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Is it possible to create a class during run-time and use it?

I am NOT referring to compiling code at run-time, generating a new assembly, loading it, executing it, etc. Reflection is a one-way street in that it can give you run-time info about your currently loaded assembly or one that you load from file or memory.

My question is more about injection I guess. Can you create a class at run-time within your own app domain and make it do anything useful?

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see the code mentioned by me. – Romil Kumar Jain May 1 '12 at 15:52

2 Answers 2

up vote 2 down vote accepted

Refer "Example 18-11: Dynamic invocation with reflection emit" section in following link:

How to create direct IL without .cs

    namespace Programming_CSharp
   using System;
   using System.Diagnostics;
   using System.IO;
   using System.Reflection;
   using System.Reflection.Emit;
   using System.Threading;

   // used to benchmark the looping approach
   public class MyMath
      // sum numbers with a loop
      public int DoSumLooping(int initialVal)
         int result = 0;
         for(int i = 1;i <=initialVal;i++)
            result += i;
         return result;

   // declare the interface
   public interface IComputer
      int ComputeSum(  );

   public class ReflectionTest
      // the private method which emits the assembly
      // using op codes
      private Assembly EmitAssembly(int theValue)
         // Create an assembly name
         AssemblyName assemblyName = 
            new AssemblyName(  );
         assemblyName.Name = "DoSumAssembly";

         // Create a new assembly with one module
         AssemblyBuilder newAssembly =
            Thread.GetDomain(  ).DefineDynamicAssembly(
            assemblyName, AssemblyBuilderAccess.Run);
         ModuleBuilder newModule =

         //  Define a public class named "BruteForceSums " 
         //  in the assembly.
         TypeBuilder myType =
            "BruteForceSums", TypeAttributes.Public);

         // Mark the class as implementing IComputer.

         // Define a method on the type to call. Pass an
         // array that defines the types of the parameters,
         // the type of the return type, the name of the 
         // method, and the method attributes.
         Type[] paramTypes = new Type[0];
         Type returnType = typeof(int);
         MethodBuilder simpleMethod =
            MethodAttributes.Public | 

         // Get an ILGenerator. This is used
         // to emit the IL that you want.
         ILGenerator generator = 
            simpleMethod.GetILGenerator(  );

         // Emit the IL that you'd get if you 
         // compiled the code example 
         // and then ran ILDasm on the output.

         // Push zero onto the stack. For each 'i' 
         // less than 'theValue', 
         // push 'i' onto the stack as a constant
         // add the two values at the top of the stack.
         // The sum is left on the stack.
         generator.Emit(OpCodes.Ldc_I4, 0);
         for (int i = 1; i <= theValue;i++)
            generator.Emit(OpCodes.Ldc_I4, i);


         // return the value

         //Encapsulate information about the method and
         //provide access to the method's metadata
         MethodInfo computeSumInfo =

         // specify the method implementation.
         // Pass in the MethodBuilder that was returned 
         // by calling DefineMethod and the methodInfo 
         // just created
         myType.DefineMethodOverride(simpleMethod, computeSumInfo);

         // Create the type.
         myType.CreateType(  );
         return newAssembly;

      // check if the interface is null
      // if so, call Setup.
      public double DoSum(int theValue)
         if (theComputer == null)

         // call the method through the interface
         return (theComputer.ComputeSum(  ));

      // emit the assembly, create an instance 
      // and get the interface
      public void GenerateCode(int theValue)
         Assembly theAssembly = EmitAssembly(theValue);
         theComputer = (IComputer) 

      // private member data
      IComputer theComputer = null;


   public class TestDriver
      public static void Main(  )
         const int val = 2000;  // Note 2,000

         // 1 million iterations!
         const int iterations = 1000000;
         double result = 0;

         // run the benchmark
         MyMath m = new MyMath(  ); 
         DateTime startTime = DateTime.Now;            
         for (int i = 0;i < iterations;i++)
            result = m.DoSumLooping(val);
         TimeSpan elapsed = 
            DateTime.Now - startTime;
            "Sum of ({0}) = {1}",val, result);
            "Looping. Elapsed milliseconds: " + 
            elapsed.TotalMilliseconds + 
            " for {0} iterations", iterations);

         // run our reflection alternative
         ReflectionTest t = new ReflectionTest(  );

         startTime = DateTime.Now; 
         for (int i = 0;i < iterations;i++)
            result = t.DoSum(val);

         elapsed = DateTime.Now - startTime;
            "Sum of ({0}) = {1}",val, result);
            "Brute Force. Elapsed milliseconds: " + 
            elapsed.TotalMilliseconds  + 
            " for {0} iterations", iterations);
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Is it possible to create a class during run-time and use it?

Yes, you could use Reflection.Emit. You may also checkout Castle.DynamicProxy which simplifies the process of manually generating the IL.

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