10

If I have:

for (int i; i != 100; i++) {
    ArrayList<String> myList = buildList();
    //... more work here
}

Do I have to set myList to null at the end of my loop to get the GC to reclaim the memory it uses for myList?

6 Answers 6

14

The GC will automatically clean up any variables that are no longer in scope.

A variable declared within a block, such as a for loop, will only be in scope within that block. Once the code has exited the block, the GC will remove it. This happens as soon as an iteration of the loop ends, so the list becomes eligible for garbage collection as soon as each iteration of the loop finishes.

The scope of a variable is also why i would not be valid after your example loop.

Note that this only is the case if you use the variable only within the loop. If you pass it to another method that keeps a reference to it, your variable will not be garbage collected.

5
  • I think he's more worried that objects assigned to myList in previous iterations of the loop will be GC'd, even while still in the loop. Not after the loop. Commented Oct 18, 2010 at 15:23
  • 1
    I don't know if this answer is complete enough. First, integers and other values types are allocated on the stack and have nothing to do with the garbage collection. Second, myList may or may not be eligible for garbage collection; it depends on whether or not another reference is stored somewhere else in your code.
    – Tim Frey
    Commented Oct 18, 2010 at 15:32
  • @Outlaw Programmer: "integers and other values types are allocated on the stack". Do you have a reference for this claim? I believe the JVM can choose whether to use heap or stack allocation, and will do so based on various heuristics. Or are you talking about primitive types?
    – sleske
    Commented Oct 18, 2010 at 15:37
  • It's true that variables on the stack would not be garbage collected, I was simply referring to variable scope. I edited the answer to mention other references though, that is a very good point that I missed. Commented Oct 18, 2010 at 15:38
  • -1 GC does not clean up variables. And GC has nothing to do with i, that's a primitive stack variable, not an instance on the heap.
    – Ishtar
    Commented Oct 18, 2010 at 15:41
6

Lord, no! Java's GC is much, much, much smarter than that.

8
  • Well, if the result of buildList() overrides finalize() it will be disastrous. But let's hope the code is sane. Commented Oct 18, 2010 at 15:17
  • Objects overriding finalize() gets very special treatment by the garbage collector. Commented Oct 18, 2010 at 15:26
  • Sure but I'm wondering how it leads to "disastrous" consequences. Commented Oct 18, 2010 at 15:29
  • Because objects that override finalize are created along with a "finalizer object" that is responsible for tracking finalization and stuff. This increases the survival rate on gen 0 collections and pushes "finalizer objects" to higher generations, making them harder to collect. Look at the examples here: elliottback.com/wp/java-memory-leaks-w-finalize-examples Commented Oct 18, 2010 at 15:29
  • @Martinho: I fail to see how anything in that article deals with the dangers of using finalize methods in loops but rather is a general caution against stupid implementations of finalize(), whether in a loop or not. So how does simply overriding finalize() lead to disastrous results? Commented Oct 18, 2010 at 15:34
3

The GC reclaims all unreachable instances, when ever it wants to. It does not GC variables.

The variables i and myList live on the stack. When the for loop ends(when they go out of scope), they will be pushed of the stack and so their memory reclaimed. The variables will then be gone. Setting the reference variable myList to null just before it goes away, really makes no difference (for GCing the instances). If GC will reclaim the memory for the instance myList referred too, really depends on whether you have another reference to the same instance.

Variables don't get GCed, instances do.

0
3

It would probably help to understand the syntax behind of the for-loop. That's discussed in the JLS Section 14.14.1.

BasicForStatement:
    for ( ForInitopt ; Expressionopt ; ForUpdateopt ) Statement

...

Statement:
    StatementWithoutTrailingSubstatement
    ...

StatementWithoutTrailingSubstatement:
    Block
    EmptyStatement
    ExpressionStatement
    ...


Block:
    { BlockStatementsopt }

BlockStatements:
    BlockStatement
    BlockStatements BlockStatement

BlockStatement:
    LocalVariableDeclarationStatement
    ClassDeclaration
    Statement

Statement, as always, can be a single statement or a block (statements surrounded with curly braces). A block represents a new lexical scope and variables declared therein are local to that block only. What many people don't realize is that isn't unique to the for-loop. I can put a block statement anywhere in a method:

 public void someMethod() {

     {
         List<String> myList = new ArrayList<String>();
         System.out.println(myList);
     }
     System.out.println(myList.size()); //compile error: myList out of scope
 }

Anyway this isn't going where I was intending. Suffice to say that it has less to do with the fact that it's a loop and more to do with the fact that it's a block (if you choose not to use a block statement, you can't declare new local variables so the problem is irrelevant).

2
  • Does this mean that the GC is not used to manage the memory for variables/instances declared within a block? Once the block has ended, the variables/instances are reclaimed automatically?
    – slim
    Commented Oct 18, 2010 at 22:21
  • No, it doesn't mean that. Instances are still put on the heap and reclaimed by the gc. Remember the block could easily leak a reference to one of those instances. All I was trying to say was that the scope of a variable is limited to a block, regardless of the control structure being used. Commented Oct 18, 2010 at 23:36
1

@Alan Geleynse mentioned in his/her answer that GC removes unreferenced objects in heap after every block is exited. This is not necessarily true, the timing of running JVM GC can be of by usage, instead of by blocks. What it means is JVM will be allocated some size of heap memory (survivor, eden, old gen) from JVM or OS kernal depending on resources, then when the memory is approaching that allocation limit, GC will run.

1
0

you don't have to bother about the garbage. Java GC will automatically do this. But my suggestion is that as a good developer, you have to make practise for freeing the garbage. As GC will take some proccesing time. So by taking care of ourself we will definetly increase the performance.

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