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A common caching idiom is to check for the presence of an item in the cache, retrieve if present or create if not.

Does this not create a condition whereby if a context switch from Thread 1 to Thread 2 occurs at the commented location, the value added to the cache may be immediately overwritten when the context switch back to Thread 1 occurs? The downside being that calculateFooBar() has now been invoked twice to calculate the same cached item. Is this just an accepted "minor" consequence of this simple caching implementation. Is a critical section not typically used because that would add overhead to all GetOrCreate methods?

Edit: _cache is a reference to a shared data cache (e.g. the ASP.NET data cache).

//not real C#
class FooBarDictionary
{
    ...

    FooBar GetOrCreate(string key)
    {
        FooBar fooBar;

        if (!_cache.TryGetValue(key, out fooBar))
        {
            fooBar = calculateFooBar(); //context switch occurs here
            fooBars.Add(key, fooBar);
        }

        return fooBar;
    }
}
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1  
_cache is safe for gets/sets, but does not make FooBar safe. As Darin said, if you're .NET 4.0, you have the concurrent collections to help you, otherwise the easiest approach is to serialize updating this FooBar instance. –  Marc Aug 20 '11 at 15:24
    
Okay, thanks to Darin and yourself for your input. I suppose the origin of the question was that I don't recall seeing locks in use in idiomatic examples of "GetOrCreate". This may simply be my poor memory. –  Ben Aston Aug 20 '11 at 15:33

3 Answers 3

up vote 1 down vote accepted

If your program works correctly even if you had two instances of that object and only the resource allocation time & memory is your concern I wouldn't bother adding locks. In the long run thread syncronization can be more expensive.

ConcurrentDictionary<> would be a good choice for such "nolock" container, as others mentioned already.

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Aha - this is something I suspected! Thanks –  Ben Aston Aug 20 '11 at 15:37

Everything will depend on what this _cache variable is: it's type and scope. If it is a static variable and not thread safe such as a Dictionary<TKey, TValue> you need to synchronize access to it using a lock. In .NET 4.0 you have the ConcurrentDictionary<TKey, TValue> type which achieves similar things in a thread safe manner. Your code is fine but without a lock there is no guarantee that the calculation wouldn't occur twice for the same key in a very short lapse of time.

You may take a look at the following blog post for a nice implementation of this pattern. Also if you are using .NET 4.0, you could use the new System.Runtime.Caching assembly.

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_cache is a reference to a shared data cache such as the ASP.NET data cache, which although thread-safe would not avoid the duplicate calculation issue I identified above? –  Ben Aston Aug 20 '11 at 15:17
    
@Ben Aston, to avoid this double calculation issue you could use a lock. –  Darin Dimitrov Aug 20 '11 at 15:21
    
"This being said, if this is supposed to be code written for caching, well, you shouldn't be writing such code but use some of the built-in caching mechanisms in .NET such as the System.Runtime.Caching assembly." Are you saying the "cache check followed by a calculation and store if not present" is not a recognised caching idiom? Thanks for your insight. –  Ben Aston Aug 20 '11 at 15:21
    
@Ben Aston, it is indeed a very well recognized caching idiom. But in order to ensure that you don't perform the calculation twice for the same key you might need to lock. I will update my answer. –  Darin Dimitrov Aug 20 '11 at 15:33

We use in several scenarios some custom caching... the new Concurrent* - Collections in .NET 4 are extremely well suited for such impelementations...

With foobars being a ConcurrentDictionary<string, FooBar> you could do something like:

return foobars.GetOrAdd (key, (k) => calculateFooBar() );

This code would replace the whole body of you sample method GetOrCreate .

For more insight see http://geekswithblogs.net/BlackRabbitCoder/archive/2011/02/17/c.net-little-wonders-the-concurrentdictionary.aspx

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Thanks for the insight. –  Ben Aston Aug 20 '11 at 15:43

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