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I am looking at the Roslyn September 2012 CTP with Reflector, and I noticed that the SlidingTextWindow class has the following:

internal sealed class SlidingTextWindow : IDisposable
{
    private static readonly ConcurrentQueue<char[]> arrayPool = new ConcurrentQueue<char[]>();
    private int basis;
    private readonly LexerBaseCache cache;
    private char[] characterWindow;
    private int characterWindowCount;
    private int characterWindowStart;
    private int offset;
    private readonly IText text;
    private readonly int textEnd;

    public SlidingTextWindow(IText text, LexerBaseCache cache)
    {
        this.text = text;
        this.basis = 0;
        this.characterWindowStart = 0;
        this.offset = 0;
        this.textEnd = text.Length;
        this.cache = cache;
        if (!arrayPool.TryDequeue(out this.characterWindow))
        {
            this.characterWindow = new char[2048];
        }
    }

    public void Dispose()
    {
        arrayPool.Enqueue(this.characterWindow);
        this.characterWindow = null;
    }

    // ...
}

I believe the purpose of this class is to provide fast access to substrings of the input text, by using char[] characterWindow, starting with 2048 characters at a time (although the characterWindow may grow). I believe this is because it is faster to take substrings of character arrays than of strings, as Eric Lippert seems to indicate on his blog.

The SlidingTextWindow class is instantiated each time the Lexer class is instantiated, which happens each call to SyntaxTree.ParseText.

I do not understand the purpose of the arrayPool field. Its only usage in this class is in the constructor and Dispose methods. When calling SyntaxTree.ParseText, there seems to be only one instance of the Lexer class and of the SlidingTextWindow class created. What advantage is gained by enqueuing the characterWindow when an instance is disposed and by trying to dequeue a characterWindow when an instance is created?

Perhaps somebody from the Roslyn team could help me understand this?

share|improve this question
up vote 15 down vote accepted

The advantage is that collection pressure is reduced, which has a positive effect on overall performance.

The .NET garbage collector is of course a general-purpose garbage collector. The allocation and object lifetime patterns of a compiler and IDE are quite different than those of your average line-of-business application, and they tend to stress the GC in unusual ways.

If you look throughout Roslyn there are many places where small arrays are cached and re-used later rather than allowing the GC to identify them as short-lived trash and reclaim them immediately. Empirical experiments show that this gives a measurable improvement in performance.

I don't recommend doing so in your own application unless your profiling indicates that you have a measurable performance problem gated on collection pressure. For the vast majority of applications the GC is very well tuned, and the benefit of a pooling strategy is not worth the considerable costs.

share|improve this answer
    
Is the caching of small arrays done for the primary purpose of decreasing memory or increasing speed (or both)? Is is the case that with so many arrays necessary for a compiler/IDE, creating a new array each time would take up a lot of memory? Or would there be a speed increase by using a thread-safe queue and having multiple threads act on the arrays? – cubetwo1729 Aug 25 '13 at 15:04
11  
Primarily speed and responsiveness. The GC is interesting when it comes to performance -- it makes allocating memory almost free, but you pay the cost later when the GC has to run. And in some cases, that GC has a noticeable impact on typing if it were to happen to run just as you type a character in the editor while writing code and it wasn't able to do a completely concurrent GC. I do want to highlight what Eric mentioned -- we only do this when we see that particular allocation coming up on profiles. We don't do things like this until we know it's a specific problem in a specific location. – Jason Malinowski Aug 25 '13 at 17:43
    
@JasonMalinowski Any specific reason for picking ConcurrentQueue instead of ConcurrentBag? – CodesInChaos Sep 17 '13 at 14:29
1  
ConcurrentBag is optimized for multiple threads inserting objects, like when you're doing a fork-join pattern with multiple threads producing something. It's actually fairly heavyweight when you need a small list of objects. There were also bugs in earlier versions that caused memory leaks, it's possible this code was written when that was still the case. – Jason Malinowski Sep 17 '13 at 19:48
    
@JasonMalinowski: Thanks for following up Jason; awesome comments. – Eric Lippert Sep 17 '13 at 20:23

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