12

In this tutorial on reflection it states:

[...] because generics are implemented via type erasure which removes all information regarding generic types during compilation

My knowledge was that generics are used so that at compile time the compiler can check for type safety. i.e fail fast approach. But the link mentions that type erasure removes generic information during compilation.

3
  • 3
    During compilation but after validation. Oct 8, 2013 at 16:24
  • 2
    Obviously the information isn't removed before the compiler is done using the information. Oct 8, 2013 at 16:26
  • The compiler doesn't remove anything from your .java file instead it creates a .class file and it doesn't copy comments, imports, or all the generic information (some is still there) Since you start with nothing, you can't be removing them. Oct 8, 2013 at 16:49

4 Answers 4

15

The statement that you quoted is correct: the compiler uses the generic type information internally during the process of compilation, generating type-related errors as it processes the sources. Then, once the validation is done, the compiler generates type-erased byte code, with all references to generic types replaced with their respective type erasure.

This fact becomes evident when you look at the types through reflection: all interfaces, classes, and functions become non-generic, with all types tied to generic type parameters replaced with a non-generic type based on the generic type constraints specified in the source code. Although reflection API does have provisions for accessing some of the information related to generics* at runtime, the virtual machine is unable to check the exact generic type for compatibility when you access your classes through reflection.

For example, if you make a class member of type List<String> and try setting a List<Integer> into it, the compiler is going to complain. If you try to do the same through reflection, however, the compiler is not going to find out, and the code will fail at run-time in the same way that it would without generics:

class Test {
    private List<String> myList;
    public void setList(List<String> list) {
        myList = list;
    }
    public void showLengths() {
        for (String s : myList) {
             System.out.println(s.length());
        }
    }
}

...

List<Integer> doesNotWork = new ArrayList<Integer>();
doesNotWork.add(1);
doesNotWork.add(2);
doesNotWork.add(3);
Test tst = new Test();
tst.setList(doesNotWork); // <<== Will not compile
Method setList = Test.class.getMethod("setList", List.class);
setList.invoke(tst, doesNotWork); // <<== This will work;
tst.showLengths(); // <<== However, this will produce a class cast exception

Demo on ideone.


* See this answer for details on getting information related to generic types at runtime.

10
  • generic types replaced with <strike>java.lang.Object</strike>, their respective type erasure.
    – Rohit Jain
    Oct 8, 2013 at 16:28
  • @RohitJain You're right, it's not always java.lang.Object - thanks! Oct 8, 2013 at 16:34
  • 1
    This is the reason why it is called "erasure types".
    – Mauren
    Oct 8, 2013 at 17:12
  • 3
    -1; this explanation is misleading. You can get some of the generic type constraints back by using reflection. For example, if you call Test.class.getDeclaredField("myList").getGenericType(), you will get List<String>, not List. Demo on ideone. Oct 8, 2013 at 22:17
  • @LouisWasserman Thanks for the comment. Please take a look at the edit, and let me know if you think that the explanation remains misleading even after the edit. Thanks! Oct 9, 2013 at 17:23
4

Some generics stay in the compiled class -- specifically including method signatures and class definitions, for example. At runtime, no objects keep their full generic type, but even at runtime you can look up the generic definition of a class or a method.

For example, if you have

class Foo {
  List<String> getList() { ... }

  public static void main(String[] args) {
    System.out.println(Foo.class.getMethod("getList").getGenericReturnType());
    // prints "List<String>"
    List<String> list = new Foo().getList();
    // there is no way to get the "String" parameter on list
}
1

It means, when it is being converted into bytecode. For checking whether correct types are used or not, generics are used. But at the time of bytecode generation, information is removed

1

In java, Generics is just a place holder. Java Run Time doesn't have any clue about the generics. It's all a compile time trick.

Setting up generics is exactly similar to the scenario, when you declare a field attribute in a class as

  • Object (When you just declare type as T)
  • MyObject (When you declare type as T extends MyObject).

After compilation, all would be wired according to the types. That's what is known as Type Erasure.

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