TypeBuilder.CreateType 메서드

정의

네임스페이스:

System.Reflection.Emit

어셈블리:

System.Reflection.Emit.dll

Source:

TypeBuilder.cs

해당 클래스에 대한 Type 개체를 만듭니다. 클래스의 필드 및 메서드를 정의한 후에 CreateType을 호출하여 해당 클래스의 Type 개체를 로드합니다.

public:
 Type ^ CreateType();

public Type CreateType ();

member this.CreateType : unit -> Type

Public Function CreateType () As Type

반환

Type

이 클래스에 대한 새 Type 개체를 반환합니다.

예외

InvalidOperationException

바깥쪽 형식이 만들어지지 않았습니다.

또는

이 형식이 비추상 형식이고 추상 메서드가 포함된 경우

또는

이 형식이 추상 클래스 또는 인터페이스가 아니고 메서드 본문이 없는 메서드가 들어 있는 경우

ArgumentException

ILGenerator의 잘못된 레이블 내용: MarkLabel(Label)을 호출하지 않고 레이블을 정의했습니다.

NotSupportedException

형식에 잘못된 MSIL(Microsoft Intermediate Language) 코드가 들어 있는 경우

또는

분기 대상을 1바이트 오프셋으로 지정했지만 분기 대상이 분기에서 128바이트 이상 떨어져 있는 경우

TypeLoadException

형식을 로드할 수 없는 경우. 예를 들어 호출 규칙 HasThis가 있는 static 메서드가 포함되어 있습니다.

예제

다음 코드 예제에서는 호출 하는 동안 중첩된 형식에서 메서드를 호출 CreateType 하기 위해 이벤트에 대 AppDomain.TypeResolve 한 CreateType 이벤트 처리기를 정의 하는 방법을 보여 주는 바 묶는 형식입니다.

using namespace System;
using namespace System::Reflection;
using namespace System::Reflection::Emit;
using namespace System::Threading;
using namespace System::Text;
using namespace System::Resources;
using namespace System::Collections;
using namespace System::IO;

// Helper class called when a resolve type event is raised.
ref class TypeResolveHandler
{
private:
   Module^ m_Module;

public:
   TypeResolveHandler( Module^ mod )
   {
      m_Module = mod;
   }

   Assembly^ ResolveEvent( Object^ sender, ResolveEventArgs^ args );
};

ref class NestedEnum
{
internal:
   static TypeBuilder^ enumType = nullptr;
   static Type^ tNested = nullptr;
   static Type^ tNesting = nullptr;

public:
   static void Main()
   {
      AssemblyName^ asmName = gcnew AssemblyName;
      asmName->Name = "NestedEnum";
      AssemblyBuilder^ asmBuild = Thread::GetDomain()->DefineDynamicAssembly( asmName, AssemblyBuilderAccess::RunAndSave );
      ModuleBuilder^ modBuild = asmBuild->DefineDynamicModule( "ModuleOne", "NestedEnum.dll" );
      
      // Hook up the event listening.
      TypeResolveHandler^ typeResolveHandler = gcnew TypeResolveHandler( modBuild );
      
      // Add a listener for the type resolve events.
      AppDomain^ currentDomain = Thread::GetDomain();
      ResolveEventHandler^ resolveHandler = gcnew ResolveEventHandler( typeResolveHandler, &TypeResolveHandler::ResolveEvent );
      currentDomain->TypeResolve += resolveHandler;
      TypeBuilder^ tb = modBuild->DefineType( "AType", TypeAttributes::Public );
      TypeBuilder^ eb = tb->DefineNestedType( "AnEnum", static_cast<TypeAttributes>(TypeAttributes::NestedPublic | TypeAttributes::Sealed), Enum::typeid, 0 );
      eb->DefineField( "value__", int::typeid, static_cast<FieldAttributes>(FieldAttributes::Private | FieldAttributes::SpecialName) );
      FieldBuilder^ fb = eb->DefineField( "Field1", eb, static_cast<FieldAttributes>(FieldAttributes::Public | FieldAttributes::Literal | FieldAttributes::Static) );
      fb->SetConstant( 1 );
      enumType = eb;
      
      // Comment out this field.
      // When this field is defined, the loader cannot determine the size
      // of the type. Therefore, a TypeResolve event is generated when the
      // nested type is completed.
      tb->DefineField( "Field2", eb, FieldAttributes::Public );
      tNesting = tb->CreateType();
      if ( tNesting == nullptr )
            Console::WriteLine( "NestingType CreateType failed but didn't throw!" );

      try
      {
         tNested = eb->CreateType();
         if ( tNested == nullptr )
                  Console::WriteLine( "NestedType CreateType failed but didn't throw!" );
      }
      catch ( Exception^ ) 
      {
         
         // This is needed because you might have already completed the type in the TypeResolve event.
      }

      if ( tNested != nullptr )
      {
         Type^ x = tNested->DeclaringType;
         if ( x == nullptr )
                  Console::WriteLine( "Declaring type is null." );
         else
                  Console::WriteLine( x->Name );
      }

      asmBuild->Save( "NestedEnum.dll" );
      
      // Remove the listener for the type resolve events.
      currentDomain->TypeResolve -= resolveHandler;
   }

};

Assembly^ TypeResolveHandler::ResolveEvent( Object^ sender, ResolveEventArgs^ args )
{
   Console::WriteLine( args->Name );
   
   // Use args.Name to look up the type name. In this case, you are getting AnEnum.
   try
   {
      NestedEnum::tNested = NestedEnum::enumType->CreateType();
   }
   catch ( Exception^ ) 
   {
      
      // This is needed to throw away InvalidOperationException.
      // Loader might send the TypeResolve event more than once
      // and the type might be complete already.
   }

   
   // Complete the type.
   return m_Module->Assembly;
}

int main()
{
   NestedEnum::Main();
}

using System;
using System.Reflection;
using System.Reflection.Emit;
using System.Threading;
using System.Text;
using System.Resources;
using System.Collections;
using System.IO;

internal class NestedEnum {
    internal static TypeBuilder enumType = null;
    internal static Type tNested = null;
    internal static Type tNesting = null;

    public static void Main(String[] args) {
    AssemblyName asmName = new AssemblyName();
    asmName.Name = "NestedEnum";
    AssemblyBuilder asmBuild = Thread.GetDomain().DefineDynamicAssembly(asmName, AssemblyBuilderAccess.RunAndSave);
    ModuleBuilder modBuild = asmBuild.DefineDynamicModule("ModuleOne", "NestedEnum.dll");

    // Hook up the event listening.
    TypeResolveHandler typeResolveHandler = new TypeResolveHandler(modBuild);
    // Add a listener for the type resolve events.
    AppDomain currentDomain = Thread.GetDomain();
    ResolveEventHandler resolveHandler = new ResolveEventHandler(typeResolveHandler.ResolveEvent);
    currentDomain.TypeResolve += resolveHandler;

    TypeBuilder tb = modBuild.DefineType("AType", TypeAttributes.Public);
    TypeBuilder eb = tb.DefineNestedType("AnEnum", TypeAttributes.NestedPublic | TypeAttributes.Sealed, typeof(Enum), null);
    eb.DefineField("value__", typeof(int), FieldAttributes.Private | FieldAttributes.SpecialName);
    FieldBuilder fb = eb.DefineField("Field1", eb, FieldAttributes.Public | FieldAttributes.Literal | FieldAttributes.Static);
    fb.SetConstant(1);

    enumType = eb;

    // Comment out this field.
    // When this field is defined, the loader cannot determine the size
    // of the type. Therefore, a TypeResolve event is generated when the
    // nested type is completed.
    tb.DefineField("Field2", eb, FieldAttributes.Public);

    tNesting = tb.CreateType();
    if (tNesting == null)
        Console.WriteLine("NestingType CreateType failed but didn't throw!");	

    try {
        tNested = eb.CreateType();
        if (tNested == null)
        Console.WriteLine("NestedType CreateType failed but didn't throw!");	
    }
    catch {
        // This is needed because you might have already completed the type in the TypeResolve event.
    }

    if (tNested != null) {
        Type x = tNested.DeclaringType;
        if (x == null)
        Console.WriteLine("Declaring type was null.");
        else
        Console.WriteLine(x.Name);
    }

    asmBuild.Save( "NestedEnum.dll" );

    // Remove the listener for the type resolve events.
    currentDomain.TypeResolve -= resolveHandler;
    }
}

// Helper class called when a resolve type event is raised.
internal class TypeResolveHandler
{
    private Module m_Module;

    public TypeResolveHandler(Module mod)
    {
    m_Module = mod;
    }

    public Assembly ResolveEvent(Object sender, ResolveEventArgs args)
    {
    Console.WriteLine(args.Name);
    // Use args.Name to look up the type name. In this case, you are getting AnEnum.
    try {
        NestedEnum.tNested = NestedEnum.enumType.CreateType();
    }
    catch {
        // This is needed to throw away InvalidOperationException.
        // Loader might send the TypeResolve event more than once
        // and the type might be complete already.
    }

    // Complete the type.		
    return m_Module.Assembly;
    }
}

Imports System.Reflection
Imports System.Reflection.Emit
Imports System.Threading
Imports System.Text
Imports System.Resources
Imports System.Collections
Imports System.IO

Friend Class NestedEnum
   Friend Shared enumType As TypeBuilder = Nothing
   Friend Shared tNested As Type = Nothing
   Friend Shared tNesting As Type = Nothing
   
   Public Shared Sub Main()
      Dim asmName As New AssemblyName()
      asmName.Name = "NestedEnum"
      Dim asmBuild As AssemblyBuilder = Thread.GetDomain().DefineDynamicAssembly(asmName, AssemblyBuilderAccess.RunAndSave)
      Dim modBuild As ModuleBuilder = asmBuild.DefineDynamicModule("ModuleOne", "NestedEnum.dll")
      
      ' Hook up the event listening.
      Dim typeResolveHandler As New TypeResolveHandler(modBuild)
      ' Add a listener for the type resolve events.
      Dim currentDomain As AppDomain = Thread.GetDomain()
      Dim resolveHandler As ResolveEventHandler = AddressOf typeResolveHandler.ResolveEvent
      AddHandler currentDomain.TypeResolve, resolveHandler 
      
      Dim tb As TypeBuilder = modBuild.DefineType("AType", TypeAttributes.Public)
      Dim eb As TypeBuilder = tb.DefineNestedType("AnEnum", TypeAttributes.NestedPublic Or TypeAttributes.Sealed, GetType([Enum]))
      eb.DefineField("value__", GetType(Integer), FieldAttributes.Private Or FieldAttributes.SpecialName)
      Dim fb As FieldBuilder = eb.DefineField("Field1", eb, FieldAttributes.Public Or FieldAttributes.Literal Or FieldAttributes.Static)
      fb.SetConstant(1)
      
      enumType = eb
      
      ' Comment out this field.
      ' When this field is defined, the loader cannot determine the size
      ' of the type. Therefore, a TypeResolve event is generated when the
      ' nested type is completed.
      tb.DefineField("Field2", eb, FieldAttributes.Public)
      
      tNesting = tb.CreateType()
      If tNesting Is Nothing Then
         Console.WriteLine("NestingType CreateType failed but didn't throw!")
      End If 
      Try
         tNested = eb.CreateType()
         If tNested Is Nothing Then
            Console.WriteLine("NestedType CreateType failed but didn't throw!")
         End If
      Catch
      End Try ' This is needed because you might have already completed the type in the TypeResolve event.
      
      If Not (tNested Is Nothing) Then
         Dim x As Type = tNested.DeclaringType
         If x Is Nothing Then
            Console.WriteLine("Declaring type is Nothing.")
         Else
            Console.WriteLine(x.Name)
         End If
      End If 
      asmBuild.Save("NestedEnum.dll")
      
      ' Remove the listener for the type resolve events.
      RemoveHandler currentDomain.TypeResolve, resolveHandler 
   End Sub
End Class


' Helper class called when a resolve type event is raised.
Friend Class TypeResolveHandler
   Private m_Module As [Module]
   
   
   Public Sub New([mod] As [Module])
      m_Module = [mod]
   End Sub
   
   
   Public Function ResolveEvent(sender As [Object], args As ResolveEventArgs) As [Assembly]
      Console.WriteLine(args.Name)
      ' Use args.Name to look up the type name. In this case, you are getting AnEnum.
      Try
         NestedEnum.tNested = NestedEnum.enumType.CreateType()
      Catch
      End Try ' This is needed to throw away InvalidOperationException.
      ' Loader might send the TypeResolve event more than once
      ' and the type might be complete already.
      
      ' Complete the type.		    
      Return m_Module.Assembly
   End Function 'ResolveEvent
End Class

설명

이 형식이 중첩된 형식인 CreateType 경우 중첩된 형식에서 호출되기 전에 바깥쪽 형식에서 메서드를 호출해야 합니다.

현재 형식이 불완전한 형식에서 파생되거나 불완전한 인터페이스를 구현하는 경우 현재 형식에서 호출하기 전에 부모 형식 및 인터페이스 형식에서 메서드를 호출 CreateType 합니다.

바깥쪽 형식에 중첩 형식으로 정의된 값 형식인 필드(예: 중첩된 형식으로 정의된 필드)가 포함된 경우 바깥쪽 형식에서 메서드를 호출 CreateType 하면 이벤트가 생성 AppDomain.TypeResolve 됩니다. 중첩된 형식이 완료될 때까지 로더가 바깥쪽 형식의 크기를 확인할 수 없기 때문입니다. 호출자는 중첩된 형식을 나타내는 개체를 호출 CreateType 하여 중첩 형식의 정의를 완료하기 위해 이벤트에 대한 TypeResolveTypeBuilder 처리기를 정의해야 합니다. 이 항목의 코드 예제에서는 이러한 이벤트 처리기를 정의하는 방법을 보여줍니다.

메서드가 호출된 횟수 CreateType 에 관계없이 형식은 한 번만 만들어집니다. 모든 호출은 동일한 Type 개체를 반환합니다.