I have recently discovered and blogged about the fact that it is possible to sneak a checked exception through the javac compiler and throw it where it mustn't be thrown. This compiles and runs in Java 6 and 7, throwing a SQLException without throws or catch clause:

public class Test {

    // No throws clause here
    public static void main(String[] args) {
        doThrow(new SQLException());

    static void doThrow(Exception e) {
        Test.<RuntimeException> doThrow0(e);

    static <E extends Exception> void doThrow0(Exception e) throws E {
        throw (E) e;

The generated bytecode indicates that the JVM doesn't really care about checked / unchecked exceptions:

// Method descriptor #22 (Ljava/lang/Exception;)V
// Stack: 1, Locals: 1
static void doThrow(java.lang.Exception e);
  0  aload_0 [e]
  1  invokestatic Test.doThrow0(java.lang.Exception) : void [25]
  4  return
    Line numbers:
      [pc: 0, line: 11]
      [pc: 4, line: 12]
    Local variable table:
      [pc: 0, pc: 5] local: e index: 0 type: java.lang.Exception

// Method descriptor #22 (Ljava/lang/Exception;)V
// Signature: <E:Ljava/lang/Exception;>(Ljava/lang/Exception;)V^TE;
// Stack: 1, Locals: 1
static void doThrow0(java.lang.Exception e) throws java.lang.Exception;
  0  aload_0 [e]
  1  athrow
    Line numbers:
      [pc: 0, line: 16]
    Local variable table:
      [pc: 0, pc: 2] local: e index: 0 type: java.lang.Exception

The JVM accepting this is one thing. But I have some doubts whether Java-the-language should. Which parts of the JLS justify this behaviour? Is it a bug? Or a well-hidden "feature" of the Java language?

My feelings are:

  • doThrow0()'s <E> is bound to RuntimeException in doThrow(). Hence, no throws clause along the lines of JLS §11.2 is needed in doThrow().
  • RuntimeException is assignment-compatible with Exception, hence no cast (which would result in a ClassCastException) is generated by the compiler.
  • Because RuntimeException extends Exception this is possible. But it is allowed. Sep 25, 2012 at 10:07
  • 1
    The JVM couldn't care less, that is for sure. It's only a compile-time validation. I like this, maybe I can adapt it to finally be able to avoid all those idiotic try-catch e-throw new RuntimeException(e)! Sep 25, 2012 at 10:07
  • Dude, this is a nice way to get both reputations on SO and click-through on your blog ;)
    – Saintali
    Sep 25, 2012 at 11:40
  • I actually liked it. It gave the question more context. Spam is such a strong word for that.
    – Saintali
    Sep 25, 2012 at 14:04

5 Answers 5


All this amounts to exploiting the loophole that an unchecked cast to a generic type is not a compiler error. Your code is explicitly made type-unsafe if it contains such an expression. And since the checking of checked exceptions is strictly a compile-time procedure, nothing will break in the runtime.

The answer from the authors of Generics would most probably be along the lines of "If you are using unchecked casts, it's your problem".

I see something quite positive in your discovery—a break out of the stronghold of checked exceptions. Unfortunately, this can't turn existing checked-exception-poisoned APIs into something more pleasant to use.

How this can help

At a typical layered application project of mine there will be a lot of boilerplate like this:

try {
  ... business logic stuff ...
catch (RuntimeException e) { throw e; } 
catch (Exception e) { throw new RuntimeException(e); }

Why do I do it? Simple: there are no business-value exceptions to catch; any exception is a symptom of a runtime error. The exception must be propagated up the call stack towards the global exception barrier. With Lukas' fine contribution I can now write

try {
  ... business logic stuff ... 
} catch (Exception e) { throwUnchecked(e); }

This may not seem like much, but the benefits accumulate after repeating it 100 times throughout the project.


In my projects there is high discipline regarding exceptions so this is a nice fit for them. This kind of trickery is not something to adopt as a general coding principle. Wrapping the exception is still the only safe option in many cases.

  • 2
    "checked-exception-poisoned APIs" ;-)
    – assylias
    Sep 25, 2012 at 10:52
  • 3
    That can thoroughly break callers who expect checked exceptions to be declared. Imagine a try block containing multiple invocations. One of the methods called declares throws FooException, another does not but throws it anyways. A catch block handling FooException might not expect the state the program is in when that comes to pass.
    – Ben Schulz
    Sep 25, 2012 at 10:53
  • @Ben I agree, this is definitely not to be seen as a general recommendation. First of all, it helps only when you are authoring code that throws the exception, and in that case you should just choose an unchecked exception to throw. Sep 25, 2012 at 10:55
  • @MarkoTopolnik: On a side-note, the stacktrace won't improve, as the location of new SQLException() remains the same. The location of the actual throw statement is irrelevant to the stack trace.
    – Lukas Eder
    Sep 25, 2012 at 11:21
  • 1
    @Saintali I would absolutely, positively, never, ever use such tricks in a public library! But let's land on the Earth and acknowledge that nobody ever writes public libraries, except for a select few, and even for them it's 10% of their code tops. I can write something to that effect in the disclaimer, but my use case specification already covers the ground pretty well, I'd say Sep 25, 2012 at 14:18

This example is documented in The CERT Oracle Secure Coding Standard for Java which documents several non compliant code examples.

Noncompliant Code Example (Generic Exception)

An unchecked cast of a generic type with parameterized exception declaration can also result in unexpected checked exceptions. All such casts are diagnosed by the compiler unless the warnings are suppressed.

interface Thr<EXC extends Exception> {
  void fn() throws EXC;

public class UndeclaredGen {
static void undeclaredThrow() throws RuntimeException {
@SuppressWarnings("unchecked")  // Suppresses warnings
Thr<RuntimeException> thr = (Thr<RuntimeException>)(Thr)
  new Thr<IOException>() {
    public void fn() throws IOException {
      throw new IOException();

public static void main(String[] args) {

This works because RuntimeException is child class of Exception and you can not convert any class extending from Exception to RuntimeException but if you cast like below it will work

 Exception e = new IOException();
 throw (RuntimeException) (e);

The case you are doing is same as this. Because this is explicit type casting this call will result in ClassCastException however compiler is allowing it.

Because of Erasure however in your case there is no cast involved and hence in your scenario it does not throw ClassCastException

In this case there is no way for compiler to restrict the type conversion you are doing.

However if you change method signature to below it will start complaining about it.

static <E extends Exception> void doThrow0(E e) throws E {
  • Your intuition is the same as mine. Note, the purpose of doThrow0() was to hide the unsafe cast from Exception to E in doThrow()... So changing the signature won't make sense here, for the sake of my example.
    – Lukas Eder
    Sep 25, 2012 at 11:47
  • @LukasEder It works without Generics also. please check the example. Sep 25, 2012 at 11:51
  • But AmitD, your code will throw a ClassCastException, masking the exception you wanted to throw! Sep 25, 2012 at 11:51
  • @MarkoTopolnik ClassCastException is runtime behaviour but compile time behaviour is same. There is difference in both because of Erasure. Sep 25, 2012 at 11:55
  • 1
    @LukasEder check the link to book this might be answer to your question. Sep 25, 2012 at 13:49

Well, that's one of multiple ways to raise a check exception as if it were unchecked. Class.newInstance() is another, Thread.stop(Trowable) a deprecated one.

The only way for the JLS not to accept this behavior is if the runtime (JVM) will enforce it.

As to were it is specified: It isn't. Checked and unchecked exceptions behave the same. Checked exceptions simply require a catch block or a throws clause.

Edit: Based on the discussion in the comments, a list-based example exposing the root cause: Erasure

public class Main {
    public static void main(String[] args) {
        List<Exception> myCheckedExceptions = new ArrayList<Exception>();
        myCheckedExceptions.add(new IOException());

        // here we're tricking the compiler
        List<RuntimeException> myUncheckedExceptions = (List<RuntimeException>) (Object) myCheckedExceptions;

        // here we aren't any more, at least not beyond the fact that type arguments are erased
        throw throwAny(myUncheckedExceptions);

    public static <T extends Throwable> T throwAny(Collection<T> throwables) throws T {
        // here the compiler will insert an implicit cast to T (just like your explicit one)
        // however, since T is a type variable, it gets erased to the erasure of its bound
        // and that happens to be Throwable, so a useless cast...
        throw throwables.iterator().next();
  • Class.newInstance() and Thread.stop(Throwable) ultimately throw the exception from a native implementation. So that's probably fine with the JLS. Even if they behave the same (JVM doesn't care), to the JLS they're not the same (javac cares) as can be seen in various chapters, such as §11.2 for instance
    – Lukas Eder
    Sep 25, 2012 at 10:13
  • 1
    @LukasEder Exceptions are part of the type system. If you cast away (no pun intended) the type information, the compiler has nothing to work with. You convinced it that there is no checked exception there. I might add that you did so with an unchecked cast which raises a warning, so I'm not sure what more you are asking for.
    – Ben Schulz
    Sep 25, 2012 at 10:42
  • "cast away" ;-). Yes, that's what I was looking for. Is it really so, that I can legally convince the compiler that there are no checked exceptions involved? I think I can, for the reasons mentioned. But I'm surprised by this, so I wanted to ask the question.
    – Lukas Eder
    Sep 25, 2012 at 11:33
  • 1
    @LukasEder Yes, it's the cast. A more elaborate way to do the same was to stuff it in a List<Exception> and cast that to List<RuntimeException>. Then you can pull it back out an throw it as an unchecked exception. It's erasure. Again. :D
    – Ben Schulz
    Sep 25, 2012 at 11:52
  • Awesome idea with the lists! Unfortunately, that seems to result in a ClassCastException when pulling out the RuntimeException...
    – Lukas Eder
    Sep 25, 2012 at 11:53

JLS 11.2:

For each checked exception which is a possible result, the throws clause for the method (§8.4.6) or constructor (§8.8.5) must mention the class of that exception or one of the superclasses of the class of that exception (§11.2.3).

This clearly indicates doThrow must have Exception in it's throws clause. Or, as downcasting (Exception to RuntimeException) is involved, the check must be done that Exception IS RuntimeException, which should fail in example because the exception being cast is SQLException. So, ClassCastException should be thrown in runtime.

As of practical side, this java bug allows to create a hack unsafe for any standard exception handling code, like next:

try {
} catch (RuntimeException e) {

The exception will go up without being handled.

  • To me, "possible result" leaves room for interpretation. I'm arguing that if <E> is bound to an unchecked exception, there is no such "possible result". Do note that the unsafe cast (E) e is hidden within doThrow0(), and thus invisible to doThrow(). I'm not saying this is all good, but I don't see why the JLS is violated by these simple rules that don't even mention generics...
    – Lukas Eder
    Sep 25, 2012 at 11:32

I don't think it can be disputed that the JLS allows that code. The question is not whether that code should be legal. The compiler simply does not have enough information to issue an error.

The issue here with the code emitted when you call a generic-throwing method. The compiler currently inserts type casts after calling a generic-returning methods where the returned value will be immediately assigned to a reference.

If the compiler wanted, it could prevent the problem by silently surrounding all generic-throwing method invocations in a try-catch-rethrow fragment. Since the exception would be caught and assigned to a local variable, a type cast would be mandatory. So you would get a ClassCastException if it was not an instance of RuntimeException.

But the spec does not mandate anything special about generic-throwing methods. I believe that's an spec bug. Why not file a bug about that, so that it can be fixed or at least documented.

By the way, the ClassCastException would suppress the original exception, which can result in hard-to-find bugs. But that problem has a simple solution since JDK 7.

  • 1
    I agree javac should add a runtime type check to detect this problem early. tho it may not be always possible - if the target type is generic, check can't be done fully, the problem can be hidden till later. Sep 25, 2012 at 16:11
  • @irreputable right, if the target type is generic, it won't be cast immediately. But the caller itself being generic-throwing, can only be called as a generic-throwing. The compiler will have check this latter call site and wrap it in a try-catch-rethrow if necessary, so forth.
    – Saintali
    Sep 25, 2012 at 16:17

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