AssemblyBuilder.DefineVersionInfoResource Methode

Definition

Definiert eine nicht verwaltete Versionsinformationsressource für diese Assembly.

Überlädt

DefineVersionInfoResource()

Definiert eine nicht verwaltete Versionsinformationsressource mithilfe der im AssemblyName-Objekt der Assembly angegebenen Informationen und benutzerdefinierten Attributen der Assembly.

DefineVersionInfoResource(String, String, String, String, String)

Definiert eine nicht verwaltete Versionsinformationsressource für diese Assembly mit den bereitgestellten Angaben.

DefineVersionInfoResource()

Definiert eine nicht verwaltete Versionsinformationsressource mithilfe der im AssemblyName-Objekt der Assembly angegebenen Informationen und benutzerdefinierten Attributen der Assembly.

public:
 void DefineVersionInfoResource();
public void DefineVersionInfoResource ();
member this.DefineVersionInfoResource : unit -> unit
Public Sub DefineVersionInfoResource ()

Ausnahmen

Eine nicht verwaltete Versionsinformationsressource wurde zuvor definiert.

- oder -

Die nicht verwalteten Versionsinformationen können nicht beibehalten werden, da sie zu umfangreich sind.

Der Aufrufer verfügt nicht über die erforderliche Berechtigung.

Beispiele

Das folgende Beispiel veranschaulicht die Verwendung von DefineVersionInfoResource.

using namespace System;
using namespace System::Reflection;
using namespace System::Reflection::Emit;


/*
// Create the callee transient dynamic assembly.
static Type^ CreateAssembly( AppDomain^ myDomain )
{
   AssemblyName^ myAssemblyName = gcnew AssemblyName;
   myAssemblyName->Name = "MyEmittedAssembly";
   AssemblyBuilder^ myAssembly = myDomain->DefineDynamicAssembly( myAssemblyName, AssemblyBuilderAccess::Save );
   
   // Set Company Attribute to the assembly.
   Type^ companyAttribute = AssemblyCompanyAttribute::typeid;
   array<Type^>^types1 = {String::typeid};
   ConstructorInfo^ myConstructorInfo1 = companyAttribute->GetConstructor( types1 );
   array<Object^>^obj1 = {"Microsoft Corporation"};
   CustomAttributeBuilder^ attributeBuilder1 = gcnew CustomAttributeBuilder( myConstructorInfo1,obj1 );
   myAssembly->SetCustomAttribute( attributeBuilder1 );
   
   // Set Copyright Attribute to the assembly.
   Type^ copyrightAttribute = AssemblyCopyrightAttribute::typeid;
   array<Type^>^types2 = {String::typeid};
   ConstructorInfo^ myConstructorInfo2 = copyrightAttribute->GetConstructor( types2 );
   array<Object^>^obj2 = {"@Copyright Microsoft Corp. 1990-2001"};
   CustomAttributeBuilder^ attributeBuilder2 = gcnew CustomAttributeBuilder( myConstructorInfo2,obj2 );
   myAssembly->SetCustomAttribute( attributeBuilder2 );
   ModuleBuilder^ myModule = myAssembly->DefineDynamicModule( "EmittedModule", "EmittedModule.mod" );
   
   // Define a public class named S"HelloWorld" in the assembly.
   TypeBuilder^ helloWorldClass = myModule->DefineType( "HelloWorld", TypeAttributes::Public );
   
   // Define the Display method.
   MethodBuilder^ myMethod = helloWorldClass->DefineMethod( "Display", MethodAttributes::Public, String::typeid, nullptr );
   
   // Generate IL for GetGreeting.
   ILGenerator^ methodIL = myMethod->GetILGenerator();
   methodIL->Emit( OpCodes::Ldstr, "Display method get called." );
   methodIL->Emit( OpCodes::Ret );
   
   // Returns the type HelloWorld.
   return (helloWorldClass->CreateType());
}
*/

int main()
{
   AssemblyName^ assemName = gcnew AssemblyName();
   assemName->Name = "EmittedAssembly";

   // Create a dynamic assembly in the current application domain,
   // specifying that the assembly is to be saved.
   //
   AssemblyBuilder^ myAssembly = 
      AppDomain::CurrentDomain->DefineDynamicAssembly(assemName, 
         AssemblyBuilderAccess::Save);


   // To apply an attribute to a dynamic assembly, first get the 
   // attribute type. The AssemblyFileVersionAttribute sets the 
   // File Version field on the Version tab of the Windows file
   // properties dialog.
   //
   Type^ attributeType = AssemblyFileVersionAttribute::typeid;

   // To identify the constructor, use an array of types representing
   // the constructor's parameter types. This ctor takes a string.
   //
   array<Type^>^ ctorParameters = { String::typeid };

   // Get the constructor for the attribute.
   //
   ConstructorInfo^ ctor = attributeType->GetConstructor(ctorParameters);

   // Pass the constructor and an array of arguments (in this case,
   // an array containing a single string) to the 
   // CustomAttributeBuilder constructor.
   //
   array<Object^>^ ctorArgs = { "2.0.3033.0" };
   CustomAttributeBuilder^ attribute = 
      gcnew CustomAttributeBuilder(ctor, ctorArgs);

   // Finally, apply the attribute to the assembly.
   //
   myAssembly->SetCustomAttribute(attribute);


   // The pattern described above is used to create and apply
   // several more attributes. As it happens, all these attributes
   // have a constructor that takes a string, so the same ctorArgs
   // variable works for all of them.
    

   // The AssemblyTitleAttribute sets the Description field on
   // the General tab and the Version tab of the Windows file 
   // properties dialog.
   //
   attributeType = AssemblyTitleAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   ctorArgs = gcnew array<Object^> { "The Application Title" };
   attribute = gcnew CustomAttributeBuilder(ctor, ctorArgs);
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyCopyrightAttribute sets the Copyright field on
   // the Version tab.
   //
   attributeType = AssemblyCopyrightAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   ctorArgs = gcnew array<Object^> { "� My Example Company 1991-2005" };
   attribute = gcnew CustomAttributeBuilder(ctor, ctorArgs);
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyDescriptionAttribute sets the Comment item.
   //
   attributeType = AssemblyDescriptionAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   attribute = gcnew CustomAttributeBuilder(ctor, 
      gcnew array<Object^> { "This is a comment." });
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyCompanyAttribute sets the Company item.
   //
   attributeType = AssemblyCompanyAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   attribute = gcnew CustomAttributeBuilder(ctor, 
      gcnew array<Object^> { "My Example Company" });
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyProductAttribute sets the Product Name item.
   //
   attributeType = AssemblyProductAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   attribute = gcnew CustomAttributeBuilder(ctor, 
      gcnew array<Object^> { "My Product Name" });
   myAssembly->SetCustomAttribute(attribute);


   // Define the assembly's only module. For a single-file assembly,
   // the module name is the assembly name.
   //
   ModuleBuilder^ myModule = 
      myAssembly->DefineDynamicModule(assemName->Name, 
         assemName->Name + ".exe");

   // No types or methods are created for this example.


   // Define the unmanaged version information resource, which
   // contains the attribute informaion applied earlier, and save
   // the assembly. Use the Windows Explorer to examine the properties
   // of the .exe file.
   //
   myAssembly->DefineVersionInfoResource();
   myAssembly->Save(assemName->Name + ".exe");
}
using System;
using System.Reflection;
using System.Reflection.Emit;

class Example
{
   public static void Main()
   {
      AssemblyName assemName = new AssemblyName();
      assemName.Name = "EmittedAssembly";

      // Create a dynamic assembly in the current application domain,
      // specifying that the assembly is to be saved.
      //
      AssemblyBuilder myAssembly =
         AppDomain.CurrentDomain.DefineDynamicAssembly(assemName,
            AssemblyBuilderAccess.Save);

      // To apply an attribute to a dynamic assembly, first get the
      // attribute type. The AssemblyFileVersionAttribute sets the
      // File Version field on the Version tab of the Windows file
      // properties dialog.
      //
      Type attributeType = typeof(AssemblyFileVersionAttribute);

      // To identify the constructor, use an array of types representing
      // the constructor's parameter types. This ctor takes a string.
      //
      Type[] ctorParameters = { typeof(string) };

      // Get the constructor for the attribute.
      //
      ConstructorInfo ctor = attributeType.GetConstructor(ctorParameters);

      // Pass the constructor and an array of arguments (in this case,
      // an array containing a single string) to the
      // CustomAttributeBuilder constructor.
      //
      object[] ctorArgs = { "2.0.3033.0" };
      CustomAttributeBuilder attribute =
         new CustomAttributeBuilder(ctor, ctorArgs);

      // Finally, apply the attribute to the assembly.
      //
      myAssembly.SetCustomAttribute(attribute);

      // The pattern described above is used to create and apply
      // several more attributes. As it happens, all these attributes
      // have a constructor that takes a string, so the same ctorArgs
      // variable works for all of them.

      // The AssemblyTitleAttribute sets the Description field on
      // the General tab and the Version tab of the Windows file
      // properties dialog.
      //
      attributeType = typeof(AssemblyTitleAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      ctorArgs = new object[] { "The Application Title" };
      attribute = new CustomAttributeBuilder(ctor, ctorArgs);
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyCopyrightAttribute sets the Copyright field on
      // the Version tab.
      //
      attributeType = typeof(AssemblyCopyrightAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      ctorArgs = new object[] { "© My Example Company 1991-2005" };
      attribute = new CustomAttributeBuilder(ctor, ctorArgs);
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyDescriptionAttribute sets the Comment item.
      //
      attributeType = typeof(AssemblyDescriptionAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      attribute = new CustomAttributeBuilder(ctor,
         new object[] { "This is a comment." });
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyCompanyAttribute sets the Company item.
      //
      attributeType = typeof(AssemblyCompanyAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      attribute = new CustomAttributeBuilder(ctor,
         new object[] { "My Example Company" });
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyProductAttribute sets the Product Name item.
      //
      attributeType = typeof(AssemblyProductAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      attribute = new CustomAttributeBuilder(ctor,
         new object[] { "My Product Name" });
      myAssembly.SetCustomAttribute(attribute);

      // Define the assembly's only module. For a single-file assembly,
      // the module name is the assembly name.
      //
      ModuleBuilder myModule =
         myAssembly.DefineDynamicModule(assemName.Name,
            assemName.Name + ".exe");

      // No types or methods are created for this example.

      // Define the unmanaged version information resource, which
      // contains the attribute informaion applied earlier, and save
      // the assembly. Use the Windows Explorer to examine the properties
      // of the .exe file.
      //
      myAssembly.DefineVersionInfoResource();
      myAssembly.Save(assemName.Name + ".exe");
   }
}
Imports System.Reflection
Imports System.Reflection.Emit

Module Example

   Sub Main()

      Dim assemName As New AssemblyName()
      assemName.Name = "EmittedAssembly"

      ' Create a dynamic assembly in the current application domain,
      ' specifying that the assembly is to be saved.
      '
      Dim myAssembly As AssemblyBuilder = _
         AppDomain.CurrentDomain.DefineDynamicAssembly(assemName, _
            AssemblyBuilderAccess.Save)


      ' To apply an attribute to a dynamic assembly, first get the 
      ' attribute type. The AssemblyFileVersionAttribute sets the 
      ' File Version field on the Version tab of the Windows file
      ' properties dialog.
      '
      Dim attributeType As Type = GetType(AssemblyFileVersionAttribute)

      ' To identify the constructor, use an array of types representing
      ' the constructor's parameter types. This ctor takes a string.
      '
      Dim ctorParameters() As Type = { GetType(String) }

      ' Get the constructor for the attribute.
      '
      Dim ctor As ConstructorInfo = _
                         attributeType.GetConstructor(ctorParameters)

      ' Pass the constructor and an array of arguments (in this case,
      ' an array containing a single string) to the 
      ' CustomAttributeBuilder constructor.
      '
      Dim ctorArgs() As Object = { "2.0.3033.0" }
      Dim attribute As New CustomAttributeBuilder(ctor, ctorArgs)

      ' Finally, apply the attribute to the assembly.
      '
      myAssembly.SetCustomAttribute(attribute)


      ' The pattern described above is used to create and apply
      ' several more attributes. As it happens, all these attributes
      ' have a constructor that takes a string, so the same ctorArgs
      ' variable works for all of them.
      

      ' The AssemblyTitleAttribute sets the Description field on
      ' the General tab and the Version tab of the Windows file 
      ' properties dialog.
      '
      attributeType = GetType(AssemblyTitleAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      ctorArgs = New Object() { "The Application Title" }
      attribute = New CustomAttributeBuilder(ctor, ctorArgs)
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyCopyrightAttribute sets the Copyright field on
      ' the Version tab.
      '
      attributeType = GetType(AssemblyCopyrightAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      ctorArgs = New Object() { "© My Example Company 1991-2005" }
      attribute = New CustomAttributeBuilder(ctor, ctorArgs)
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyDescriptionAttribute sets the Comment item.
      '
      attributeType = GetType(AssemblyDescriptionAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      attribute = New CustomAttributeBuilder(ctor, _
         New Object() { "This is a comment." })
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyCompanyAttribute sets the Company item.
      '
      attributeType = GetType(AssemblyCompanyAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      attribute = New CustomAttributeBuilder(ctor, _
         New Object() { "My Example Company" })
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyProductAttribute sets the Product Name item.
      '
      attributeType = GetType(AssemblyProductAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      attribute = New CustomAttributeBuilder(ctor, _
         New Object() { "My Product Name" })
      myAssembly.SetCustomAttribute(attribute)


      ' Define the assembly's only module. For a single-file assembly,
      ' the module name is the assembly name.
      '
      Dim myModule As ModuleBuilder = _
         myAssembly.DefineDynamicModule(assemName.Name, _
            assemName.Name & ".exe")

      ' No types or methods are created for this example.


      ' Define the unmanaged version information resource, which
      ' contains the attribute informaion applied earlier, and save
      ' the assembly. Use the Windows Explorer to examine the properties
      ' of the .exe file.
      '
      myAssembly.DefineVersionInfoResource()
      myAssembly.Save(assemName.Name & ".exe")

   End Sub 
End Module

Hinweise

Eine Assembly kann nur einer nicht verwalteten Ressource zugeordnet werden. Dies bedeutet, dass der Aufruf DefineVersionInfoResource oder DefineUnmanagedResource nachdem eine der Methoden zuvor aufgerufen wurde, die System.ArgumentException auslöst. Mehrere nicht verwaltete Ressourcen müssen mit einem Tool wie dem Microsoft ResMerge-Hilfsprogramm zusammengeführt werden (nicht mit dem Common Language Runtime SDK bereitgestellt).

Leere Argumentzeichenfolgen werden als einzelnes Leerzeichen geschrieben. Leerzeichen werden durch NULL-Zeichen in den Argumentzeichenfolgen ersetzt.

Die Informationen werden aus dem Objekt abgeleitet, das AssemblyName zum Definieren dieser dynamischen Assembly verwendet wird. Die benutzerdefinierten Attribute dieser Assembly setzen die im AssemblyName -Objekt angegebenen Informationen außer Kraft.

Hinweis

Ab dem .NET Framework 2.0 Service Pack 1 benötigt ReflectionPermission dieses Mitglied nicht mehr das ReflectionPermissionFlag.ReflectionEmit Flag. (Siehe Sicherheitsprobleme in Reflektionsausgabe.) Um diese Funktionalität zu verwenden, sollte Ihre Anwendung auf die .NET Framework 3.5 oder höher ausgerichtet sein.

Gilt für:

DefineVersionInfoResource(String, String, String, String, String)

Definiert eine nicht verwaltete Versionsinformationsressource für diese Assembly mit den bereitgestellten Angaben.

public:
 void DefineVersionInfoResource(System::String ^ product, System::String ^ productVersion, System::String ^ company, System::String ^ copyright, System::String ^ trademark);
public void DefineVersionInfoResource (string product, string productVersion, string company, string copyright, string trademark);
member this.DefineVersionInfoResource : string * string * string * string * string -> unit
Public Sub DefineVersionInfoResource (product As String, productVersion As String, company As String, copyright As String, trademark As String)

Parameter

product
String

Der Name des Produkts, mit dem diese Assembly verteilt wird.

productVersion
String

Die Version des Produkts, mit dem diese Assembly verteilt wird.

company
String

Der Name des Unternehmens, das diese Assembly erstellt hat.

copyright
String

Beschreibt alle Copyrighthinweise, Marken und eingetragenen Marken, die diese Assembly betreffen. Dies sollte den vollständigen Text aller Hinweise, rechtliche Symbole, Copyright-Datumsangaben, Markennummern usw. umfassen. Diese Zeichenfolge sollte folgendermaßen aussehen: "Copyright Microsoft Corp. 1990-2001"

trademark
String

Beschreibt alle Marken und eingetragenen Marken, die diese Assembly betreffen. Dies sollte den vollständigen Text aller Hinweise, rechtliche Symbole, Markennummern usw. umfassen. Im Deutschen sollte diese Zeichenfolge das folgende Format aufweisen: "Windows ist eine Marke der Microsoft Corporation".

Ausnahmen

Eine nicht verwaltete Versionsinformationsressource wurde zuvor definiert.

- oder -

Die nicht verwalteten Versionsinformationen können nicht beibehalten werden, da sie zu umfangreich sind.

Der Aufrufer verfügt nicht über die erforderliche Berechtigung.

Beispiele

Das folgende Beispiel veranschaulicht die Verwendung von DefineVersionInfoResource.

using namespace System;
using namespace System::Reflection;
using namespace System::Reflection::Emit;


/*
// Create the callee transient dynamic assembly.
static Type^ CreateAssembly( AppDomain^ myDomain )
{
   AssemblyName^ myAssemblyName = gcnew AssemblyName;
   myAssemblyName->Name = "MyEmittedAssembly";
   AssemblyBuilder^ myAssembly = myDomain->DefineDynamicAssembly( myAssemblyName, AssemblyBuilderAccess::Save );
   
   // Set Company Attribute to the assembly.
   Type^ companyAttribute = AssemblyCompanyAttribute::typeid;
   array<Type^>^types1 = {String::typeid};
   ConstructorInfo^ myConstructorInfo1 = companyAttribute->GetConstructor( types1 );
   array<Object^>^obj1 = {"Microsoft Corporation"};
   CustomAttributeBuilder^ attributeBuilder1 = gcnew CustomAttributeBuilder( myConstructorInfo1,obj1 );
   myAssembly->SetCustomAttribute( attributeBuilder1 );
   
   // Set Copyright Attribute to the assembly.
   Type^ copyrightAttribute = AssemblyCopyrightAttribute::typeid;
   array<Type^>^types2 = {String::typeid};
   ConstructorInfo^ myConstructorInfo2 = copyrightAttribute->GetConstructor( types2 );
   array<Object^>^obj2 = {"@Copyright Microsoft Corp. 1990-2001"};
   CustomAttributeBuilder^ attributeBuilder2 = gcnew CustomAttributeBuilder( myConstructorInfo2,obj2 );
   myAssembly->SetCustomAttribute( attributeBuilder2 );
   ModuleBuilder^ myModule = myAssembly->DefineDynamicModule( "EmittedModule", "EmittedModule.mod" );
   
   // Define a public class named S"HelloWorld" in the assembly.
   TypeBuilder^ helloWorldClass = myModule->DefineType( "HelloWorld", TypeAttributes::Public );
   
   // Define the Display method.
   MethodBuilder^ myMethod = helloWorldClass->DefineMethod( "Display", MethodAttributes::Public, String::typeid, nullptr );
   
   // Generate IL for GetGreeting.
   ILGenerator^ methodIL = myMethod->GetILGenerator();
   methodIL->Emit( OpCodes::Ldstr, "Display method get called." );
   methodIL->Emit( OpCodes::Ret );
   
   // Returns the type HelloWorld.
   return (helloWorldClass->CreateType());
}
*/

int main()
{
   AssemblyName^ assemName = gcnew AssemblyName();
   assemName->Name = "EmittedAssembly";

   // Create a dynamic assembly in the current application domain,
   // specifying that the assembly is to be saved.
   //
   AssemblyBuilder^ myAssembly = 
      AppDomain::CurrentDomain->DefineDynamicAssembly(assemName, 
         AssemblyBuilderAccess::Save);


   // To apply an attribute to a dynamic assembly, first get the 
   // attribute type. The AssemblyFileVersionAttribute sets the 
   // File Version field on the Version tab of the Windows file
   // properties dialog.
   //
   Type^ attributeType = AssemblyFileVersionAttribute::typeid;

   // To identify the constructor, use an array of types representing
   // the constructor's parameter types. This ctor takes a string.
   //
   array<Type^>^ ctorParameters = { String::typeid };

   // Get the constructor for the attribute.
   //
   ConstructorInfo^ ctor = attributeType->GetConstructor(ctorParameters);

   // Pass the constructor and an array of arguments (in this case,
   // an array containing a single string) to the 
   // CustomAttributeBuilder constructor.
   //
   array<Object^>^ ctorArgs = { "2.0.3033.0" };
   CustomAttributeBuilder^ attribute = 
      gcnew CustomAttributeBuilder(ctor, ctorArgs);

   // Finally, apply the attribute to the assembly.
   //
   myAssembly->SetCustomAttribute(attribute);


   // The pattern described above is used to create and apply
   // several more attributes. As it happens, all these attributes
   // have a constructor that takes a string, so the same ctorArgs
   // variable works for all of them.
    

   // The AssemblyTitleAttribute sets the Description field on
   // the General tab and the Version tab of the Windows file 
   // properties dialog.
   //
   attributeType = AssemblyTitleAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   ctorArgs = gcnew array<Object^> { "The Application Title" };
   attribute = gcnew CustomAttributeBuilder(ctor, ctorArgs);
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyCopyrightAttribute sets the Copyright field on
   // the Version tab.
   //
   attributeType = AssemblyCopyrightAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   ctorArgs = gcnew array<Object^> { "� My Example Company 1991-2005" };
   attribute = gcnew CustomAttributeBuilder(ctor, ctorArgs);
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyDescriptionAttribute sets the Comment item.
   //
   attributeType = AssemblyDescriptionAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   attribute = gcnew CustomAttributeBuilder(ctor, 
      gcnew array<Object^> { "This is a comment." });
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyCompanyAttribute sets the Company item.
   //
   attributeType = AssemblyCompanyAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   attribute = gcnew CustomAttributeBuilder(ctor, 
      gcnew array<Object^> { "My Example Company" });
   myAssembly->SetCustomAttribute(attribute);

   // The AssemblyProductAttribute sets the Product Name item.
   //
   attributeType = AssemblyProductAttribute::typeid;
   ctor = attributeType->GetConstructor(ctorParameters);
   attribute = gcnew CustomAttributeBuilder(ctor, 
      gcnew array<Object^> { "My Product Name" });
   myAssembly->SetCustomAttribute(attribute);


   // Define the assembly's only module. For a single-file assembly,
   // the module name is the assembly name.
   //
   ModuleBuilder^ myModule = 
      myAssembly->DefineDynamicModule(assemName->Name, 
         assemName->Name + ".exe");

   // No types or methods are created for this example.


   // Define the unmanaged version information resource, which
   // contains the attribute informaion applied earlier, and save
   // the assembly. Use the Windows Explorer to examine the properties
   // of the .exe file.
   //
   myAssembly->DefineVersionInfoResource();
   myAssembly->Save(assemName->Name + ".exe");
}
using System;
using System.Reflection;
using System.Reflection.Emit;

class Example
{
   public static void Main()
   {
      AssemblyName assemName = new AssemblyName();
      assemName.Name = "EmittedAssembly";

      // Create a dynamic assembly in the current application domain,
      // specifying that the assembly is to be saved.
      //
      AssemblyBuilder myAssembly =
         AppDomain.CurrentDomain.DefineDynamicAssembly(assemName,
            AssemblyBuilderAccess.Save);

      // To apply an attribute to a dynamic assembly, first get the
      // attribute type. The AssemblyFileVersionAttribute sets the
      // File Version field on the Version tab of the Windows file
      // properties dialog.
      //
      Type attributeType = typeof(AssemblyFileVersionAttribute);

      // To identify the constructor, use an array of types representing
      // the constructor's parameter types. This ctor takes a string.
      //
      Type[] ctorParameters = { typeof(string) };

      // Get the constructor for the attribute.
      //
      ConstructorInfo ctor = attributeType.GetConstructor(ctorParameters);

      // Pass the constructor and an array of arguments (in this case,
      // an array containing a single string) to the
      // CustomAttributeBuilder constructor.
      //
      object[] ctorArgs = { "2.0.3033.0" };
      CustomAttributeBuilder attribute =
         new CustomAttributeBuilder(ctor, ctorArgs);

      // Finally, apply the attribute to the assembly.
      //
      myAssembly.SetCustomAttribute(attribute);

      // The pattern described above is used to create and apply
      // several more attributes. As it happens, all these attributes
      // have a constructor that takes a string, so the same ctorArgs
      // variable works for all of them.

      // The AssemblyTitleAttribute sets the Description field on
      // the General tab and the Version tab of the Windows file
      // properties dialog.
      //
      attributeType = typeof(AssemblyTitleAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      ctorArgs = new object[] { "The Application Title" };
      attribute = new CustomAttributeBuilder(ctor, ctorArgs);
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyCopyrightAttribute sets the Copyright field on
      // the Version tab.
      //
      attributeType = typeof(AssemblyCopyrightAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      ctorArgs = new object[] { "© My Example Company 1991-2005" };
      attribute = new CustomAttributeBuilder(ctor, ctorArgs);
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyDescriptionAttribute sets the Comment item.
      //
      attributeType = typeof(AssemblyDescriptionAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      attribute = new CustomAttributeBuilder(ctor,
         new object[] { "This is a comment." });
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyCompanyAttribute sets the Company item.
      //
      attributeType = typeof(AssemblyCompanyAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      attribute = new CustomAttributeBuilder(ctor,
         new object[] { "My Example Company" });
      myAssembly.SetCustomAttribute(attribute);

      // The AssemblyProductAttribute sets the Product Name item.
      //
      attributeType = typeof(AssemblyProductAttribute);
      ctor = attributeType.GetConstructor(ctorParameters);
      attribute = new CustomAttributeBuilder(ctor,
         new object[] { "My Product Name" });
      myAssembly.SetCustomAttribute(attribute);

      // Define the assembly's only module. For a single-file assembly,
      // the module name is the assembly name.
      //
      ModuleBuilder myModule =
         myAssembly.DefineDynamicModule(assemName.Name,
            assemName.Name + ".exe");

      // No types or methods are created for this example.

      // Define the unmanaged version information resource, which
      // contains the attribute informaion applied earlier, and save
      // the assembly. Use the Windows Explorer to examine the properties
      // of the .exe file.
      //
      myAssembly.DefineVersionInfoResource();
      myAssembly.Save(assemName.Name + ".exe");
   }
}
Imports System.Reflection
Imports System.Reflection.Emit

Module Example

   Sub Main()

      Dim assemName As New AssemblyName()
      assemName.Name = "EmittedAssembly"

      ' Create a dynamic assembly in the current application domain,
      ' specifying that the assembly is to be saved.
      '
      Dim myAssembly As AssemblyBuilder = _
         AppDomain.CurrentDomain.DefineDynamicAssembly(assemName, _
            AssemblyBuilderAccess.Save)


      ' To apply an attribute to a dynamic assembly, first get the 
      ' attribute type. The AssemblyFileVersionAttribute sets the 
      ' File Version field on the Version tab of the Windows file
      ' properties dialog.
      '
      Dim attributeType As Type = GetType(AssemblyFileVersionAttribute)

      ' To identify the constructor, use an array of types representing
      ' the constructor's parameter types. This ctor takes a string.
      '
      Dim ctorParameters() As Type = { GetType(String) }

      ' Get the constructor for the attribute.
      '
      Dim ctor As ConstructorInfo = _
                         attributeType.GetConstructor(ctorParameters)

      ' Pass the constructor and an array of arguments (in this case,
      ' an array containing a single string) to the 
      ' CustomAttributeBuilder constructor.
      '
      Dim ctorArgs() As Object = { "2.0.3033.0" }
      Dim attribute As New CustomAttributeBuilder(ctor, ctorArgs)

      ' Finally, apply the attribute to the assembly.
      '
      myAssembly.SetCustomAttribute(attribute)


      ' The pattern described above is used to create and apply
      ' several more attributes. As it happens, all these attributes
      ' have a constructor that takes a string, so the same ctorArgs
      ' variable works for all of them.
      

      ' The AssemblyTitleAttribute sets the Description field on
      ' the General tab and the Version tab of the Windows file 
      ' properties dialog.
      '
      attributeType = GetType(AssemblyTitleAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      ctorArgs = New Object() { "The Application Title" }
      attribute = New CustomAttributeBuilder(ctor, ctorArgs)
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyCopyrightAttribute sets the Copyright field on
      ' the Version tab.
      '
      attributeType = GetType(AssemblyCopyrightAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      ctorArgs = New Object() { "© My Example Company 1991-2005" }
      attribute = New CustomAttributeBuilder(ctor, ctorArgs)
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyDescriptionAttribute sets the Comment item.
      '
      attributeType = GetType(AssemblyDescriptionAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      attribute = New CustomAttributeBuilder(ctor, _
         New Object() { "This is a comment." })
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyCompanyAttribute sets the Company item.
      '
      attributeType = GetType(AssemblyCompanyAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      attribute = New CustomAttributeBuilder(ctor, _
         New Object() { "My Example Company" })
      myAssembly.SetCustomAttribute(attribute)

      ' The AssemblyProductAttribute sets the Product Name item.
      '
      attributeType = GetType(AssemblyProductAttribute)
      ctor = attributeType.GetConstructor(ctorParameters)
      attribute = New CustomAttributeBuilder(ctor, _
         New Object() { "My Product Name" })
      myAssembly.SetCustomAttribute(attribute)


      ' Define the assembly's only module. For a single-file assembly,
      ' the module name is the assembly name.
      '
      Dim myModule As ModuleBuilder = _
         myAssembly.DefineDynamicModule(assemName.Name, _
            assemName.Name & ".exe")

      ' No types or methods are created for this example.


      ' Define the unmanaged version information resource, which
      ' contains the attribute informaion applied earlier, and save
      ' the assembly. Use the Windows Explorer to examine the properties
      ' of the .exe file.
      '
      myAssembly.DefineVersionInfoResource()
      myAssembly.Save(assemName.Name & ".exe")

   End Sub 
End Module

Hinweise

Eine Assembly kann nur einer nicht verwalteten Ressource zugeordnet werden. Dies bedeutet, dass der Aufruf DefineVersionInfoResource oder DefineUnmanagedResource nachdem eine der Methoden zuvor aufgerufen wurde, die System.ArgumentException auslöst. Mehrere nicht verwaltete Ressourcen müssen mit einem Tool wie dem Microsoft-Hilfsprogramm ResMerge zusammengeführt werden (nicht mit dem Common Language Runtime SDK bereitgestellt).

Leere Argumentzeichenfolgen werden als einzelnes Leerzeichen geschrieben. Leerzeichen werden durch NULL-Zeichen in den Argumentzeichenfolgen ersetzt.

Die Struktur der Versionsressource enthält Daten, die die Version, Sprache und Verteilung der Datei identifizieren. Installationsprogramme verwenden die Funktionen in der Dateiinstallationsbibliothek (VER.DLL), um die Versionsinformationsressource aus einer Datei abzurufen und die Versionsinformationsblöcke aus der Ressource zu extrahieren.

Hinweis

Ab dem .NET Framework 2.0 Service Pack 1 benötigt ReflectionPermission dieses Mitglied nicht mehr das ReflectionPermissionFlag.ReflectionEmit Flag. (Siehe Sicherheitsprobleme in Reflektionsausgabe.) Um diese Funktionalität zu verwenden, sollte Ihre Anwendung auf die .NET Framework 3.5 oder höher ausgerichtet sein.

Gilt für: