What mechanisms of the C# language are used in order to pass an instance of an object to the `GC.AddMemoryPressure` method?

Question

What mechanisms of the C# language are used in order to pass an instance of an object to the GC.AddMemoryPressure method?

I met the following code sample in the CLR via C# book:

private sealed class BigNativeResource {
    private readonly Int32 m_size;
    public BigNativeResource(Int32 size) {
        m_size = size;
        // Make the GC think the object is physically bigger
        if (m_size > 0) GC.AddMemoryPressure(m_size);
        Console.WriteLine("BigNativeResource create.");
    }
    ~BigNativeResource() {
        // Make the GC think the object released more memory
        if (m_size > 0) GC.RemoveMemoryPressure(m_size);
        Console.WriteLine("BigNativeResource destroy.");
    }
 }

I can not understand how do we associate an instance of an object with the pressure it adds. I do not see object reference being passed to the GC.AddMemoryPressure. Do we associate the added memory pressure (amp) with an object at all?

Also, I do not see any reasons in calling the GC.RemoveMemoryPressure(m_size);. Literally it should be of no use. Let me explain myself. There are two possibilities: there is an association between the object instance or there is no such association.

In the former case, the GC should now the m_size in order to prioritize and decide when to undertake a collection. So, it definitely should remove the memory pressure by itself (otherwise what would it mean for a GC to remove an object while taking into an account the amp?).

In the later case it is not clear what the use of the adding and removing the amp at all. The GC can only work with the roots which are by definitions instances of classes. I.e. GC only can collect the objects. So, in case there is no association between objects and the amp I see no way how the amp could affect the GC (so I assume there is an association).

Answer 1

I can not understand how do we associate an instance of an object with the pressure it adds.

The instance of the object associates the pressure it adds with a reference to itself by calling AddMemoryPressure. The object already has identity with itself! The code which adds and removes the pressure knows what this is.

I do not see object reference being passed to the GC.AddMemoryPressure.

Correct. There is not necessarily an association between added pressure and any object, and regardless of whether there is or not, the GC does not need to know that information to act appropriately.

Do we associate the added memory pressure (amp) with an object at all?

The GC does not. If your code does, that's the responsibility of your code.

Also, I do not see any reasons in calling the GC.RemoveMemoryPressure(m_size)

That's so that the GC knows that the additional pressure has gone away.

I see no way how the amp could affect the GC

It affects the GC by adding pressure!

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I think there is a fundamental misunderstanding of what's going on here.

Adding memory pressure is just telling the GC that there are facts about memory allocation that you know, and that the GC does not know, but are relevant to the action of the GC. There is no requirement that the added memory pressure be associated with any instance of any object or tied to the lifetime of any object.

The code you've posted is a common pattern: an object has additional memory associated with each instance, and it adds a corresponding amount of pressure upon allocation of the additional memory and removes it upon deallocation of the additional memory. But there is no requirement that additional pressure be associated with a specific object or objects. If you added a bunch of unmanaged memory allocations in your static void Main() method, you might decide to add memory pressure corresponding to it, but there is no object associated with that additional pressure.

Answer 2

These methods exist to let GC know about memory usage outside of managed heap. There is no object to pass to these methods because memory is not directly related to any particular managed object. It's responsibility of author of the code to notify GC about change in memory usage correctly.

GC.AddMemoryPressure(Int64)

… the runtime takes into account only the managed memory, and thus underestimates the urgency of scheduling garbage collection.

Extreme example would be you have 32 bit app and GC thinks it can easily allocate almost 2GB of managed (C#) objects. As part of the code you use native interop to allocate 1GB. Without the AddMemoryPressure call GC will still think it's free to wait till you allocate/deallocate a lot of managed objects... but around the time you allocated 1GB of managed objects GC runs into strange state - it should have whole extra GB to play with but there is nothing left so it has to scramble to collect memory at that point. If AddMemoryPressure was properly used GC would had chance to adjust and more aggressively collect earlier in background or at points that allowed shorter/smaller impact.

Answer 3

AddMemoryPressure is used to declare (emphasis here) that you have sensible sized unmanaged data allocated somewhere. This method is a courtesy that the runtime gives to you.

The purpose of the method is to declare under your own responsibility that somewhere you have unmanaged data that is logically bound to some managed object instance. The garbage collector has a simple counter and tracks your request by simply adding the amount you specify to the counter.

The documentation is is clear about that: when the unmanaged memory goes away, you must tell the garbage collector that it has gone away.

You need to use this method to inform the garbage collector that the unmanaged memory is there but could be freed if the associated object is disposed. Then, the garbage collector is able to schedule better its collection tasks.