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Possible Duplicate:
Define a generic that implements the + operator

I am recently working on a C# class library implementing an algorithm. The point is that I would like the users of the library to be able to choose the machine precision (single or double) the algorithm should operate with, and I'm trying to do it with generics. So, for instance:

    Algorithm<double> a = new Algorithm<double>();
    /** Some initializations here */
    double result = a.Solve();


    Algorithm<float> a = new Algorithm<float>();
    /** Some initializations here */
    float result = a.Solve();

Thus, the type parameter for the generic classes is meant to be a decimal number (because in the algorithm code I need to use +, *, /, -), but I don't know which kind of type constraint to impose on it. I have thought about building an interface with all the operators but, unfortunately, this is not allowed. Any ideas?

Otherwise, is it possible to obtain in C# something similar to template specialization in C++?

Thank you


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marked as duplicate by nawfal, AxelEckenberger, kamaci, tkone, Soner Gönül Jan 10 '13 at 21:30

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 7 down vote accepted

You can't, basically. The CLR type system doesn't support that kind of constraint.

I've previous blogged about how we could describe such constraints using "static interfaces" but I don't know of any plans to do anything similar.

You might want to look at the MiscUtil generic operator support which would let you use the operators - but you'd have to use a constraint of just struct or something like that, which would of course allow things like Guid which you don't want.

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Another possibility, rather than defining interfaces and classes implementing them, you should be able to declare interfaces and list the classes that implement them in the interface declaration. The compiler should take care of the rest – devio Sep 7 '10 at 14:42
@devio: sounds like an interesting variant. Can you give some references? – tunnuz Sep 8 '10 at 7:44
@tunnuz there is no "reference", it's a wish, just as Jon's idea, and should be on somebody's wish list for the next C# version ;) – devio Sep 8 '10 at 8:34
Ah ok! :) I thought it was already possible to use it :) – tunnuz Sep 8 '10 at 9:25

The closest match is value type constrain.

C# allows only three types of constrains

  1. Derivation Constrain
  2. Constructor
  3. Reference/Value type.

For complete documentation refer MSDN:

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This is generally a seriously fugly hack, but you can create a generic "wrapper" class for numeric types that exposes the operations you need and prevents instantiation using a non-supported value type (i.e. char), and then specify that the generic type parameter of your algorithm must be the wrapper class.

I like the workaround Floste posed in every respect except code duplication. You could even make it simpler; specify private method overloads, then one public generic method that will simply call the private method, and the runtime will pick the correct one (be sure to include a catch-all that throws a NotImplementedException).

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You could use a workaround: Define a method for every type you want to suport

private static Add(float a, float b) 
{return a+b;}  
private static Add(double a, double b) 
{return a+b;}  

and create a delegate for the right one at runtime:

MethodInfo addMethod=this.GetType().GetMethod("Add",BindingFlags.NotPublic|Static,null,new Type[2]{typeof(T),typeof(T)},null);  
Func<T,T,T> addFunction=(Func<T,T,T>)Delegate.CreateDelegate(typeof(Func<T,T,T>),addMethod);
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