Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have profiled my App w/ VS2010 profiler, with object lifetime collection enabled.
I was heavilly surprised to see that most instances of a particular struct named "Record" are collected by the GC as Gen 2 instances. I am very upset, as instances of "Record" struct should live less than 500ms each (theoretically).

These structs are simple time series data of 6xInt32 or so, that are read on the flow, Queued/Dequeued in a Queue having a size of 1000, passed to a processor that fires some logic depending on those few millions "Records" sequentially. I do not need to keep more than 50 records at a time.

So my question is : Why could these object live long enough to mainly end up as Second Generation references, and what could I do to ensure they REALLY get dumped off after each computation.

EDIT : I am asking this because I have noticed a drastic performance dropdown for bigger sample sizes (i.e Records Numbers) : if N take T minutes, 2N takes 2,5T minutes or so, and so on.
So there is obviously a leak somewhere.

EDIT 2 : My Bad : Creating a struct instance cannot cause a garbage collection I've changed it to classes and did not notice any significant improvement so far. I'll run the profiler again with classes this time not structs) and see what it gives

EDIT 3 : Many answers suspect Boxing/Unboxing to take place somewhere. I DO use typed generic collections and typed Queues. And "Records" are never attached to any class as members. They are individually handled by events. The ex-Struct (Now Class) implemented an interface and was casted by it when called (this is rather common usage) and I dropped off that interface. No improvement.

EDIT 4 : I have run again the profiler, replacing struct by class. I have the same results :
most instances of CLASS "Record" still end up being collected as Gen2 instances

EDIT 5 : Producers of the Record classes are many parallel BackGroundWorkers (Byte Readers), and there is one Consumer Thread that dispatches the Records to other methods after performing a few checks. Besides I use Events and Delegates to communicate between the different parts. I do not unregister those events because they are useful all along the process (I may be wrong on that point)

share|improve this question
do you observe any degradation in performance that you can connect to the record being in gen2? If not why are you worried about how the GC is doing its business? –  BrokenGlass Feb 19 '11 at 18:58
Are they STRUCTS? Not CLASSES? –  xanatos Feb 19 '11 at 18:59
@Mika A) half the time what it's written in a question is only slightly similar to reality, B) and I thought that structs, unless put as a field of a class, didn't normally go to the heap (and so weren't GC collected) in the "standard" implementation of the .NET Fram. and C) At 6x4 bytes of struct, you are beyond the "standard" "good" limit of a struct. –  xanatos Feb 19 '11 at 19:23
On the "why" you are beyond the good limit: each time you insert your struct in a Queue<T> (are you using a generic collection, or are you boxing in an old-fashioned collection?), the struct is copied (so 24 bytes are read and written). Every time the struct is dequeued, it is read and written in a local variable (24 bytes). Every time a function receive the struct as a param, 24 bytes are read and copied. This is why structs should be small! (let's say no more than 4 sizeof(ptr), so the GUID on 32bit systems is the max size of a good struct). The interpreter COULD optimize. COULD, not SHOULD! –  xanatos Feb 19 '11 at 19:33
@mika: there are many reasons this could happen, and many solutions. You don't provide enough information to get real help. We're left guessing and you only get guesses. –  Henk Holterman Feb 19 '11 at 21:18

3 Answers 3

If you stored them just as local variables (which may or may not be possible depending on your scenario) they will never end up on the heap at all.

If that's possible, I recommend trying that. You might get a more in depth response, if you post a code sample.

As a sanity check, are you forgetting to unregister static events, or using some other class that may be doing this (some classes fix this via Dispose)?

Also have you looked into the possibility of using the Flyweight pattern?

Edit- Since you now say you are doing something with events, this is highly likely to be a cause of your issues. Are you forgetting to unregister the events?

share|improve this answer
Uh ? Are you sure ? Why would local variables end up in Gen 2 ? I thought on the contrary that the fact that they are local (declared into methods) would "free" them from being referenced "ad vitam aeternam"... –  Mehdi LAMRANI Feb 19 '11 at 19:04
If they are structs as you say they and they are local variables they will live on the stack. –  RichardOD Feb 19 '11 at 19:06
So how to avoid that ? –  Mehdi LAMRANI Feb 19 '11 at 19:13
Don't box and don't have them stored as member variables. It now sounds like the whole struct thing is not the issue, unless there are performance issues related to passing the struct around. –  RichardOD Feb 19 '11 at 19:40
Where would the Boxing/Unboxing take place ? My Queue is typed... ? –  Mehdi LAMRANI Feb 19 '11 at 19:49

If you are "heavy" on memory use, and you are using C# 4.0, you could try the "server" GC. Merge your app.config (or web.config) with:

    <gcServer enabled="true"/>

(with merge I mean that if you already have some of these sections, use them, otherwhise create them. "configuration" is the first level element of the app.config). This is better for some apps (apps that don't need heavy interaction with the user)

share|improve this answer

They end up as Second Generation because the GC just decided not to garbage collect them. I don't think it is really a problem to worry about. If you really wanted to you could just reuse the 1000 objects instead of continuously creating new ones. This would make it so that these objects wouldn't need to get garbage collected. You could force Garbage collection to ensure the objects "REALLY" get dumped but that would degrade performance as GC is an expensive operation or so I am told.

share|improve this answer
It's a little more involved than the GC saying, "I don't think I'll collect these objects today." They weren't collected because there are still references to them, or they're used in long lived objects. You want a few objects as possible to live in the 2nd Generation. –  George Stocker Feb 19 '11 at 19:10
Yeah I wanted to avoid an explicit call to GC.Collect. But it IS actually a problem to worry about as I have Millions of them and my computing ends up running slower and slower. I will try not to call the "new" keyword and just do a members update of existing objects (but that may be spooky to achieve) –  Mehdi LAMRANI Feb 19 '11 at 19:12
@George : Yes you are absolutely right. Collection is not Random. That's why I would like to find a way to kill pending references to those objects. –  Mehdi LAMRANI Feb 19 '11 at 19:15

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.