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I've looked everywhere and can't find a solid answer. According to the documentation, Java throws a java.lang.StackOverflowError error under the following circumstance:

Thrown when a stack overflow occurs because an application recurses too deeply.

But this raises two questions:

  • Aren't there other ways for a stack overflow to occur, not only through recursion?
  • Does the StackOverflowError happen before the JVM actually overflows the stack or after?

To elaborate on the second question:

When Java throws the StackOverflowError, can you safely assume that the stack did not write into the heap? If you shrink the size of the stack or heap in a try/catch on a function that throws a stack overflow, can you continue working? Is this documented anywhere?

Answers I am not looking for:

  • A StackOverflow happens because of bad recursion.
  • A StackOverflow happens when the heap meets the stack.
share|improve this question
+1 for the "answers I am not looking for" section :-) –  Leo Mar 4 '14 at 20:47
The default stack size is quite large, AFAIK 8 MB on Linux. That makes it unlikely to produce a stack overflow without recursion. –  nosid Mar 4 '14 at 20:49
You could produce a gigantic chain of method calls which would cause a SO (like method a calling b, b calling c, c calling d, ...), but it is purely imaginative. –  Smutje Mar 4 '14 at 20:50
codegolf.stackexchange.com/questions/9359/… contains a few stackoverflow producing programs, including a few in java, all using a form or another of recursion. –  njzk2 Mar 4 '14 at 22:02
Stacks running into heap? That would be the 1980th before memory management units became common in CPUs. ;-) –  Martin Mar 5 '14 at 20:07

10 Answers 10

up vote 146 down vote accepted

It seems you're thinking that a stackoverflow error is like a buffer overflow exception in native programs, when there is a risk of writing into memory that had not been allocated for the buffer, and thus to corrupt some other memory locations. It's not the case at all.

JVM has a given memory allocated for each stack of each thread, and if an attempt to call a method happens to fill this memory, JVM throws an error. Just like it would do if you were trying to write at index N of an array of length N. No memory corruption can happen. The stack can not write into the heap.

A StackOverflowError is to the stack what an OutOfMemoryError is to the heap: it simply signals that there is no more memory available.

Description from Virtual Machine Errors (§6.3)

StackOverflowError: The Java Virtual Machine implementation has run out of stack space for a thread, typically because the thread is doing an unbounded number of recursive invocations as a result of a fault in the executing program.

share|improve this answer
Just a appointment, java.lang.StackOverflowError is an Error, like OutOfMemory, and is not a Exception. Error and Exception extends Thowable. Its a really bad praticce to catch a Error/throwable instead a Exception. –  Ezequiel Mar 4 '14 at 20:55
renamed exception to error. Thanks. –  JB Nizet Mar 4 '14 at 20:57
You got your answer in all the other answers. You get the error when the stack is full, whatever the way you get to this situation. But I've never seen that happen without recursion, given the large size of the stack. –  JB Nizet Mar 4 '14 at 21:21
HotSpot has reliable and safe stack overflow detection, but I wonder if such behavior is mandated by the JVM spec? –  ntoskrnl Mar 4 '14 at 22:22
@ntoskrnl: yes: docs.oracle.com/javase/specs/jvms/se7/html/… –  JB Nizet Mar 4 '14 at 22:30

Aren't there other ways for a stack overflow to occur, not only through recursion?

Sure. Just keep calling methods, without ever returning. You'll need a lot of methods, though, unless you allow recursion. Actually, it doesn't make a difference: a stack frame is a stack frame, whether it is one of a recursive method or not is the same.

The answer to your second question is: The stackoverflow is detected when the JVM tries to allocate the stack frame for the next call, and finds it is not possible. So, nothing will be overwritten.

share|improve this answer
@Cruncher It's not a fixed depth. The arguments of the methods, for example, are stored on the stack. More arguments mean more memory needed for them on the stack, which means a smaller depth before the memory allocated for the stack is exhausted. Test it with a method calling itself with 1 argument, then with 5 for example. –  JB Nizet Mar 4 '14 at 22:07
Note that a JVM may choose to use a fixed depth, or may choose to dynamically expand the stack space, as per the spec. Hotspot doesn't do it, at least by default. See docs.oracle.com/javase/specs/jvms/se7/html/… –  JB Nizet Mar 4 '14 at 22:35
@Ingo the bytecode stack is somewhat distinct from the stack used at runtime for method calls. The runtime compiles the bytecode to native code (or at least is free to do so) and when it does so at least some of the stack usage there is translated to machine register usage. It may reserve some stack space for temporary storage, but this is often less than the maximum amount of bytecode interpretation stack required. –  Jules Mar 5 '14 at 8:09
@Jsor actually, the java heap and stack do not interfere. You can get stack overflow even when you have terabytes free in the heap. Conversely, you can die of OutOfMemory, without your stack getting smaller or something. –  Ingo Mar 5 '14 at 11:55
@Jsor A java app can have multiple threads, which share a heap, but each of them has a separate stack space. So this wouldn't work that easily. –  Paŭlo Ebermann Mar 5 '14 at 21:34

Aren't there other ways for a stack overflow to occur, not only through recursion?

Challenge accepted :) StackOverflowError without recursion (challenge failed, see comments):

public class Test
    final static int CALLS = 710;

    public static void main(String[] args)
        final Functor[] functors = new Functor[CALLS];
        for (int i = 0; i < CALLS; i++)
            final int finalInt = i;
            functors[i] = new Functor()
                public void fun()
                    System.out.print(finalInt + " ");
                    if (finalInt != CALLS - 1)
                        functors[finalInt + 1].fun();
        // Let's get ready to ruuuuuuumble!
        functors[0].fun(); // Sorry, couldn't resist to not comment in such moment. 

    interface Functor
        void fun();

Compile with standard javac Test.java and run with java -Xss104k Test 2> out. After that, more out will tell you:

Exception in thread "main" java.lang.StackOverflowError

Second try.

Now the idea is even simpler. Primitives in Java can be stored on the stack. So, let's declare a lot of doubles, like double a1,a2,a3.... This script can write, compile and run the code for us:


SOURCE="public class $NAME{public static void main(String[] args){double "
for i in $(seq 1 $VARIABLES);
echo $SOURCE > $FILE
javac $FILE
java -Xss104k $NAME

And... I got something unexpected:

# A fatal error has been detected by the Java Runtime Environment:
#  SIGSEGV (0xb) at pc=0x00007f4822f9d501, pid=4988, tid=139947823249152
# JRE version: 6.0_27-b27
# Java VM: OpenJDK 64-Bit Server VM (20.0-b12 mixed mode linux-amd64 compressed oops)
# Derivative: IcedTea6 1.12.6
# Distribution: Ubuntu 10.04.1 LTS, package 6b27-1.12.6-1ubuntu0.10.04.2
# Problematic frame:
# V  [libjvm.so+0x4ce501]  JavaThread::last_frame()+0xa1
# An error report file with more information is saved as:
# /home/adam/Desktop/test/hs_err_pid4988.log
# If you would like to submit a bug report, please include
# instructions how to reproduce the bug and visit:
#   https://bugs.launchpad.net/ubuntu/+source/openjdk-6/

It's 100% repetitive. This is related to your second question:

Does the StackOverflowError happen before the JVM actually overflows the stack or after?

So, in case of OpenJDK 20.0-b12 we can see that JVM firstly exploded. But it seems like a bug, maybe someone can confirm that in comments please, because I'm not sure. Should I report this? Maybe it's already fixed in some newer version... According to JVM specification link (given by JB Nizet in a comment) JVM should throw a StackOverflowError, not die:

If the computation in a thread requires a larger Java Virtual Machine stack than is permitted, the Java Virtual Machine throws a StackOverflowError.

Third try.

public class Test {
    Test test = new Test();

    public static void main(String[] args) {
        new Test();

We want to create new Test object. So, its (implicit) constructor will be called. But, just before that, all the members of Test are initialized. So, Test test = new Test() is executed first...

We want to create new Test object...

Update: Bad luck, this is recursion, I asked question about that here.

share|improve this answer
How is it not recursive? fun() calls fun(). On a different object, but that's still recursive. –  JB Nizet Mar 4 '14 at 21:23
@JBNizet But fun() calls different fun(), with different finalInt "closed" object, so it's not recursion. –  Adam Stelmaszczyk Mar 4 '14 at 21:25
No. There's a single fun() method being called, on different instances of the same class. That's recursion. –  JB Nizet Mar 4 '14 at 21:27
@Adam Write a native JNI function that allocates a gigantic object on the stack and then call a Java method. –  Voo Mar 4 '14 at 23:42
Huh, yup you definitely found a bug there. Basically as long as you don't write faulty native code and invoke it per JNI (at least indirectly) you should never see one of those error messages. Have to check if that bug still works on the latest release. –  Voo Mar 6 '14 at 1:59

The most common cause of StackOverFlowError is excessively deep or infinite recursion.

For instance:

public int yourMethod(){
       yourMethod();//infinite recursion

In Java:

There are two areas in memory the heap and stack. The stack memory is used to store local variables and function call, while heap memory is used to store objects in Java.

If there is no memory left in stack for storing function call or local variable, JVM will throw java.lang.StackOverFlowError

while if there is no more heap space for creating object, JVM will throw java.lang.OutOfMemoryError

share|improve this answer

There is no "StackOverFlowException". What you mean is "StackOverFlowError".

Yes you can continue working if you catch it because the stack is cleared when you do that but that would be a bad and ugly option.

When exactly the error is thrown ? - When you call a method and the JVM verifies if there is enough memory to do it. Of course, the error is thrown if it's not possible.

  • No, that is the only way you can get that error: getting your stack full. But not only through recursion, also calling methods that infinitely call other methods. It's a very specific error so no.
  • It is thrown before the stack is full, exactly when you verify it. Where would you put the data if there is no space available ? Overriding others ? Naah.
share|improve this answer
Would not have asked and done research if I could answer it myself. I understand that this is typically a result of a recursive function, which is why I addressed this point in the question itself, and explicitly stated this is not the answer I was looking for. Are there situations in which you can predict a stackoverflow may occur due to memory constraints, but this isn't necessarily a fatal problem? What are the two bullet points at the end? I don't follow what they are saying. –  Crackers Mar 4 '14 at 21:19
There are no realistic circumstances where you can assume you are "safe" after catching a StackOverflowError. The problem is not the JVM's health, but rather the health of your own data and operations, and is complicated because you can't predict and plan for exactly when and where the Error is raised--hence, which of your code has or has not executed. –  jackr Mar 5 '14 at 0:52
There are plenty of circumstances, for example with a recursive algorithm that only modifies a limited set of data. In that case you can ditch those results and handle the failure however you like. –  Tim B Mar 5 '14 at 13:56

There are two main places that things can be stored in Java. The first is the Heap, that's used for dynamically allocated objects. new.

In addition each running thread gets its own stack, and it gets an amount of memory allocated to that stack.

When you call a method then data is pushed into the stack to record the method call, the parameters being passed in, and any local variables being allocated. A method with five local variables and three parameters will use more stack space than a void doStuff() method with no local variables will.

The main advantages of the stack are that there is no memory fragmentation, everything for one method call is allocated on the top of the stack, and that returning from methods is easy. To return from a method you just unwind the stack back to the previous method, set any value needed for the return value and you are done.

Because the stack is a fixed size per thread, (note that the Java Spec does not require a fixed size, but most JVM implementations at the time of writing use a fixed size) and because space on the stack is needed whenever you make a method call hopefully it should now be clear why it can run out and what can cause it to run out. There isn't a fixed number of method calls, there isn't anything specific about recursion, you get the exception which you try to call a method and there isn't enough memory.

Of course the size of stacks is set high enough that it is highly unlikely to happen in regular code. In recursive code though it can be quite easy to recurse to huge depths, and at that point you start running into this error.

share|improve this answer
Nice summary but note that the stack size does not need to be fixed, see this comment by JB Nizet. –  siegi Mar 12 '14 at 17:56
@siegi Thanks, I've added a note to clarify that. –  Tim B Mar 14 '14 at 9:07

StackOverflowError occurs due to an application recurses too deeply (This is not an answer you are expecting).

Now other things to happen to StackOverflowError is keep calling methods from methods till you get StackOverflowError, but nobody can program to get StackOverflowError and even if those programmer are doing so then they are not following coding standards for cyclomatic complixity that every programmer has to understand while programming. Such reason for 'StackOverflowError' will require much time to rectify it.

But unknowingly coding one line or two line which causes StackOverflowError is understandable and JVM throws that and we can rectify it instantly. Here is my answer with picture for some other question.

share|improve this answer

A StackOverflow happens when a function call is made and the stack is full.

Just like an ArrayOutOfBoundException. It cannot corrupt anything, in fact it is very possible to catch it and recover from it.

It usually happens as the result of an uncontrolled recursion, but it can also be caused by simply have a very deep stack of functions call.

share|improve this answer
This is wrong. A StackOverflowError is nothing like an ArrayOutOfBoundException. It's not even an Exception at all! It can absolutely corrupt things. If you call some recursive function, and it throws back a StackOverflowError you can make no assumptions about the correctness of the state of any objects that it touched anymore. It may have done only part of an operation. It's generally a bad idea to try to recover from this, unless you have a very good reason, and know what you're doing. –  Cruncher Mar 4 '14 at 21:48
Consider a quick sort that stack overflowed. When the stack overflows the array can be in no real logical order. The array has been corrupted. –  Cruncher Mar 4 '14 at 21:50
This is a comparison. SO in not an AOOBE, but it can be compared to one because basically you are trying to add an element to a stack that is full. As for the corruption of thing, the execution is stopped at a very precise point, just like with any other error. In itself it will not write stuff in the heap, which is the sense of the question (can you safely assume that the stack did not write into the heap?) –  njzk2 Mar 4 '14 at 21:53
@Cruncher: Is there any reason why a StackOverFlowError from QuickSort would be more likely to leave the array with duplicate and missing items than would be any other kind of exception (e.g. objects containing items are compared based upon the average value of the items, and one of the objects has no items and throws DivisionByZeroException.)? Either the sort maintains the invariant that the array always holds a permutation whenever the comparer function is called, or it doesn't. –  supercat Mar 4 '14 at 22:01
@Cruncher : you can emphasis all you want, I still disagree. There is no corruption in the sense the SO intends it. I requote again can you safely assume that the stack did not write into the heap? => Yes –  njzk2 Mar 6 '14 at 15:17

In c# you can achieve stack overflow in a different manner, by wrongly defining object properties. For example :

private double hours;

public double Hours
            get { return Hours; }
            set { Hours = value; }

As you can see this will forever keep on returning Hours with an uppercase H , which in itself will return Hours and so and so on.

A stack overflow will often occur also because of running out of memory or when using managed languages because your language manager (CLR, JRE) will detect that your code got stuck in an infinite loop.

share|improve this answer

But this raises two questions:

  1. Aren't there other ways for a stack overflow to occur, not only through recursion?
  2. Does the StackOverflowError happen before the JVM actually overflows the stack or after?
  1. It can also occur when we are Allocating size greater than stack's limit (for eg. int x[10000000];).

  2. Answer to second is

Each thread has its own stack that holds a frame for each method executing on that thread. So the currently executing method is at the top of the stack. A new frame is created and added (pushed) to the top of stack for every method invocation. The frame is removed (popped) when the method returns normally or if an uncaught exception is thrown during the method invocation. The stack is not directly manipulated, except to push and pop frame objects, and therefore the frame objects may be allocated in the Heap and the memory does not need to be contiguous.

So by considering stack in a Thread we can conclude.

A stack can be a dynamic or fixed size. If a thread requires a larger stack than allowed a StackOverflowError is thrown. If a thread requires a new frame and there isn’t enough memory to allocate it then an OutOfMemoryError is thrown.

you can get description for JVM here

share|improve this answer
Not in Java. int x[10000000] is allocated on the heap. –  Jeremy Stein Mar 5 '14 at 19:48
@JeremyStein I have read it here here isn't that correct? –  eatSleepCode Mar 6 '14 at 5:00
@JeremyStein int is primitive type and it gets memory on stack. You can check it here programmers.stackexchange.com/questions/65281/… –  eatSleepCode Mar 6 '14 at 5:08
is this the only reason for down vote? –  eatSleepCode Mar 6 '14 at 5:20
I believe an OutOfMemoryError is thrown when the heap is full. A StackOverflowError, however is thrown when a thread requires an additional frame when there is no room for it. (This is confirmed by comments and answers on this page). –  11684 Mar 6 '14 at 9:50

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