ParameterInfo.IsIn Eigenschap

public:
 property bool IsIn { bool get(); };

public bool IsIn { get; }

member this.IsIn : bool

Public ReadOnly Property IsIn As Boolean

Waarde van eigenschap

true als de parameter een invoerparameter is; anders, false.

Voorbeelden

In het volgende voorbeeld ziet u hoe u methodeparameters voor de ParameterAttributes.In, ParameterAttributes.Outen ParameterAttributes.Optional kenmerken test.

Het voorbeeld bevat een DefineMethod methode die het volgende doet:

• Hiermee maakt u een dynamische assembly met een MyType type.

• Hiermee voegt u een MyMethod methode toe aan MyType. MyMethod heeft drie parameters. De eerste parameter wordt gedefinieerd met ParameterAttributes.In, de tweede met ParameterAttributes.Out, en de derde met ParameterAttributes.Optional.

• Aanroepen TypeBuilder.CreateType om het type te voltooien.

Na het uitvoeren DefineMethodwordt in het voorbeeld gezocht naar de assembly's die momenteel zijn geladen totdat de dynamische assembly wordt gevonden. Het laadt MyType uit de assembly, haalt een MethodInfo object voor de MyMethod methode op en onderzoekt de parameters. In het voorbeeld worden de IsIn, IsOuten IsOptional eigenschappen gebruikt om informatie over de parameters weer te geven.

using System;
using System.Reflection;
using System.Threading;
using System.Reflection.Emit;

public class ParameterInfo_IsIn_IsOut_IsOptional
{
   public static void DefineMethod()
   {
      AssemblyName myAssemblyName = new AssemblyName();
      myAssemblyName.Name = "MyAssembly";
      // Get the assembly builder from the application domain associated with the current thread.
      AssemblyBuilder myAssemblyBuilder = Thread.GetDomain().DefineDynamicAssembly(myAssemblyName, AssemblyBuilderAccess.RunAndSave);
      // Create a dynamic module in the assembly.
      ModuleBuilder myModuleBuilder = myAssemblyBuilder.DefineDynamicModule("MyModule", "MyAssembly.dll");
      // Create a type in the module.
      TypeBuilder myTypeBuilder = myModuleBuilder.DefineType("MyType");
      // Create a method called MyMethod.
      MethodBuilder myMethodBuilder = myTypeBuilder.DefineMethod("MyMethod",MethodAttributes.Public | MethodAttributes.HideBySig |
                                                                           MethodAttributes.Static, typeof(string), new Type[] {typeof(int), typeof(short), typeof(long)});
      // Set the attributes for the parameters of the method.
      // Set the attribute for the first parameter to IN.
      ParameterBuilder myParameterBuilder = myMethodBuilder.DefineParameter(1, ParameterAttributes.In, "MyIntParameter");
      // Set the attribute for the second parameter to OUT.
      myParameterBuilder = myMethodBuilder.DefineParameter(2, ParameterAttributes.Out, "MyShortParameter");
      // Set the attribute for the third parameter to OPTIONAL.
      myParameterBuilder = myMethodBuilder.DefineParameter(3, ParameterAttributes.Optional | ParameterAttributes.HasDefault, "MyLongParameter");
      // Get the Microsoft Intermediate Language generator for the method.
      ILGenerator myILGenerator = myMethodBuilder.GetILGenerator();
      // Use the utility method to generate the MSIL instructions that print a string to the console.
      myILGenerator.EmitWriteLine("Hello World!");
      // Generate the "ret" MSIL instruction.
      myILGenerator.Emit(OpCodes.Ret);
      // End the creation of the type.
      myTypeBuilder.CreateType();
   }

   public static void Main()
   {
      // Create a dynamic assembly with a type named MyType.
      DefineMethod();

      // Get the assemblies currently loaded in the application domain.
      Assembly[] myAssemblies = Thread.GetDomain().GetAssemblies();
      Assembly myAssembly = null;
      // Get the assembly named MyAssembly.
      for(int i = 0; i < myAssemblies.Length; i++)
         if(String.Compare(myAssemblies[i].GetName(false).Name, "MyAssembly") == 0)
            myAssembly = myAssemblies[i];

      if(myAssembly != null)
      {
         // Get a type named MyType.
         Type myType = myAssembly.GetType("MyType");
         // Get a method named MyMethod from the type.
         MethodBase myMethodBase = myType.GetMethod("MyMethod");
         // Get the parameters associated with the method.
         ParameterInfo[] myParameters = myMethodBase.GetParameters();
         Console.WriteLine("\nThe method {0} has the {1} parameters :",
            myMethodBase, myParameters.Length);
         // Print the IN, OUT and OPTIONAL attributes associated with each of the parameters.
         for(int i = 0; i < myParameters.Length; i++)
         {
            if(myParameters[i].IsIn)
               Console.WriteLine("\tThe {0} parameter has the In attribute",
                                       i + 1);
            if(myParameters[i].IsOptional)
               Console.WriteLine("\tThe {0} parameter has the Optional attribute",
                                       i + 1);
            if(myParameters[i].IsOut)
               Console.WriteLine("\tThe {0} parameter has the Out attribute",
                                       i + 1);
         }
      }
      else
        {
            Console.WriteLine("Could not find a assembly named 'MyAssembly' for the current application domain");
        }
    }
}

Imports System.Reflection
Imports System.Threading
Imports System.Reflection.Emit

Public Class ParameterInfo_IsIn_IsOut_IsOptional
   
   Public Shared Sub DefineMethod()
      Dim myAssemblyName As New AssemblyName()
      myAssemblyName.Name = "MyAssembly"
      ' Get the assesmbly builder from the application domain associated with the current thread.
      Dim myAssemblyBuilder As AssemblyBuilder = Thread.GetDomain().DefineDynamicAssembly(myAssemblyName, AssemblyBuilderAccess.RunAndSave)
      ' Create a dynamic module in the assembly.
      Dim myModuleBuilder As ModuleBuilder = myAssemblyBuilder.DefineDynamicModule("MyModule", "MyAssembly.dll")
      ' Create a type in the module.
      Dim myTypeBuilder As TypeBuilder = myModuleBuilder.DefineType("MyType")
      ' Create a method called MyMethod.
      Dim myMethodBuilder As MethodBuilder = myTypeBuilder.DefineMethod("MyMethod", MethodAttributes.Public Or MethodAttributes.HideBySig Or MethodAttributes.Static, GetType(String), New Type() {GetType(Integer), GetType(Short), GetType(Long)})
      ' Set the attributes for the parameters of the method.
      ' Set the attribute for the first parameter to IN.
      Dim myParameterBuilder As ParameterBuilder = myMethodBuilder.DefineParameter(1, ParameterAttributes.In, "MyIntParameter")
      ' Set the attribute for the second parameter to OUT.
      myParameterBuilder = myMethodBuilder.DefineParameter(2, ParameterAttributes.Out, "MyShortParameter")
      ' Set the attribute for the third parameter to OPTIONAL.
      myParameterBuilder = myMethodBuilder.DefineParameter(3, ParameterAttributes.Optional Or ParameterAttributes.HasDefault, "MyLongParameter")
      ' Get the Microsoft Intermediate Language generator for the method.
      Dim myILGenerator As ILGenerator = myMethodBuilder.GetILGenerator()
      ' Use the utility method to generate the MSIL instructions that print a string to the console.
      myILGenerator.EmitWriteLine("Hello World!")
      ' Generate the "ret" MSIL instruction.
      myILGenerator.Emit(OpCodes.Ret)
      ' End the creation of the type.
      myTypeBuilder.CreateType()
   End Sub
   
   
   Public Shared Sub Main()
      ' Create a dynamic assembly with a type named 'MyType'.
      DefineMethod()
      
      ' Get the assemblies currently loaded in the application domain.
      Dim myAssemblies As [Assembly]() = Thread.GetDomain().GetAssemblies()
      Dim myAssembly As [Assembly] = Nothing
      ' Get the assembly named MyAssembly.
      Dim i As Integer
      For i = 0 To myAssemblies.Length - 1
         If [String].Compare(myAssemblies(i).GetName(False).Name, "MyAssembly") = 0 Then
            myAssembly = myAssemblies(i)
         End If 
      Next i
      If Not (myAssembly Is Nothing) Then
         ' Get a type named MyType.
         Dim myType As Type = myAssembly.GetType("MyType")
         ' Get a method named MyMethod from the type.
         Dim myMethodBase As MethodBase = myType.GetMethod("MyMethod")
         ' Get the parameters associated with the method.
         Dim myParameters As ParameterInfo() = myMethodBase.GetParameters()
         Console.WriteLine(ControlChars.Cr + "The method {0} has the {1} parameters :", myMethodBase, myParameters.Length)
         ' Print the IN, OUT and OPTIONAL attributes associated with each of the parameters.
         For i = 0 To myParameters.Length - 1
            If myParameters(i).IsIn Then
               Console.WriteLine(ControlChars.Tab + "The {0} parameter has the In attribute", i + 1)
            End If
            If myParameters(i).IsOptional Then
               Console.WriteLine(ControlChars.Tab + "The {0} parameter has the Optional attribute", i + 1)
            End If
            If myParameters(i).IsOut Then
               Console.WriteLine(ControlChars.Tab + "The {0} parameter has the Out attribute", i + 1)
            End If
         Next i
      Else
         Console.WriteLine("Could not find a assembly named 'MyAssembly' for the current application domain")
      End If
   End Sub
End Class

Opmerkingen

Deze methode is afhankelijk van een optionele metagegevensvlag. Deze vlag kan worden ingevoegd door compilers, maar de compilers zijn niet verplicht dit te doen.

Deze methode maakt gebruik van de In vlag van de ParameterAttributes enumerator.

Als u de ParameterInfo matrix wilt ophalen, moet u eerst de methode of de constructor ophalen en vervolgens aanroepen MethodBase.GetParameters.