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I have a number of classes that implement an interface like this:

public interface IProcessor
{
    Foo Foo { get; set; }
    int Process();
}

I have a factory that produces these, and I don't know ahead of time how many of them will be produced. The issue is that retreiving the necessary Foo objects is expensive, and the property is not actually used in IProcessor until Process is called.

So if my Factory has a method like this:

public IProcessor CreateProcessor(int fooId)
{
    Foo foo = this.Context.GetFoo(fooId);

    return new ImplementedProcessor { Foo = foo };
}

I have to call GetFoo every time. What I'd really like is something like this:

public IProcessor CreateProcessor(int fooId)
{
    this.CurrentlyTrackedFooIds.Add(fooId);

    return new ImplementedProcessor { Foo = what??? };
}

The idea being that until ImplementedProcessor needed Foo to do its Process method, it would be queuing up fooId's so that they could be retreived in bulk like so:

this.Context.GetAllFoosAtOnceCheaply(this.CurrentlyTrackedFooIds);

Are there any lazy loading patterns that could help with something like this? I have full control over this whole project, so I'm not limited by an existing IProcessor or IProcessorFactory interface. I can think of ways to do this (some sort of delegate maybe?), but none of them seem very clean and I'd like to avoid this kind of thing getting out of hand by having a million different implementations in the project. Any help would be greatly appreciated!

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up vote 4 down vote accepted

So there are two types that are going to make our lives super easy here. The first is Lazy. When you construct a Lazy object you give it a function that returns a value. Then when you ask for the value of a Lazy it starts the function if it wasn't started, waits on the function if it's not complete, and then returns the value. It never calls the function twice. If the Value is never asked for it also doesn't even fire the function off once.

Then we can create a ConcurrentDictionary of Lazy objects, so that we make sure to get any existing Lazy objects that we have. Note that its GetOrAdd method is observably atomic. We can be sure that the dictionary won't ever overwrite an existing Lazy object with another; it either returns an existing one or sets a new one. This means that we're never calling Value on two different Lazy objects that represent the same ID.

After all of that, there's not much to code:

private  ConcurrentDictionary<int, Lazy<IProcessor>> lookup =
        new ConcurrentDictionary<int, Lazy<IProcessor>>();
public IProcessor CreateProcessor(int fooId)
{
    var lazy = lookup.GetOrAdd(fooId, new Lazy<IProcessor>(Context.GetFoo));

    return new ImplementedProcessor { Foo = lazy.Value };
}
share|improve this answer
    
Thanks, forgot about Lazy! My real performance problem isn't in retrieving the same fooId multiple times, but that there's a significant gain in retrieving many at the same time. Marking this as the answer since it gives me some good ideas, but I'd appreciate any additional thoughts you may have on this. Thanks again! – Ocelot20 Nov 2 '13 at 19:39
    
Hm...looking back at this, what would the point of using Lazy be in your example? Wouldn't you have to pass in the entire Lazy object to ImplementedProcessor, and not lazy.Value, which would execute it immediately? – Ocelot20 Nov 2 '13 at 20:24
    
@Ocelot20 Well the goal here is to prevent the need to fetch the same object multiple times; it's effectively a cache. – Servy Nov 2 '13 at 21:13
    
Right, but just wondering if Lazy does anything special here since ConcurrentDictionary<int,Foo> could do pretty much the same work since lazy.Value gets called immediately. – Ocelot20 Nov 2 '13 at 23:56
1  
Not quite. What Lazy gives you is that multiple calls while the value is still being computed only result in one computation being made. If you aren't going to be in the situation where something is going to be asked for while something else is computing it, or where doing so simply isn't a major problem, then yes, Lazy isn't needed. – Servy Nov 3 '13 at 2:32

Starting with .NET 4.0, the framework provides a Lazy<T> class for this:

public interface IProcessor {
    Foo Foo { get; }
    int Process();
}

internal class ImplementedProcessor {
    internal Lazy<Foo> LazyFoo {get;set;}
    public Foo Foo {
        get {
            return LazyFoo.Value;
        }
    }
    public int Process() {
        ...
    }
}

public IProcessor CreateProcessor(int fooId) {
    return new ImplementedProcessor {
        LazyFoo = () => this.Context.GetFoo(fooId)
    };
}

This, however, would not retrieve Foos in bulk - the process would go one-by-one. You would save some time only when the Process() is never called for some of your ImplementedProcessor items.

To do that, you would need to make a cache that is initialized lazily upon retrieval of the first Foo, and stays there for the remaining Foos to take cached values. Lazy<T> would not fit this as nicely, though. Consider adding a method to IProcessor to harvest the required fooIds for the cache before calling Process, and add a class that retrieves all the IDs of interest.

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