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I have a function that at the moment takes a Type variable. This function sticks it in a list and such and eventually needs will create a class of that type.

Right now I do that with

object o=MyType.GetConstructors()[0].Invoke(new object[0]);

which is pretty hacky and also will not work in medium trust due to reflection(I think). Is there a better way of doing this without reflection?

The Type is defined this way as part of a function. I need the class to be created "lazily" because it may not be created in the application if it's not needed. I use it for example like

AddToList(typeof(Whatever)); 

Note, I'm open to suggestions on changing the function calling. I just need the object to be created lazily and for to store the type(or however to create an object of the type) in a list.

I've considered lambdas but I'm not sure they'd work here.

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"reflection" is pretty much defined as what you're trying to do... why are you trying to do this? Where is the Type coming from? –  Karl Knechtel Jan 14 '11 at 2:04
    
@Karl see my edit –  Earlz Jan 14 '11 at 2:11
    
Are you creating an object factory? If so, you might be interested in blogs.lessthandot.com/index.php/DesktopDev/MSTech/… –  Rob Jan 14 '11 at 2:21

3 Answers 3

Using Generics:

public void Method<T>() where T : class, new()
{
  //code
  T t = new T();
}

Using Activator (still reflection, meh):

object t = Activator.CreateInstance(yourTypeVariable);

Personally, I would prefer the first solution due to being strongly typed. However, you should be aware that both methods only allow for parameterless constructors. If you need to pass parameters, you will need reflection or expression trees.

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1  
Actually Activator is reflection: msdn.microsoft.com/en-us/library/aa310399%28v=vs.71%29.aspx –  Earlz Jan 14 '11 at 2:14
    
Activator.CreateInstance() does support arguments, it takes them as object[] –  Rob Jan 14 '11 at 2:17
    
Ah, right. I read that as well now. However, as enumerating type objects is always possible, expression trees should work (you need to use a bit of reflection to get the MemberInfos for the expressions). –  Femaref Jan 14 '11 at 2:18
    
@Earlz even new T() is reflection (for classes). –  nawfal Jul 23 at 13:45
    
Are you sure about that? generics are a compile time feature (i.e. the type is known when compiling). I don't think it's reflection (which is runtime lookup of type information). –  Femaref Jul 25 at 12:07

Another alternative solution is FormatterServices.

object instance = FormatterServices.GetUninitializedObject(typeof(MyClass));

Note that the instance is created without any fields/properties initialized, even you have

class MyClass
{
   public int i = 99;
   public Object o = new object();
}

instance.i will be 0 and instance.o will be null. It's quite hard to provide a pure non-reflection solution(because always you need to call o.GetType()). This solution essentially serialize the object and then deserialize it to an object, so you don't need to use reflection to call its constructor. But there is still reflection when serialization/deserialization.

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+1, but not that FormatterServices.GetUninitializedObject(typeof(MyClass)) is terribly slow.. –  nawfal Sep 13 '13 at 6:26

After further research on lambdas, I've discovered they will give me a much more elegant solution and it does not use reflection

So I used in my list definition

public delegate MyBaseType TypeCreator();

...
public TypeCreator Creator;

and in my function call, a simple and elegant lambda:

AddToList(()=>{return new MyType();});

I think this is quite a bit cleaner than my reflection method because it allows putting parameters into the constructor, and a few other reasons outside of the scope of this question. (It just goes with my project well)

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