    Apr 7, 2015 at 7:15
  • 17
    I get this exception : Exception in thread "main" java.lang.ClassCastException: java.lang.Class cannot be cast to java.lang.reflect.ParameterizedType not sure what is the constraint .
    – coretechie
    Feb 29, 2016 at 14:25
  • 4
    Like @Dish I just get a java.lang.ClassCastException: java.lang.Class cannot be cast to java.lang.reflect.ParameterizedType Oct 8, 2016 at 2:44

I want to try to break down the answer from @DerMike to explain:

First, type erasure does not mean that the JDK eliminates type information at runtime. It's a method for allowing compile-time type checking and runtime type compatibility to coexist in the same language. As this block of code implies, the JDK retains the erased type information--it's just not associated with checked casts and stuff.

Second, this provides generic type information to a generic class exactly one level up the heirarchy from the concrete type being checked--i.e. an abstract parent class with generic type parameters can find the concrete types corresponding to its type parameters for a concrete implementation of itself that directly inherits from it. If this class were non-abstract and instantiated, or the concrete implementation were two levels down, this wouldn't work (although a little bit of jimmying could make it apply to any predetermined number of levels beyond one, or up to the lowest class with X generic type parameters, et cetera).

Anyway, on to the explanation. Here's the code again, separated into lines for ease of reference:

1# Class genericParameter0OfThisClass = 
2#     (Class)
3#         ((ParameterizedType)
4#             getClass()
5#                .getGenericSuperclass())
6#                    .getActualTypeArguments()[0];

Let 'us' be the abstract class with generic types that contains this code. Reading this roughly inside out:

  • Line 4 gets the current concrete class' Class instance. This identifies our immediate descendant's concrete type.
  • Line 5 gets that class' supertype as a Type; this is us. Since we're a parametric type we can safely cast ourselves to ParameterizedType (line 3). The key is that when Java determines this Type object, it uses type information present in the child to associate type information with our type parameters in the new ParameterizedType instance. So now we can access concrete types for our generics.
  • Line 6 gets the array of types mapped into our generics, in order as declared in the class code. For this example we pull out the first parameter. This comes back as a Type.
  • Line 2 casts the final Type returned to a Class. This is safe because we know what types our generic type parameters are able to take and can confirm that they will all be classes (I'm not sure how in Java one would go about getting a generic parameter that doesn't have a Class instance associated with it, actually).

...and that's pretty much it. So we push type info from our own concrete implementation back into ourselves, and use it to access a class handle. we could double up getGenericSuperclass() and go two levels, or eliminate getGenericSuperclass() and get values for ourselves as a concrete type (caveat: I haven't tested these scenarios, they haven't come up for me yet).

It gets tricky if your concrete children are be an arbitrary number of hops away, or if you're concrete and not final, and especially tricky if you expect any of your (variably deep) children to have their own generics. But you can usually design around those considerations, so this gets you most of the way.

Hope this helped someone! I recognize this post is ancient. I'll probably snip this explanation and keep it for other questions.

  • 3
    Just answering your "I'm not sure how in Java one would go about getting a generic parameter that doesn't have a Class instance associated with it, actually)": This is possible if the parameter to the generic class is either a "wildcard expression" (say: ? extends SomeClass) or a "type variable" (say: <T> where T comes from a generic subclass). in both cases the "Type" instances returned can't be cast to "Class" as each VM might have a different implementation for both which implement the Type interface but does not derive directly from java.lang.Class. Jul 15, 2013 at 20:15

Actually I got this to work. Consider the following snippet:

Method m;
Type[] genericParameterTypes = m.getGenericParameterTypes();
for (int i = 0; i < genericParameterTypes.length; i++) {
     if( genericParameterTypes[i] instanceof ParameterizedType ) {
                Type[] parameters = ((ParameterizedType)genericParameterTypes[i]).getActualTypeArguments();
//parameters[0] contains java.lang.String for method like "method(List<String> value)"


I'm using jdk 1.6

  • 12
    -1: this does not solve the problem in the question; it only gives you the type declared in the method signature, not the actual runtime type. Aug 31, 2011 at 12:03
  • 6
    Might not answer the OP's question, but it's a useful technique.
    – dnault
    Sep 12, 2013 at 18:26
  • 3
    This is the answer to an entirely different question. Dec 30, 2014 at 21:38
  • You can call m.getParameterTypes() to get all the actual types. It would return "List" for the example.
    – Lee Meador
    Mar 4, 2016 at 1:40
  • If genericParameterTypes[i] is not an instanceof ParameterizedType, it could be a Class. That means that a particular argument to the method isn't parameterized at all.
    – Lee Meador
    Mar 4, 2016 at 1:42

There is a solution actually, by applying the "anonymous class" trick and the ideas from the Super Type Tokens:

public final class Voodoo {
    public static void chill(final List<?> aListWithSomeType) {
        // Here I'd like to get the Class-Object 'SpiderMan'
        System.out.println(((ParameterizedType) aListWithSomeType
    public static void main(String... args) {
        chill(new ArrayList<SpiderMan>() {});
class SpiderMan {

The trick lies in the creation of an anonymous class, new ArrayList<SpiderMan>() {}, in the place of the original (simple) new ArrayList<SpiderMan>(). The use of an anoymous class (if possible) ensures that the compiler retains information about the type argument SpiderMan given to the type parameter List<?>. Voilà !

  • 1
    This indirectly answers the question: The original problem has no solution. For the type to retains its generic parameters, it needs to be embedded in another type, such as a subclass. This example shows how you need to change the calling code to make it possible to recover the generic type parameter in chill().
    – Florian F
    Nov 10, 2017 at 16:20
  • FYI, first link is dead Mar 2, 2020 at 7:05
  • 1
    @AshvinSharma I believe that the same material is available here: rgomes.info/using-typetokens-to-retrieve-generic-parameters Mar 20, 2020 at 17:32

Appendix to @DerMike's answer for getting the generic parameter of a parameterized interface (using #getGenericInterfaces() method inside a Java-8 default method to avoid duplication):

import java.lang.reflect.ParameterizedType; 

public class ParametrizedStuff {

interface Awesomable<T> {
    default Class<T> parameterizedType() {
        return (Class<T>) ((ParameterizedType)

static class Beer {};
static class EstrellaGalicia implements Awesomable<Beer> {};

public static void main(String[] args) {
    System.out.println("Type is: " + new EstrellaGalicia().parameterizedType());
    // --> Type is: ParameterizedStuff$Beer
  • This isn't what the original post was asking for. Here, you have create a subclass of Awesomeable<Beer>. In that case the type information is preserved. If you pass new Awesomable<Beer> () to the method wt won't work.
    – Florian F
    Nov 10, 2017 at 16:19
  • @FlorianF If you pass on an Awesomable<Beer> on the fly without the explicit definition of a concrete subclass like EstrellaGalicia in this case, still it is getting out the parameterized type: I ran it right now: System.out.println("Type is: " + new Awesomable<Beer>() {}.parameterizedType()); ---> Type is: ParameterizedStuff$Beer
    – Campa
    Nov 13, 2017 at 8:33

Nope, that is not possible. Due to downwards compatibility issues, Java's generics are based on type erasure, i.a. at runtime, all you have is a non-generic List object. There is some information about type parameters at runtime, but it resides in class definitions (i.e. you can ask "what generic type does this field's definition use?"), not in object instances.

  • Though java could store this as meta data during runtime, couldn't it? I hoped it would. Bad Luck.
    – cimnine
    Dec 14, 2009 at 14:27
  • 1
    @user99475: Nope. I am right and Andrey is wrong. He is referring to the type information I mention in the second part of my answer, but that is not what the question asks for. Aug 31, 2011 at 12:05

Because of type erasure the only way to know the type of the list would be to pass in the type as a parameter to the method:

public class Main {

    public static void main(String[] args) {
        doStuff(new LinkedList<String>(), String.class);


    public static <E> void doStuff(List<E> list, Class<E> clazz) {



As pointed out by @bertolami, it's not possible to us a variable type and get its future value (the content of typeOfList variable).

Nevertheless, you can pass the class as parameter on it like this:

public final class voodoo {
    public static void chill(List<T> aListWithTypeSpiderMan, Class<T> clazz) {
        // Here I'd like to get the Class-Object 'SpiderMan'
        Class typeOfTheList = clazz;

    public static void main(String... args) {
        chill(new List<SpiderMan>(), Spiderman.class );

That's more or less what Google does when you have to pass a class variable to the constructor of ActivityInstrumentationTestCase2.


No it isn't possible.

You can get a generic type of a field given a class is the only exception to that rule and even that's a bit of a hack.

See Knowing type of generic in Java for an example of that.


I noticed that many people lean towards the getGenericSuperclass() solution:

class RootGeneric<T> {
  public Class<T> persistentClass = (Class<T>)

However, this solution is error prone. It will not work properly if there are generics in the descendants. Consider this:

class Foo<S> extends RootGeneric<Integer> {}

class Bar extends Foo<Double> {}

Which type will Bar.persistentClass have? Class<Integer>? Nope, it will be Class<Double>. This will happen due to getClass() always returns the top most class, which is Bar in this case, and its generic super class is Foo<Double>. Hence, the argument type will be Double.

If you need a reliable solution which doesn't fail I can suggest two.

  1. Use Guava. It has a class that was made exactly for this purpose: com.google.common.reflect.TypeToken. It handles all the corner cases just fine and offers some more nice functionality. The downside is an extra dependency. Given you've used this class, your code would look simple and clear, like this:
class RootGeneric<T> {
  public final Class<T> persistentClass = (Class<T>) (new TypeToken<T>(getClass()) {}.getType());
  1. Use the custom method below. It implements a significantly simplified logic similar to the Guava class, mentioned above. However, I'd not guarantee it's error prone. It does solve the problem with the generic descendants though.
abstract class RootGeneric<T> {
  private Class<T> getTypeOfT() {
    Class<T> type = null;
    Class<?> iter = getClass();
    while (iter.getSuperclass() != null) {
      Class<?> next = iter.getSuperclass();
      if (next != null && next.isAssignableFrom(RootGeneric.class)) {
        type =
                ((ParameterizedType) iter.getGenericSuperclass()).getActualTypeArguments()[0];
      iter = next;
    if (type == null) {
      throw new ClassCastException("Cannot determine type of T");
    return type;
  • I get the following error with the Guava solution: java.lang.ClassCastException: sun.reflect.generics.reflectiveObjects.TypeVariableImpl cannot be cast to java.lang.Class
    – Aluthren
    Dec 21, 2020 at 14:02

You can get the type of a generic parameter with reflection like in this example that I found here:

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

public class Home<E> {
    @SuppressWarnings ("unchecked")
    public Class<E> getTypeParameterClass(){
        Type type = getClass().getGenericSuperclass();
        ParameterizedType paramType = (ParameterizedType) type;
        return (Class<E>) paramType.getActualTypeArguments()[0];

    private static class StringHome extends Home<String>{}
    private static class StringBuilderHome extends Home<StringBuilder>{}
    private static class StringBufferHome extends Home<StringBuffer>{}   

     * This prints "String", "StringBuilder" and "StringBuffer"
    public static void main(String[] args) throws InstantiationException, IllegalAccessException {
        Object object0 = new StringHome().getTypeParameterClass().newInstance();
        Object object1 = new StringBuilderHome().getTypeParameterClass().newInstance();
        Object object2 = new StringBufferHome().getTypeParameterClass().newInstance();
  • how would you do the same thing to get V of Home<K, V> ? Nov 17, 2016 at 8:22

The quick answer the the Question is no you can't, because of Java generic type erasure.

The longer answer would be that if you have created your list like this:

new ArrayList<SpideMan>(){}

Then in this case the generic type is preserved in the generic superclass of the new anonymous class above.

Not that I recommend doing this with lists, but it is a listener implementation:

new Listener<Type>() { public void doSomething(Type t){...}}

And since extrapolating the generic types of super classes and super interfaces change between JVMs, the generic solution is not as straight forward as some answers might suggest.

Here is now I did it.


Here is another trick. Use a generic vararg array

import java.util.ArrayList;

class TypedArrayList<E> extends ArrayList<E>
    public TypedArrayList (E... typeInfo)
        // Get generic type at runtime ...
        System.out.println (typeInfo.getClass().getComponentType().getTypeName());

public class GenericTest
    public static void main (String[] args)
        // No need to supply the dummy argument
        ArrayList<Integer> ar1 = new TypedArrayList<> ();
        ArrayList<String> ar2 = new TypedArrayList<> ();
        ArrayList<?> ar3 = new TypedArrayList<> ();

This is impossible because generics in Java are only considered at compile time. Thus, the Java generics are just some kind of pre-processor. However you can get the actual class of the members of the list.

  • Yeah that is what I am doing now. But now I want to know the type even if the list is empty. But four guys can't be wrong. Thank you (all)!
    – cimnine
    Dec 14, 2009 at 14:25
  • 19
    This is not true. While it is tricky you can see in the next post that ParameterizedType allows to do that. Jun 27, 2012 at 9:58
  • 1
    Agree, it can be done. The example from DerMike outlines it (worked for me).
    – mac
    Oct 26, 2012 at 19:02
  • LOL at "four guys can't be wrong". This answer is correct. Dec 30, 2014 at 21:45

I've coded this for methods which expect to accept or return Iterable<?...>. Here is the code:

 * Assuming the given method returns or takes an Iterable<T>, this determines the type T.
 * T may or may not extend WindupVertexFrame.
private static Class typeOfIterable(Method method, boolean setter)
    Type type;
    if (setter) {
        Type[] types = method.getGenericParameterTypes();
        // The first parameter to the method expected to be Iterable<...> .
        if (types.length == 0)
            throw new IllegalArgumentException("Given method has 0 params: " + method);
        type = types[0];
    else {
        type = method.getGenericReturnType();

    // Now get the parametrized type of the generic.
    if (!(type instanceof ParameterizedType))
        throw new IllegalArgumentException("Given method's 1st param type is not parametrized generic: " + method);
    ParameterizedType pType = (ParameterizedType) type;
    final Type[] actualArgs = pType.getActualTypeArguments();
    if (actualArgs.length == 0)
        throw new IllegalArgumentException("Given method's 1st param type is not parametrized generic: " + method);

    Type t = actualArgs[0];
    if (t instanceof Class)
        return (Class<?>) t;

    if (t instanceof TypeVariable){
        TypeVariable tv =  (TypeVariable) actualArgs[0];
        AnnotatedType[] annotatedBounds = tv.getAnnotatedBounds();///
        GenericDeclaration genericDeclaration = tv.getGenericDeclaration();///
        return (Class) tv.getAnnotatedBounds()[0].getType();

    throw new IllegalArgumentException("Unknown kind of type: " + t.getTypeName());

You cannot get a generic parameter from a variable. But you can from a method or field declaration:

Method method = getClass().getDeclaredMethod("chill", List.class);
Type[] params = method.getGenericParameterTypes();
ParameterizedType firstParam = (ParameterizedType) params[0];
Type[] paramsOfFirstGeneric = firstParam.getActualTypeArguments();
  • This gives me a Exception in thread "main" java.lang.ClassCastException: sun.reflect.generics.reflectiveObjects.TypeVariableImpl Jan 14, 2014 at 14:49
  • 'params' are 'Type's which has several subinterfaces. TypeVariableImpl is one that is used for method arguments and it tells the name of the generic inside the <>s, not the Class it represents.
    – Lee Meador
    Mar 4, 2016 at 2:05

Just for me reading this snippet of code was hard, I just divided it into 2 readable lines :

// assuming that the Generic Type parameter is of type "T"
ParameterizedType p = (ParameterizedType) getClass().getGenericSuperclass();
Class<T> c =(Class<T>)p.getActualTypeArguments()[0];

I wanted to create an instance of the Type parameter without having any parameters to my method :

publc T getNewTypeInstance(){
    ParameterizedType p = (ParameterizedType) getClass().getGenericSuperclass();
    Class<T> c =(Class<T>)p.getActualTypeArguments()[0];

    // for me i wanted to get the type to create an instance
    // from the no-args default constructor
    T t = null;
        t = c.newInstance();
    }catch(Exception e){
        // no default constructor available
    return t;


Class<?> typeOfTheList = aListWithTypeSpiderMan.toArray().getClass().getComponentType();
  • This is wrong. toArray() returns Object[]. You can't and shouldn't depend on it being some particular subtype.
    – Radiodef
    Aug 15, 2018 at 22:48

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