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The heap memory is garbage collected in Java.

Is the stack garbage collected as well?

How is stack memory reclaimed?

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The stack is the original garbage collection algorithm. Even C has a garbage-collected stack! –  jrockway Mar 16 '10 at 9:20
    
C, C++, Java does have stack garbage collection. Apart from that, only Java provides heap garbage collection. (from the three mentioned above) –  sidkamaria Dec 23 at 8:06

8 Answers 8

The memory on the stack contains method-parameters and local variables (to be precise: the references for objects and variables itself for primitive types). That will be automatically removed if you leave the method. If the variables are references (to objects) the objects itself are on the heap and handled by the garbage collector.

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The stack is not garbage collected in Java.

The stack allocated for a given method call is freed when the method returns. Since that's a very simple LIFO structure, there's no need for garbage collection.

One place where the stack and garbage collection interact is that references on the stack are GC roots (which means that they are the root references from which reachability is decided).

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To be precise, the stack doesn't contain anything that can be garbage-collected. The only things that it contains are references to objects and values of primitive types. The only thing that is subject to garbage collection are objects. Be aware of the difference between an object and a reference to it. –  Roland Illig Jun 13 '10 at 9:57
    
@Roland: that's what I said. The GC roots are the references, not the objects. –  Joachim Sauer Jun 14 '10 at 6:58
    
I know. I just thought that for the wording of this question, it would be good to be very explicit about this topic and to explain it maybe more than necessary. –  Roland Illig Jun 15 '10 at 22:31

The stack could be garbage collected. However, in most JVM implementations, it is handled as, well, a "stack", which by definition precludes garbage collection.

What we call the stack is the accumulation of method activation contexts: for each invoked method, this is the conceptual structure which contains the method arguments, local variables, a hidden pointer to the context for the calling method, and a slot to save the instruction pointer. The activation context is not accessible as such from the Java language itself. A context becomes useless when the method exits (with a return or because of a thrown exception). It so happens that when a method A calls a method B, it is guaranteed that when A regains control, the context for B has become useless. This implies that the lifetime of the context for B is a subrange of the lifetime of the context for A. Therefore, activation contexts (for a given thread) can be allocated with a LIFO ("Last In, First Out") discipline. In simpler words, a stack: a new activation context is pushed on top of the stack of contexts, and the context on top will be the first to be disposed of.

In practice, the activation contexts (also called stack frames) are concatenated, in stack order, in a dedicated area. That area is obtained from the operating system when the thread is started, and the operating system gets it back when the thread terminates. The top of the stack is designated by a specific pointer, often contained in a CPU register (this depends on whether the JVM is interpreting or compiling code). The "pointer to caller's context" is virtual; the caller's context is necessarily located just below in stack order. The GC does not intervene: the area for the stack is created and reclaimed synchronously, from the thread activity itself. This is also how it works in many languages such as C, which do not have a GC at all.

Now nothing prevents a JVM implementation from doing otherwise, e.g. allocating activation contexts in the heap and having them collected by the GC. This is not usually done in Java Virtual Machines since stack allocation is faster. But some other languages need to do such things, most notably those which play with continuations while still using a GC (e.g. Scheme and its call-with-current-continuation function), because such games break the LIFO rule explained above.

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+1 for actually distinguishing method activation contexts and stacks. –  sleske Nov 30 '10 at 1:47
    
It may also be worth noting that on some platforms (especially on embedded systems) the saved instruction pointers go into an entirely different storage area from function arguments, local variables, etc. For programs which never use indirect function calls (true of many embedded systems), this can provide substantial protection against errant code execution. Further, such a design may speed things up by avoiding the need to spend memory cycles saving or reloading the program counter on function entry/exit (a hardware stack operates directly on the program counter skipping the memory bus). –  supercat Apr 20 '12 at 15:35

The stack part of the memory functions just like a "stack". I know it sounds bad, but that's exactly how it works. Data is added to the top, on top of each other (pushed onto the stack) and is automatically removed from the top (popped off the stack) as your program runs. It is not garbage collected - and it doesn't need to be since that memory is automatically reclaimed once data is popped off the stack. And when I say reclaimed I don't mean it gets de-allocated - it's just that the location in the stack memory where the next data will be stored is decreased, as data is popped off.

Of course that's not to say that you don't need to worry at all about the stack. If you run a recursive function many times it will eventually use up all the stack space. The same if you call many functions, especially if they have many parameters and/or local variables.

But the bottom line is that the memory of the stack is used and reclaimed as functions enter and leave scope - automatically. So at the end of your program's execution all the stack memory would be free and then released back to the operating system.

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If you refer to the memory used on the stack, it is not garbage collected.
The java virtual machine uses explicit bytecode instructions to reserve and release memory on the stack, these instructions are generated by the compiler and manage the lifetime of primitives like int,boolean,double and object-references on the stack.
There have been plans to implement a so called tail call optimisation, which would remove some entries from the stack once it is known that they are no longer used, but I don't know any jvm which already supports this.
So no there is no garbage collection for the stack itself, only the compiler generated push and pop instructions to manage the memory use.

The stack itself is part of a thread. The stack is allocated when the thread object is created and garbage collected after the thread terminated and the thread object is no longer referenced.

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All objects in Java are allocated on the heap. (At least as far as the spec goes, the actual implementation may allocate them on the stack if they transparently behave as if they were on the heap.)

Exactly what is collectible is a bit subtle. If the only reference to an object is in a single stack frame, and it can be shown that reference will not be used again, then the object may be collected. If the object is only used to read a field, then that field read may be optimised forward and the object collected earlier than you might expect.

This doesn't usually matter unless you are using finalisers (or presumably References). In that case you should be careful and use locks/volatile to enforce a happens-before relationship.

When threads stop, then typically the entire stack will be deallocated.

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Everything located on stack is treated as global roots by a garbage collector. So, yes, you definitely can say that stack is "garbage collected".

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No one, data is pushed and popped from stack as you have inner variables in methods, during method calls, etc. You don't need to care about this.

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