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c# - How does the GC update references after compaction occurs

The .NET Garbage Collector collects objects (reclaims their memory) and also performs memory compaction (to keep memory fragmentation to minimum).

I am wondering, since an application may have many references to objects, how does the GC (or the CLR) manage these references to objects, when the object's address changes due to compaction being made by the GC.

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The concept is simple enough, the garbage collector simply updates any object references and re-points them to the moved object.

Implementation is a bit trickier, there is no real difference between native and managed code, they are both machine code. And there's nothing special about an object reference, it is just a pointer at runtime. What's needed is a reliable way for the collector to find these pointers back and recognize them as the kind that reference a managed object. Not just to update them when the pointed-to object gets moved while compacting, also to recognize live references that ensure that an object does not get collected too soon.

That's simple for any object references that are stored in class objects that are stored on the GC heap, the CLR knows the layout of the object and which fields store a pointer. It is not so simple for object references stored on the stack or in a cpu register. Like local variables and method arguments.

The key property of executing managed code which makes it distinct from native code is that the CLR can reliably iterate the stack frames owned by managed code. Done by restricting the kind of code used to setup a stack frame. This is not typically possible in native code, the "frame pointer omission" optimization option is particularly nasty.

Stack frame walking first of all lets it finds object references stored on the stack. And lets it know that the thread is currently executing managed code so that the cpu registers should be checked for references as well. A transition from managed code to native code involves writing a special "cookie" on the stack that the collector recognizes. So it knows that any subsequent stack frames should not be checked because they'll contain random pointer values that don't ever reference a managed object.

You can see this back in the debugger when you enable unmanaged code debugging. Look at the Call Stack window and note the [Native to Managed Transition] and [Managed to Native Transition] annotations. That's the debugger recognizing those cookies. Important for it as well since it needs to know whether or not the Locals window can display anything meaningful. The stack walk is also exposed in the framework, note the StackTrace and StackFrame classes. And it is very important for sandboxing, Code Access Security (CAS) performs stack walks.


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