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I want to convert a bunch of types to a bunch of other types. E.g., I have four types, SourceA, SourceB, TargetA and TargetB, I'll have the following conversions:

  • SourceA => TargetA
  • SourceA => TargetB
  • SourceB => TargetA
  • SourceB => TargetB

Basically, conversion is a little bit more advanced than a simple cast. It requires a very own strategy for each of the cases above.

What I would like to avoid is having several methods which contain the types in the method name, so I do not want something such as:


or similar things. The reason why I do not want this is because the types are then used as strings, not as types themselves, so whenever I go to rename a type there is no refactoring support. Supposed I rename SourceA to SourceXyz, the method will not get renamed automatically, but I will have to do this manually.

What I would like to have is a generic way of expressing this, mainly to get refactoring support. So basically something such as:

Convert<SourceA, TargetA>(mySourceValue)

The problem here is that I end up with a generic Convert<TSource, TTarget>method which contains ALL the logic for ALL types (which is a bad idea for obvious reasons).

I have already taken a look at various design patterns, including visitor, strategy and chain of responsibility, but none of them caught attraction. Anyway, I am not sure whether I missed a point there.

How could I solve this issue?

Basically, the two main targets are:

  • Having separate conversion logic for each combination (no complex methods)
  • Having refactoring support (no types as strings)

Any ideas?

Update 1: I have considered using AutoMapper, but I am not sure whether it works the way I want. What I can do for sure is set up a custom converter, such as

Mapper.CreateMap<string, DateTime>().ConvertUsing(new DateTimeTypeConverter());

but then again I have the type DateTime as part of the converter name. I know that I can also use a lambda expression here, but this again makes the code ugly, because it will become very long. Anyway, I fear that I can't have everything ...

Update 2: You could ease the problem by putting on the constraint that there is always a Dictionary<string, string> (although with different contents) on the left and a custom class on the right. So what I would like to end up with is an extension method such as


but without the need to put all the logic for converting to different types into the To<T> method.

share|improve this question
have you tried AutoMapper ? –  daryal Jan 8 '13 at 14:13
See the update of the question ;-) –  Golo Roden Jan 8 '13 at 14:19
You could use the FactoryPattern to get an apropriate Converter. –  Grumbler85 Jan 8 '13 at 14:20
Could you please provide a small example on how I would set up the factory? (I know what a factory is, but I don't have the slightest idea on how I might set up the factory given the constraints above). It would be very helpful :-) –  Golo Roden Jan 8 '13 at 14:21
You could also (though this may be a bit confusing to a casual reader of your code) setup implicit conversions for your types. –  zimdanen Jan 8 '13 at 15:18

2 Answers 2

up vote 2 down vote accepted

You can create extension method, which will create target type and then delegate filling that object to some method based on generic parameter type:

public static class Extensions
    public static T ConvertTo<T>(this Dictionary<string, string> dictionary)
        where T : new()
        dynamic target = new T();
        return (T)Extensions.FillFrom(target, dictionary);

    private static object FillFrom(this object obj, 
                                   Dictionary<string, string> dictionary)
        var message = "Conversion to " + obj.GetType() + " is not supported.";
        throw new NotSupportedException(message);

    private static TargetA FillFrom(this TargetA target, 
                                    Dictionary<string, string> dictionary)
        // throw exception if required keys not found
        target.Foo = dictionary["foo"];
        return target;

    private static TargetB FillFrom(this TargetB target, 
                                    Dictionary<string, string> dictionary)
        // throw exception if required keys not found
        target.Bar = dictionary["bar"];
        return target;


var targetA = dictionary.ConvertTo<TargetA>();

Same approach you can use with some converter class (if you don't like extension methods). Also you can make FillFrom methods public. Than you can use them like:

var target A = new TargetA().FillFrom(dictionary);
share|improve this answer
See the update of the question ;-) –  Golo Roden Jan 8 '13 at 14:18
@GoloRoden so, your types are completely different, like string and DateTime? –  Sergey Berezovskiy Jan 8 '13 at 14:23
Yes, actually they are 'Dictionary<string, string>' on the left and a custom defined class on the right. –  Golo Roden Jan 8 '13 at 14:24
@GoloRoden then I don't think mapping is what you need. What about serializing your objects into string? E.g. with JsonConvert.SerializeObject(SourceA); Btw what you are trying to implement? –  Sergey Berezovskiy Jan 8 '13 at 14:29
Wow, this is amazing :-))! Thanks a lot :-)! –  Golo Roden Jan 8 '13 at 15:20

I got it :-)

Basically, my problem was that I was not able to do method overloading by a generic type parameter. Hence I made a virtue out of necessity and switched to using the TryXXX pattern.

My solution now looks like this:

using System;
using System.Collections.Generic;

namespace HelloWorld
    public class Program
        public static void Main ()
            Dictionary<string, string> dict = new Dictionary<string, string> {
                { "a", "b" }

            Dog dog;
            if (dict.TryGet (out dog))

    public static class ExtensionMethods
        public static bool TryGet(this Dictionary<string, string> dictionary, out Dog dog)
            dog = new Dog();
            dog.Color = "black / white";
            return true;

    public class Dog
        public string Color { get; set; }

This way I do not have the type Dog anywhere in a method name, but I can have a separate method for each type I want to convert to.

Adding a new type means just adding the type, and adding a new overload for the extension method TryGet.

The trick is to use the out parameter for method overloading, which works perfectly fine :-).

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