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I have a solution where i need to take different classes and access it's properties by name

so if I have for instance the classes Horse and Cat, i need to be able to access them through a generic class, say Adapter, like

HorseAdapter  adapter = new HorseAdapter();

public SomeMethod()
{
    Horse horse =  new Horse();
    DoStuff(horse, adapter);
}

public DoStuff(object obj, IAdapter  adapter)
{
    int speed = (int)adapter.GetValue(obj,"speed");
    string name = adapter.GetValue(obj,"name") as string;
    adapter.SetValue(obj,"gender",true);

}

This is not difficult per se and there's a host of threads of stackoverflow on how to do it, you can use everything from reflection to dynamic. However in my case I need to optimize both performance and memory (don't ask why :)

To get around the dynamic performance penalties my strategy is to build an adapter interface , say IAdapter , which implements

 object GetValue(object obj,string fieldName) 
 SetValue(object obj,string fieldName,object value)

So

public class HorseAdapter :  IAdapter
{
..

public override GetValue(object obj, string fieldName)
{
   Horse horse = object as Horse,
   if (fieldName == "name")
      return horse.Name;
   else if (fieldName == "speed")
     return horse.Speed;
}

}

Then each class that needs it implements that interface. The question is how to best solve a couple of things, first type conversion. It would perhaps be nice and more optimized to have GetInt, GetString etc etc but it seems you'll get alot of methods that you need to implement that way and the syntax isn't exactly beautiful so perhaps better to take the hit and cast the object instead using as A generic indexer would perhaps have been nice but alas c# doesn't support them.

Another question is how much overhead the GetValue and SetValue will have, the classes that implements them needs to have a switch or if-else branch for different fieldnames. It shouldn't add that much of an overhead though I think if I use OrdinalIgnore case. Maybe there's a better solution but I can't think of one, a HashTable seems more expensive. ntepo To avoid the tediousness of manually creating the adapter classes I was thinking that a nice solution would be to generate the code for and compile them dynamically runtime(perhaps using CodeDom).

What do you think, what's the most elegant solution for a problem like this with high performance?

Benchmarks

I tested four different approaches of a large number of objects and five different properties. "Normal" property access, "Adapter" property access, Getting property using reflection and lastly the Linq Expression method described in an answer below

elapsed time normal properties:468 ms
elapsed time reflection properties:4657 ms
elapsed time adapter properties:551 ms
elapsed time expression properties:1041 ms

Seems like using an adapter is marginally slower then straight on properties, LINQ Expressions are about twice as slow and reflection is ten times as slow.

Even if LINQ Expressions are twice as slow it's milliseconds we're talking about so it might be worth using to avoid having to setup adapters.

share|improve this question
    
You can use generics: GetValue<int> etc. –  Vlad Feb 13 '11 at 11:58
    
Why is it not possible to just make Horse/Cat classes implement the same interface IAnimal{string Name{get;set;} int Speed{get;set;}}? This would bring perhaps the best possible performance. –  Vlad Feb 13 '11 at 12:03
    
@vlad: The classes "adapted" should be completely indepedent and not know of any interfaces etc –  konrad Feb 13 '11 at 12:38
    
okay, then the adapters could implement the same interface. You would however need to define each adapter explicitly, because, unlike C++'s templates, generics don't support duck typing. –  Vlad Feb 13 '11 at 13:01

1 Answer 1

up vote 4 down vote accepted

You could use the LinqExpression classes:

public class PropertyAccessor
{
    Dictionary<string, Func<object, string>> _accessors = new Dictionary<string,Func<object,string>>();
    Type _type;

    public PropertyAccessor(Type t)
    {
        _type = t;
    }


    public string GetProperty(object obj, string propertyName)
    {
        Func<object, string> accessor;

        if (!_accessors.ContainsKey(propertyName))
        {
            ParameterExpression objExpr = Expression.Parameter(typeof(object), "obj");
            Expression e = Expression.Convert(objExpr, _type);
            e = Expression.Property(e, propertyName);
            Expression<Func<object, string>> expr = Expression.Lambda<Func<object, string>>(e, objExpr);
            accessor = expr.Compile();
            _accessors[propertyName] = accessor;
        }
        else
        {
            accessor = _accessors[propertyName];
        }

        return accessor(obj);
    }
}

This example is somewhat simplified because it can only access properties of type string and it support no setters. But it should be a good starting point.

For each type that you encounter at run-time, you have to create a PropertyAccessor instance. It then caches a compiled expression for each property name accessed.

share|improve this answer
    
Wow, that's pretty neat. Have to look into that and run some performance tests, thanks! –  konrad Feb 13 '11 at 15:43
    
I've just added a line to the code: the compiled accessor was never added to the dictionary. –  Codo Feb 13 '11 at 16:16
    
That's how C# dynamic (and the DLR) works...more or less :) –  Lorenzo Dematté Aug 23 '11 at 14:34

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