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I understand that there is no way to get the stack size of a thread in Java at runtime (see Can one obtain actual stack size used by a thread in Java after some time of running?).

For example, if we create a java.lang.Thread specifying a stack size of 64*1024, the JVM is free to give us a thread with any stack size.

However, I believe that actually knowing the actual size of the stack is very useful for certain applications which requires this kind of information.

What is the reason that we do not have a method which tells us the actual number of bytes used for the stack?

Is there some kind of limitation in the architecture that makes it impossible to get the actual number of bytes for a thread?

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    "However, I believe that actually knowing the actual size of the stack is very useful for certain applications which requires this kind of information." Do you have any examples?
    – Mark Byers
    Feb 11, 2012 at 21:03
  • @MarkByers For example, a web server or an OS.
    – Pacerier
    Feb 11, 2012 at 21:07
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    Why would a web server need to know the stack size?
    – Bombe
    Feb 11, 2012 at 21:19
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    That's an example of an application, not an example about why it would be useful to know that. Feb 11, 2012 at 21:19
  • @Bombe It is possible to do tuning if we have info on the actual stack size. For example if I wanted to do intense calculation, different algorithms could be selected dynamically based on the size of the stack.
    – Pacerier
    Feb 11, 2012 at 21:24

1 Answer 1

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The only things that are stored on the stack are primitive types and references. Objects are always created on the heap, so the data types that would be stored on the stack are

  • Local Variables of type byte, char, int, long, float, double the longest of these are double which is 8 bytes
  • References to objects are 4 bytes on 32 bit vm, 8 bytes on 64 bit vms (possibly shorter, 48 bit references are used to save space)

Note that arrays are objects types so they are stored on the heap, also if you have a primitive that is a field in a class then the primitive is part of an object and therefore will be stored on the heap.

So its pretty hard to run out of stack space for a thread unless you have runway recursion. I would imagine that is the reason why the Java designers don't give you a way to find out the stack size.

Another reason not to give the stack size is that it would be an implementation details that you can't really do anything with, you can't change the size of a thread stack after you have created the thread, and you can't do pointer arithmetic so what the point of knowing the stack size?

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  • I'm a thread pool, I want to create 30 threads when I'm borned, each with a stack size of 64Kb. However if the JVM ignores my stack size request and creates each thread with stack size of 1Mb, then I do not wish to create 30 threads. If each thread has a stack size of 512Kb, I would instead create 15 threads. Else if each thread has a stack size of 1Mb, I would instead create 10 threads (and so on). However there's no way for me to query the stack size, and the best I can do now is to assume.
    – Pacerier
    Feb 11, 2012 at 23:00
  • @Pacerier the stack size is so small relative to the heap size, therefore the issue with having more threads is not stack size of an individual thread but by the amount of heap memory used by each thread. The more threads the more heap you will probably need. What type of hardware are targeting to run your app on that you are concerned about KB of memory?
    – ams
    Feb 12, 2012 at 0:00
  • am I misunderstanding something, because threads do not take up any heap memory by themselves. If I have 10 instances of MyThreadPool and each MyThreadPool has 30 threads and each thread has 1Mb stack size that is a total of 300Mb memory. On the other hand, if each thread has 64Kb stack size it would only take 18.75Mb memory. That's a huge difference even with an above-average computer
    – Pacerier
    Feb 12, 2012 at 0:16
  • @Pacerier I am pointing out that each thread that you run will presumably be doing something, and whatever the thread is doing it will consume heap space along with stack space, I am assuming that the thread will consume more heap space than it will stack space in the normal course of the execution of the thread. Thus my comment that the more threads you have the more heap you will likely need.
    – ams
    Feb 12, 2012 at 0:30
  • @Pacerier in the example you gave with 10 threads pools, and 30 threads per thread pool you have 300 threads which is a lot of threads, CPU and Heap will probably become an issue long before you run out of stack. Why are you so concerned about the stack size as a percentage of total memory usage. Also keep in mind that there is a difference between allocated memory and committed memory, so even if the JVM called malloc() and asked for 1MB of stack all that means is the JVM can safely do pointer arithmetic the OS won't allocate the memory until the JVM writes to it.
    – ams
    Feb 12, 2012 at 0:34

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