What's so wrong about using GC.Collect()?

Question

Although I do understand the serious implications of playing with this function (or at least that's what I think), I fail to see why it's becoming one of these things that respectable programmers wouldn't ever use, even those who don't even know what it is for.

Let's say I'm developing an application where memory usage varies extremely depending on what the user is doing. The application life cycle can be divided into two main stages: editing and real-time processing. During the editing stage, suppose that billions or even trillions of objects are created; some of them small and some of them not, some may have finalizers and some may not, and suppose their lifetimes vary from a very few milliseconds to long hours. Next, the user decides to switch to the real-time stage. At this point, suppose that performance plays a fundamental role and the slightest alteration in the program's flow could bring catastrophic consequences. Object creation is then reduced to the minimum possible by using object pools and the such but then, the GC chimes in unexpectedly and throws it all away, and someone dies.

The question: In this case, wouldn't it be wise to call GC.Collect() before entering the second stage?

After all, these two stages never overlap in time with each other and all the optimization and statistics the GC could have gathered would be of little use here...

Note: As some of you have pointed out, .NET might not be the best platform for an application like this, but that's beyond the scope of this question. The intent is to clarify whether a GC.Collect() call can improve an application's overall behaviour/performance or not. We all agree that the circumstances under which you would do such a thing are extremely rare but then again, the GC tries to guess and does it perfectly well most of the time, but it's still about guessing.

Thanks.

Answer 1

From Rico's Blog...

Rule #1

Don't.

This is really the most important rule. It's fair to say that most usages of GC.Collect() are a bad idea and I went into that in some detail in the orginal posting so I won't repeat all that here. So let's move on to...

Rule #2

Consider calling GC.Collect() if some non-recurring event has just happened and this event is highly likely to have caused a lot of old objects to die.

A classic example of this is if you're writing a client application and you display a very large and complicated form that has a lot of data associated with it. Your user has just interacted with this form potentially creating some large objects... things like XML documents, or a large DataSet or two. When the form closes these objects are dead and so GC.Collect() will reclaim the memory associated with them...

So it sounds like this situation may fall under Rule #2, you know that there's a moment in time where a lot of old objects have died, and it's non-recurring. However, don't forget Rico's parting words.

Rule #1 should trump Rule #2 without strong evidence.

Measure, measure, measure.

Answer 2

If you call GC.Collect() in production code you are essential declaring that you know more then the authors of the GC. That may be the case. However it's usually not, and therefore strongly discouraged.

Answer 3

From my experience it has never been advisable to make a call to GC.Collect() in production code. In debugging, yes, it has it's advantages to help clarify potential memory leaks. I guess my fundamental reason is that the GC has been written and optimized by programmers much smarter then I, and if I get to a point that I feel I need to call GC.Collect() it is a clue that I have gone off path somewhere. In your situation it doesn't sound like you actually have memory issues, just that you are concerned what instability the collection will bring to your process. Seeing that it will not clean out objects still in use, and that it adapts very quickly to both rising and lowering demands, I would think you will not have to worry about it.

Answer 4

Well, the GC is one of those things I have a love / hate relationship with. We have broken it in the past through VistaDB and blogged about it. They have fixed it, but it takes a LONG time to get fixes from them on things like this.

The GC is complex, and a one size fits all approach is very, very hard to pull off on something this large. MS has done a fairly good job of it, but it is possible to fool the GC at times.

In general you should not add a Collect unless you know for a fact you just dumped a ton of memory and it will go to a mid life crisis if the GC doesn't get it cleaned up now.

You can screw up the entire machine with a series of bad GC.Collect statements. The need for a collect statement almost always points to a larger underlying error. The memory leak usually has to do with references and a lack of understanding to how they work. Or using of the IDisposable on objects that don't need it and putting a much higher load on the GC.

Watch closely the % of time spent in GC through the system performance counters. If you see your app using 20% or more of its time in the GC you have serious object management issues (or an abnormal usage pattern). You want to always minimize the time the GC spends because it will speed up your entire app.

It is also important to note that the GC is different on servers than workstations. I have seen a number of small difficult to track down problems with people not testing both of them (or not even aware that their are two of them).

And just to be as full in my answer as possible you should also test under Mono if you are targeting that platform as well. Since it is a totally different implementation it may experience totally different problems that the MS implementation.

Answer 5

Well, obviously you should not write code with real-time requirements in languages with non-real-time garbage collection.

In a case with well-defined stages, there is no problem with triggering the garbage-collector. But this case is extremely rare. The problem is that many developers are going to try to use this to paper-over problems in a cargo-cult style, and adding it indiscriminately will cause performance problems.

Answer 6

Calling GC.Collect() forces the CLR to do a stack walk to see if each object can be truely be released by checking references. This will affect scalability if the number of objects is high, and has also been known to trigger garbage collection too often. Trust the CLR and let the garbage collector run itself when appropriate.

Answer 7

One of the biggest reasons to call GC.Collect() is when you have just performed a significant event which creates lots of garbage, such as what you describe. Calling GC.Collect() can be a good idea here; otherwise, the GC may not understand that it was a 'one time' event.

Of course, you should profile it, and see for yourself.

Answer 8

I think you are right about the scenario, but I'm not sure about the API.

Microsoft says that in such cases you should add memory pressure as a hint to the GC that it should soon perform a collection.

Answer 9

There are situations where it's useful, but in general it should be avoided. You could compare it to GOTO, or riding a moped: you do it when you need to, but you don't tell your friends about it.

Answer 10

The .NET Framework itself was never designed to run in a realtime environment. If you truly need realtime processing you would either use an embedded realtime language that isn't based on .NET or use the .NET Compact Framework running on a Windows CE device.

Answer 11

What's wrong with it? The fact that you're second-guessing the garbage collector and memory allocator, which between them have a much greater idea about your application's actual memory usage at runtime than you do.

Answer 12

RE: Never using GC.Collect in production code...

So how about when you are using COM objects like MS Word or MS Excel from .Net. Without calling GC.Collect afer releasing the COM objects we have found that the Word or Excel application instances still exist....

In fact the code we use is:

Utils.ReleaseCOMObject(objExcel)

' Call the Garbage Collector twice. The GC needs to be called twice in order to get the
' Finalizers called - the first time in, it simply makes a list of what is to be finalized,
' the second time in, it actually the finalizing. Only then will the object do its 
' automatic ReleaseComObject. Note: Calling the GC is a time-consuming process, 
' but one that may be necessary when automating Excel because it is the only way to 
' release all the Excel COM objects referenced indirectly.
' Ref: http://www.informit.com/articles/article.aspx?p=1346865&seqNum=5
' Ref: http://support.microsoft.com/default.aspx?scid=KB;EN-US;q317109
GC.Collect()
GC.WaitForPendingFinalizers()
GC.Collect()
GC.WaitForPendingFinalizers()

So would that be incorrect use of the garbage collector? If so how do we get the Interop objects to die? Also if it isn't to be used, why is the GC's Collect method even Public?

Answer 13

Bottom line, you can profile the application and see how these additional collections affect things. I'd suggest staying away from it though unless you are going to profile. The GC is designed to take care of itself and as the runtime evolves, they may increase efficiency. You don't want a bunch of code hanging around that may muck up the works and not be able to take advantage of these improvements. There is a similar argument for using foreach instead of for, that being, that future improvements under the covers can be added to foreach and your code doesn't have to change to take advantage.

Answer 14

The desire to call GC.Collect() usually is trying to cover up for mistakes you made somewhere else!

It would be better if you find where you forgot to dispose stuff you didn't need anymore.