7
try {
    for(;;) {
        s.add("Pradeep");
    }
} finally {
    System.out.println("In Finally");
}

In the try block the jvm runs out of memory,then how is jvm excuting finally block when it has no memory?

Output:

In Finally
Exception in thread "main" java.lang.OutOfMemoryError: Java heap space
3

6 Answers 6

2

Presumably the System.out.println call requires less memory than the s.add("Pradeep") call.

If s is an ArrayList for instance, the s.add call may cause the list to attempt to double up it's capacity. This is possibly a quite memory demanding operation, thus it is not very surprising that the JVM can continue executing even if it can't perform such relatively expensive task.

3
  • 1
    The OutOfMemoryError probably occurs when the list(?) represented by s tries to allocate memory to store the string. If s is an ArrayList for instance, this operation can be quite expensive (since the ArrayList uses array doubling). So, just because s.add fails, doesn't mean that a simple System.out.println will fail.
    – aioobe
    Oct 13, 2011 at 11:36
  • Thats right. If the collection is not accessed after the exception is thrown, it can be collected, thus freeing a ton of memory. If it is accessed, it can't be GCed, so we have left as much the equivalent remaining memory as to add a new string to the collection. Oct 13, 2011 at 11:41
  • so we have left as much the equivalent remaining memory as to add a new string to the collection -- Which may be several megabytes if s is something like an ArrayList. A side-note: Unless s is a local variable, it will most definitely not be GCed.
    – aioobe
    Oct 13, 2011 at 12:09
1

Here is more simple code that demonstrated better what happens:

    try {
        int[] a = new int[Integer.MAX_VALUE];
    } catch( Exception e ) {
        e.printStackTrace();
    }

The allocation of the array fails but that doesn't mean Java has no free memory anymore. If you add items to a list, the list grows in jumps. At one time, the list will need more than half of the memory of the VM (about 64MB by default). The next add will try to allocate an array that is too big.

But that means the VM still has about 30MB unused heap left for other tasks.

If you want to get the VM into trouble, use a LinkedList because it grows linearly. When the last allocation fails, there will be only very little memory to handle the exception:

    LinkedList<Integer> list = new LinkedList<Integer>();
    try {
        for(;;) {
            list.add(0); 
        }
    } catch( Exception e ) {
        e.printStackTrace();
    }

That program takes longer to terminate but it still terminates with an error. Maybe Java sets aside part of the heap for error handling or error handling doesn't need to allocate memory (allocation happens before the code is executed).

7
  • "Maybe Java sets aside part of the heap for error handling" I have been told that some C++ implementations do something like this.
    – Raedwald
    Oct 13, 2011 at 12:12
  • A, yes it does that. However the original question does not need extra memory. System.out.println("In Finally"); is just a call of a method with a constant argument, there is no object created or anything done that "consumes" memory. Oct 13, 2011 at 15:40
  • @Angel: I'd be surprised if the underlying PrintStream/OutputStream could print the string on the console without allocation memory. It will at least need to convert the unicode string into a byte array suitable for the system's write() call. That said, it doesn't matter if println() needs memory because at that time, the GC can usually free enough heap again. Oct 14, 2011 at 9:22
  • I would assume that the underlying output system ALL READY has that byte array (if it is needed at all). It makes no sense to allocate always a new one. Oct 15, 2011 at 14:31
  • @Angel: It doesn't matter if it makes sense to you; the question is how the code is written. Have a look at the OpenJDK source but I'm pretty sure it's allocated per call. Allocating memory in Java is pretty cheap; freeing it costs nothing at all. It's keeping memory around that's expensive. Oct 17, 2011 at 20:44
1

In the try block the jvm runs out of memory, then how is jvm excuting finally block when it has no memory?

The JVM "runs out of memory" and throws an OOME when an attempt to allocate an object or array fails because there is not enough space available for that object. That doesn't mean that everything has to stop instantly:

  • The JVM can happily keep doing things that don't entail creating any new objects. I'm pretty sure that this is what happens in this case. (The String literal already exists, and implementation of the println method is most likely copying characters into a Buffer that was previously allocated.)

  • The JVM could potentially allocate objects that are smaller than the one that triggered the OOME.

  • The propagation of the OOME may cause variables containing object references to go out of scope, and the objects that they refer to may then become unreachable. A subsequent new may then trigger the GC that reclaims said objects, making space for new ones.


Note: the JLS does not specify that the String object that represents that literal must be created when the class is loaded. However, it certainly says that it may be created at class load time ... and that is what happens in any decent JVM.


Another answer said this:

Maybe Java sets aside part of the heap for error handling or error handling doesn't need to allocate memory (allocation happens before the code is executed).

I think this is right. However, I think that this special heap region is only used while instantiating the OOME exception, and filling in the stack trace information. Once that has happened, the JVM goes back to using the regular heap. (It would be easy to get some evidence for this. Just retry the add call in the finally block. If it succeeds, that is evidence that something has made more memory available for general use.)

0

The JVM isn't really out of memory and unable to proceed. This error says that it failed to allocate memory and so it didn't. That might mean its very low. But here what failed was resizing the collection's internal array which is huge. There's a lot of memory left just not that much to double a large array. So it can proceed just fine with finally.

0

The error is thrown when the heap space exceeds that set by the -Xmx flag, and it cannot continue as normal. The error propagates, but it does not immediately cause the JVM to be shutdown (of the system exited in such cases, there would be no point in the OOM error, as it could never be thrown).

As the JVM has not exited it will try to, as according to the language spec, execute the finally block.

0

Finally executes almost always. When the exception was thrown, the JVM collected as much as memory as possible, which, reading your code, probably meant that it collected the whole s collection.

When the finally is reached, it only has to create a new string "In finally" in the string pool no additional memory is required, and it has no problems since it has freed up space before.

Try printing s.size() on the finally, you'll see how it is not able to do it. (EDIT: if in catch, finally or after the try block, there´s a line of code using the s collection, the Garbage Collector is unable to collect it at the moment the OOME is thrown. This is why the heap memory will be almost full, so any new object allocation may throw another OOME again. It is difficult to predict without seeing the complete code).

3
  • 3
    No "In finally" is allocated when the class is loaded. If s is an ArrayList for instance, I'm quite sure that he will be able to print s.size() in the finally block.
    – aioobe
    Oct 13, 2011 at 11:37
  • 1
    The string pool is part of the class declaration. I'd say it would be more inefficient to load it "lazily", i.e. allocate memory, dig up what the content should be and load the string when needed.
    – aioobe
    Oct 13, 2011 at 11:48
  • As you said, the literals are loaded on the string pool when the class is first loaded. I've been looking for this in the JLS, but I haven't found it. (Maybe because it is an optimization of the JVM implementation?) Oct 17, 2011 at 8:08

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.