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If I have a loop such as this:

public class Foo {
     public Foo Foo;

     public Foo() {
     }
}

class Program {
    public static void Main(string[] args) {
         var foo = new Foo();
         long i = 0;
         while(i < Int64.MaxValue) {
             foo.Foo = new Foo();
             foo = foo.Foo;
             if(i % 10000 == 0)
                 GC.Collect();
             i++;
         }
         GC.Collect();
    }
}

The garbage collector will not clean up the parent objects until the loop is exited. Why is that? I don't see any way to reference them from the code once foo is reassigned, so shouldn't they be cleaned up?

I was looking at the memory usage of the process in Task Manager after passing some breakpoints I had set to determine this was happening. It keeps going up inside the loop (up to multi-GB if I make it infinite), but drops immediately when the loop quits and the second GC.Collect() is called.

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1  
What "parent objects"? –  Stephen C Jun 11 '14 at 2:48
2  
"The garbage collector will not clean up the parent objects until the loop is exited" : can you describe in your question how you are making those observations ? –  quantdev Jun 11 '14 at 2:55
    
@quantdev I edited the question. –  joelises Jun 11 '14 at 3:03
    
I realise this is not your real code, but why not just do foo = new Foo() instead of assigning to foo.Foo? By the way, Public Foo Foo; doesn't compile. –  Blorgbeard Jun 11 '14 at 3:04
    
What is the name of the column your are looking at in the Task manager ? –  quantdev Jun 11 '14 at 3:06

1 Answer 1

up vote 6 down vote accepted

Here's a slightly modified program that demonstrates the behavior more clearly:

class Foo
{
    public int Value;
    public Foo Next;

    public Foo(int value) { this.Value = value; Console.WriteLine("Created " + this.Value); }
    ~Foo() { Console.WriteLine("Finalized " + this.Value); }
}

class Program
{
    public static void Main(string[] args)
    {
        var foo = new Foo(0);
        for (int value = 1; value < 50; ++value)
        {
            foo.Next = new Foo(value);
            foo = foo.Next;
            if (value % 10 == 0)
            {
                Console.WriteLine("Collecting...");
                GC.Collect();
                Thread.Sleep(10);
            }
        }
        Console.WriteLine("Exiting");
    }
}

On .NET 4.5, when I build in Debug mode AND target Any CPU or x86, I reproduce the behavior you're seeing: the instances aren't finalized until after "Exiting" is printed. But when I build in Release mode OR target x64 (even when building in Debug mode), the instances are finalized as soon as they're unreachable:

Created 0
Created 1
Created 2
Created 3
Created 4
Created 5
Created 6
Created 7
Created 8
Created 9
Created 10
Collecting...
Finalized 9
Finalized 0
Finalized 8
Finalized 7
Finalized 6
Finalized 5
Finalized 4
Finalized 3
Finalized 2
Finalized 1
Created 11
Created 12
Created 13
...

Why does this happen? I suppose only a CLR expert can tell us for sure, but here's my guess: the behavior depends on specific details of the machine code that the JIT compiler and optimizer happen to generate, details which vary based on the target instruction set and whether you're running in debug mode. (Furthermore, these details may well change in future versions of the runtime.) In particular, in the x86/Debug case, I think the first Foo(0) instance gets stashed in a register or stack variable that never gets overwritten in the rest of the method; this initial instance keeps the entire chain alive. In the x86/Release and x64 cases, I think that due to JIT optimizations, the same register or stack variable is reused for every instance, thus releasing the initial instance.

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Any more information on how/why the behavior differs in Debug mode? –  user2864740 Jun 11 '14 at 3:13
3  
@user2864740 the compiler/JIT generates extra temporaries to aid in debugging. You wouldn't want your locals collected while you were looking at them in the Watch window. –  mike z Jun 11 '14 at 3:14
    
True .. but it seems like it'd need to store a collection (not just one or two extra temps/objects) to keep the strong reachability of the objects in this case :| –  user2864740 Jun 11 '14 at 3:19
1  
Since the instances are linked, it only needs to store a reference to Foo(0). However, I don't know how or why it does so. Changing the loop to simply foo = new Foo(value); causes all the instances to be collected immediately, even in Debug mode. –  Michael Liu Jun 11 '14 at 3:27
    
I also noticed that the memory continues to grow in Release mode when launched with the debugger attached, so the JIT is definitely involved. –  mike z Jun 11 '14 at 3:34

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