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System.Reflection.Emit.AssemblyBuilder class

This article provides supplementary remarks to the reference documentation for this API.

A dynamic assembly is an assembly that is created using the Reflection Emit APIs. A dynamic assembly can reference types defined in another dynamic or static assembly. You can use AssemblyBuilder to generate dynamic assemblies in memory and execute their code during the same application run. In .NET 9 we added a new PersistedAssemblyBuilder with fully managed implementation of reflection emit that allows you save the assembly into a file. In .NET Framework, you can do both—run the dynamic assembly and save it to a file. The dynamic assembly created for saving is called a persisted assembly, while the regular memory-only assembly is called transient or runnable. In .NET Framework, a dynamic assembly can consist of one or more dynamic modules. In .NET Core and .NET 5+, a dynamic assembly can only consist of one dynamic module.

The way you create an AssemblyBuilder instance differs for each implementation, but further steps for defining a module, type, method, or enum, and for writing IL, are quite similar.

Runnable dynamic assemblies in .NET

To get a runnable AssemblyBuilder object, use the AssemblyBuilder.DefineDynamicAssembly method. Dynamic assemblies can be created using one of the following access modes:

The access mode must be specified by providing the appropriate AssemblyBuilderAccess value in the call to the AssemblyBuilder.DefineDynamicAssembly method when the dynamic assembly is defined and cannot be changed later. The runtime uses the access mode of a dynamic assembly to optimize the assembly's internal representation.

The following example demonstrates how to create and run an assembly:

public void CreateAndRunAssembly(string assemblyPath)
{
    AssemblyBuilder ab = AssemblyBuilder.DefineDynamicAssembly(new AssemblyName("MyAssembly"), AssemblyBuilderAccess.Run);
    ModuleBuilder mob = ab.DefineDynamicModule("MyModule");
    TypeBuilder tb = mob.DefineType("MyType", TypeAttributes.Public | TypeAttributes.Class);
    MethodBuilder mb = tb.DefineMethod("SumMethod", MethodAttributes.Public | MethodAttributes.Static,
                                                                   typeof(int), new Type[] {typeof(int), typeof(int)});
    ILGenerator il = mb.GetILGenerator();
    il.Emit(OpCodes.Ldarg_0);
    il.Emit(OpCodes.Ldarg_1);
    il.Emit(OpCodes.Add);
    il.Emit(OpCodes.Ret);

    Type type = tb.CreateType();

    MethodInfo method = type.GetMethod("SumMethod");
    Console.WriteLine(method.Invoke(null, new object[] { 5, 10 }));
}

Persisted dynamic assemblies in .NET

The new PersistedAssemblyBuilder type derived from the AssemblyBuilder and allows save the dynamic assemblies in .NET Core, check the usage scenarios and examples from PersistedAssemblyBuilder page.

Persisted dynamic assemblies in .NET Framework

In .NET Framework, dynamic assemblies and modules can be saved to files. To support this feature, the AssemblyBuilderAccess enumeration declares two additional fields: Save and RunAndSave.

The dynamic modules in the persistable dynamic assembly are saved when the dynamic assembly is saved using the Save method. To generate an executable, the SetEntryPoint method must be called to identify the method that is the entry point to the assembly. Assemblies are saved as DLLs by default, unless the SetEntryPoint method requests the generation of a console application or a Windows-based application.

The following example demonstrates how to create, save, and run an assembly using .NET Framework.

public void CreateRunAndSaveAssembly(string assemblyPath)
{
    AssemblyBuilder ab = Thread.GetDomain().DefineDynamicAssembly(new AssemblyName("MyAssembly"), AssemblyBuilderAccess.RunAndSave);
    ModuleBuilder mob = ab.DefineDynamicModule("MyAssembly.dll");
    TypeBuilder tb = mob.DefineType("MyType", TypeAttributes.Public | TypeAttributes.Class);
    MethodBuilder meb = tb.DefineMethod("SumMethod", MethodAttributes.Public | MethodAttributes.Static,
                                                                   typeof(int), new Type[] {typeof(int), typeof(int)});
    ILGenerator il = meb.GetILGenerator();
    il.Emit(OpCodes.Ldarg_0);
    il.Emit(OpCodes.Ldarg_1);
    il.Emit(OpCodes.Add);
    il.Emit(OpCodes.Ret);

    Type type = tb.CreateType();

    MethodInfo method = type.GetMethod("SumMethod");
    Console.WriteLine(method.Invoke(null, new object[] { 5, 10 }));
    ab.Save("MyAssembly.dll");
}

Some methods on the base Assembly class, such as GetModules and GetLoadedModules, won't work correctly when called from AssemblyBuilder objects. You can load the defined dynamic assembly and call the methods on the loaded assembly. For example, to ensure that resource modules are included in the returned module list, call GetModules on the loaded Assembly object. If a dynamic assembly contains more than one dynamic module, the assembly's manifest file name should match the module's name that's specified as the first argument to the DefineDynamicModule method.

The signing of a dynamic assembly using KeyPair is not effective until the assembly is saved to disk. So, strong names will not work with transient dynamic assemblies.

Dynamic assemblies can reference types defined in another assembly. A transient dynamic assembly can safely reference types defined in another transient dynamic assembly, a persistable dynamic assembly, or a static assembly. However, the common language runtime does not allow a persistable dynamic module to reference a type defined in a transient dynamic module. This is because when the persisted dynamic module is loaded after being saved to disk, the runtime cannot resolve the references to types defined in the transient dynamic module.

Restrictions on emitting to remote application domains

Some scenarios require a dynamic assembly to be created and executed in a remote application domain. Reflection emit does not allow a dynamic assembly to be emitted directly to a remote application domain. The solution is to emit the dynamic assembly in the current application domain, save the emitted dynamic assembly to disk, and then load the dynamic assembly into the remote application domain. The remoting and application domains are supported only in .NET Framework.