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MY application profiling showing a big Garbage Collection overhead. The profiler does'nt have a drill down into the Garbage Collection. What should I do to reduce this overhead?

I have many short-living arraylists and some long-lived that only die when the application shuts down.

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Show an example of your usage of ArrayList. –  ChaosPandion Jul 16 '10 at 18:05
And what is in the arraylists, and what kind of lifecycle does that payload have? –  Henk Holterman Jul 16 '10 at 20:00
There are 4-5 arraylists that I new() in constructor. Then there is an ApplyLogic() and I do a clear() at the beginning. That ApplyLogic() calls some other functions which populate these arraylists and pass its contents over the socket and in the end of ApplyLogic() I do clear() again for the next iteration. –  bsobaid Jul 19 '10 at 13:25
We need more info (preferably code). What % is the GC taking? How many items are in the lists? What types are in the list? How much work is happeneing? For example, if you have a loop that just fills some lists with lots of objects, calls an empty function and them and then returns, then of course GC will consume a large portion of your time. –  µBio Jul 19 '10 at 16:46
will get a sample code. There are no more than 4-5 items in each array list, all of the same type. I tried generic list <T> and for some reason it is slower than arraylist. –  bsobaid Jul 19 '10 at 18:34

4 Answers 4

Well basically you should reduce the work for the garbage collector. There a certain 'patterns' which produce a lot of work.

  • Avoid having many objects with finalizers. Finalizers impose additional work on the garbage collector, because a object with a finalizer has to be collected twice.
  • Avoid the 'midlife'-crisis. The .NET GC (on the desktop) is generational GC. When the object survive the first collection, but 'die' shortly after, the GC has done a lot of work for nothing. (coping to the second generation, collecting again, etc). So try to optimize the life-time of you objects in a way that they either die very quickly, or survive for a long, long time.
  • Reduce unnecessary allocations. For example by using value type wisely. Or doing the work in a less memory-intensive way.

So in your case I guess that you either you've a 'midlife'-crisis with the short lived lists. Or you simple allocate list like mad.

In the first case: Try to make the life-span of the lists shorter. I can't tell you how the solution looks like for your application.

In the second case: Try to avoid allocation so many lists. Maybe you can use proper value-types? Or fixed sized arrays? Or change the structure of the code in such a way that less lists are needed?

Anyway, I would recommend to profile you applicaition and look how much you memory you allocate and how much can be collected in the first generation.

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A short-lived span is the one where a list is created new() inside a function ? and consequently goes out of scope and become eligible for collection once the function is out of scope? or length of the function also matters? if function is big, an arraylist may not get collected in the first generation collection even if the function was instantiated inside the function? –  bsobaid Jul 19 '10 at 15:08
What matters is if there's still a reference to the object. The length of the function has nearly no influence. Of course, when you've real long method, which first allocates the object, then does a lot of other work and meanwhile the object never goes out of scope, its possible that the object is moved to the second generation. But with your everyday code this should be a problem. –  Gamlor Jul 20 '10 at 18:03
"What matters is if there's still a reference to the object." By object you mean the object kept by the arraylist? yes, that object remains and outlives the function. –  bsobaid Jul 20 '10 at 21:18

If you have too much garbage collection overhead, reduce your garbage. Try reusing lists ( preallocate and use them, clear them when done).

If you are using ArrayList with value types, try switching to use List<T> instead.

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There must be something else wrong with their algorithm, even when I write trash code for experiments I never really have to worry about the GC. –  ChaosPandion Jul 16 '10 at 18:07
certainly the most likely case :) –  µBio Jul 16 '10 at 18:10
@ChaosPandion: Unless, of course, they're working on a (semi-)non-standard platform. For example, the GC on the XBox360 in XNA tends to have problems very frequently... –  Reed Copsey Jul 16 '10 at 18:15
@Reed - Touche. –  ChaosPandion Jul 16 '10 at 18:20
@Reed: If this is for XNA the OP should certainly have said so. W/o such an indication you can only assume the 'normal' framework. –  Henk Holterman Jul 16 '10 at 19:59

If garbage collection overhead becomes a serious performance issue, then you have to look at your design and re-asses the amount of short-lived objects you are creating.

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If this application runs as a service, or else performs a large amount of work before returning to the user interface, you may need to change your garbage collection model.

Without additional details, it's hard to give a good recommendation.

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