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I am writing a Data Adapter for enterprise solution.

To make it Extensible I have designed it in such a way that:

  1. There is a single interface that defines all data method's signature
  2. This interface is implemented in various low level adapters and methods are implemented in those adapters , these adapters are like SqlAdapter, OracleAdapter, MySqlAdapter, XmlAdapter etc. They are not very big around 2MB.
  3. I've created a Facade layer that calls bind with underlying adapter at run time using configuration and calls it method.
  4. This facade is shared amongst the consumer and they can call methods using it without knowing underlying adapter.
  5. To create a Facade i had to create this facade Single Ton.

To make it Scalable I've following approaches

  1. Change this pattern of single ton to multiple instance based (factory pattern), make number of instance configurable (object pool) . Execute underlying methods using asynchronously (using async await).

  2. Use Single Ton instance only but use Semaphore to handle number of concurrent request. Execute underlying methods asynchronously (using async await), using connection pooling so that async call to underlying methods can use multiple connections to database.

Question: 1) If I choose first approach of creating multiple instance, will it be faster? will it not take more time on loading underlying adapter and thus will it be slower than second approach? what if I clone objects?

2) If I choose second approach will it be faster? as Single Ton object only relays request and responses, all the work in background will be async.

Which approach is better in terms of performance considering object re/loading? or is there any other good approach? Suppose there will be 1000 request per second to the server.

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closed as not constructive by Grant Thomas, Alex, WATTO Studios, MMM, Tommy May 28 '13 at 14:13

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Have you considered Factory design pattern?? –  Azhar Khorasany May 28 '13 at 11:29
    
@AzharKhorasany I have added more details –  Imran Rizvi May 28 '13 at 11:40
    
why anonymous negative point? –  Imran Rizvi May 28 '13 at 11:40
    
I think your bottleneck will be with the server communication itself, not with the instantiation/singleton access of C# objects. –  Chris Sinclair May 28 '13 at 12:04
    
@ChrisSinclair you mean either way will be fine and both model can handle 1000 requests at a time with better result rate? –  Imran Rizvi May 28 '13 at 12:13
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2 Answers

I would wrap my call to the factory by a single static class, may be "FactoryInitializer" which has a generic method that accepts the adapter type e.g:

public interface IDataAdapter
{
    //Your methods
}

internal class SqlAdapter : IDataAdapter
{
    //This is your concrete class where a specific adapter related stuff goes
    //You can create more of these concrete types as separate classes.
}

internal class BaseFactory
{
    public virtual IDataAdapter GetDataAdapter()
    {
        return null;
    }
}

internal class SqlFactory : BaseFactory
{
    public override IDataAdapter GetDataAdapter()
    {
        return new SqlFactory();
    }
}

internal static class FactoryInitializer
{
    public static IDataAdapter LoadAdapterOf<T>() where T : BaseFactory, new()
    {
        var factory = new T();
        return factory.GetDataAdapter();
    }
}

Then use it as:

var sqlAdapter = FactoryInitializer.LoadAdapterOf<SqlFactory>();
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For faster and more predictible instantiation all assemblies containing the adapter implementations should be preloaded. It is quite expensive operation. After this you basically have three choices:

  1. Reuse adapter instances. Use pooling for each adapter type. This option is preferable, if the adapters have big memory footprint and frequently allocating new instances will quickly fragment you heap.
  2. Create new instances of adapters for each request. This option is preferable, if adapters have some internal state but have relatively small memory footprint. These adapters will be a good candidates for generation 0 garbage collection, wich is fast and even faster in .NET 4.5.
  3. Reuse adapter instances. No pooling at all. This option is only possible, if you adapters don't have any state at all. This means no race conditions and no synchronization.

Upd: If you choose first option and will have a memory issues with too many and/or too big adapter instancess working too for long, then you may whant to consider switching from "realtime" processing model to deferred processing. Create a request queue, push requests in realtime and pull them in batches for processing using some sort of a scheduler.

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Assemblies are not big –  Imran Rizvi May 28 '13 at 13:18
    
And the LoadFrom doesn't reload already loaded assembly. But preloading assemblies during warmup stage and preallocating objects (if necessary) will save you from nasty issues during requests processing stage. –  OpenMinded May 28 '13 at 13:29
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