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GenericTypeParameterBuilder.MakePointerType Method

Definition

Returns a Type object that represents a pointer to the current generic type parameter.

public:
 override Type ^ MakePointerType();
public override Type MakePointerType ();
override this.MakePointerType : unit -> Type
Public Overrides Function MakePointerType () As Type

Returns

A Type object that represents a pointer to the current generic type parameter.

Examples

The following code example creates a dynamic module, an abstract generic type named Sample with one type parameter, T, and an abstract method named TestMethod. TestMethod takes a ref parameter (ByRef in Visual Basic) of type T, a pointer to type T, and an array of T. This method returns a two-dimensional array of T. The code example saves the dynamic module to disk, so you can examine it using the MSIL Disassembler (Ildasm.exe).

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

int main()
{
    // Define a dynamic assembly to contain the sample type. The
    // assembly will not be run, but only saved to disk, so
    // AssemblyBuilderAccess.Save is specified.
    //
    AppDomain^ appDomain = AppDomain::CurrentDomain;
    AssemblyName^ assemblyName = gcnew
        AssemblyName("MakeXxxGenericTypeParameterExample");
    AssemblyBuilder^ assemblyBuilder = appDomain->DefineDynamicAssembly
        (assemblyName, AssemblyBuilderAccess::Save);

    // An assembly is made up of executable modules. For a single
    // module assembly, the module name and file name are the
    // same as the assembly name.
    ModuleBuilder^ moduleBuilder = assemblyBuilder->DefineDynamicModule
        (assemblyName->Name, assemblyName->Name + ".dll");

    // Define the sample type.
    TypeBuilder^ typeBuilder = moduleBuilder->DefineType("Sample",
        TypeAttributes::Public | TypeAttributes::Abstract);

    // Make the sample type a generic type, by defining a type
    // parameter T. All type parameters are defined at the same
    // time, by passing an array containing the type parameter
    // names. 
    array<String^>^ typeParamNames = {"T"};
    array<GenericTypeParameterBuilder^>^ typeParams =
        typeBuilder->DefineGenericParameters(typeParamNames);

    // Define a method that takes a ByRef argument of type T, a
    // pointer to type T, and one-dimensional array of type T.
    // The method returns a two-dimensional array of type T.
    //
    // To create this method, you need Type objects that repre-
    // sent the parameter types and the return type. Use the
    // MakeByRefType, MakePointerType, and MakeArrayType methods
    // to create the Type objects, using the generic type para-
    // meter T.
    //
    Type^ byRefType = typeParams[0]->MakeByRefType();
    Type^ pointerType = typeParams[0]->MakePointerType();
    Type^ arrayType = typeParams[0]->MakeArrayType();
    Type^ twoDimArrayType = typeParams[0]->MakeArrayType(2);

    // Create the array of parameter types.
    array<Type^>^ parameterTypes = {byRefType, pointerType, arrayType};

    // Define the abstract Test method. After you have compiled
    // and run this example code, you can use ildasm.exe to open
    // MakeXxxGenericTypeParameterExample.dll, examine the Sample
    // type, and verify the parameter types and return type of
    // the TestMethod method.
    //
    MethodBuilder^ methodBuilder = typeBuilder->DefineMethod("TestMethod",
        MethodAttributes::Abstract | MethodAttributes::Virtual 
        | MethodAttributes::Public, twoDimArrayType, parameterTypes);

    // Create the type and save the assembly. For a single-file 
    // assembly, there is only one module to store the manifest 
    // information in.
    //
    typeBuilder->CreateType();
    assemblyBuilder->Save(assemblyName->Name + ".dll");
};
using System;
using System.Reflection;
using System.Reflection.Emit;
using Microsoft.VisualBasic;

public class Example
{
    public static void Main()
    {
        // Define a dynamic assembly to contain the sample type. The
        // assembly will not be run, but only saved to disk, so
        // AssemblyBuilderAccess.Save is specified.
        //
        AppDomain myDomain = AppDomain.CurrentDomain;
        AssemblyName myAsmName = new
            AssemblyName("MakeXxxGenericTypeParameterExample");
        AssemblyBuilder myAssembly = myDomain.DefineDynamicAssembly(
            myAsmName, AssemblyBuilderAccess.Save);

        // An assembly is made up of executable modules. For a single-
        // module assembly, the module name and file name are the same
        // as the assembly name.
        //
        ModuleBuilder myModule = myAssembly.DefineDynamicModule(
            myAsmName.Name, myAsmName.Name + ".dll");

        // Define the sample type.
        TypeBuilder myType = myModule.DefineType("Sample",
            TypeAttributes.Public | TypeAttributes.Abstract);

        // Make the sample type a generic type, by defining a type
        // parameter T. All type parameters are defined at the same
        // time, by passing an array containing the type parameter
        // names.
        string[] typeParamNames = {"T"};
        GenericTypeParameterBuilder[] typeParams =
            myType.DefineGenericParameters(typeParamNames);

        // Define a method that takes a ByRef argument of type T, a
        // pointer to type T, and one-dimensional array of type T. The
        // method returns a two-dimensional array of type T.
        //
        // To create this method, you need Type objects that represent the
        // parameter types and the return type. Use the MakeByRefType,
        // MakePointerType, and MakeArrayType methods to create the Type
        // objects, using the generic type parameter T.
        //
        Type byRefType = typeParams[0].MakeByRefType();
        Type pointerType = typeParams[0].MakePointerType();
        Type arrayType = typeParams[0].MakeArrayType();
        Type twoDimArrayType = typeParams[0].MakeArrayType(2);

        // Create the array of parameter types.
        Type[] parameterTypes = {byRefType, pointerType, arrayType};

        // Define the abstract Test method. After you have compiled
        // and run this example code, you can use ildasm.exe to open
        // MakeXxxGenericTypeParameterExample.dll, examine the Sample
        // type, and verify the parameter types and return type of
        // the TestMethod method.
        //
        MethodBuilder myMethodBuilder = myType.DefineMethod(
            "TestMethod",
            MethodAttributes.Abstract | MethodAttributes.Virtual
            | MethodAttributes.Public,
            twoDimArrayType,
            parameterTypes);

        // Create the type and save the assembly. For a single-file
        // assembly, there is only one module to store the manifest
        // information in.
        //
        myType.CreateType();
        myAssembly.Save(myAsmName.Name + ".dll");
    }
}
Imports System.Reflection
Imports System.Reflection.Emit

Public Class Example
    Public Shared Sub Main()
        ' Define a dynamic assembly to contain the sample type. The
        ' assembly will not be run, but only saved to disk, so
        ' AssemblyBuilderAccess.Save is specified.
        '
        Dim myDomain As AppDomain = AppDomain.CurrentDomain
        Dim myAsmName As New AssemblyName("MakeXxxGenericTypeParameterExample")
        Dim myAssembly As AssemblyBuilder = myDomain.DefineDynamicAssembly( _
            myAsmName, _
            AssemblyBuilderAccess.Save)

        ' An assembly is made up of executable modules. For a single-
        ' module assembly, the module name and file name are the same 
        ' as the assembly name. 
        '
        Dim myModule As ModuleBuilder = myAssembly.DefineDynamicModule( _
            myAsmName.Name, _
            myAsmName.Name & ".dll")

        ' Define the sample type.
        Dim myType As TypeBuilder = myModule.DefineType( _
            "Sample", _
            TypeAttributes.Public Or TypeAttributes.Abstract)

        ' Make the sample type a generic type, by defining a type
        ' parameter T. All type parameters are defined at the same
        ' time, by passing an array containing the type parameter
        ' names. 
        Dim typeParamNames() As String = {"T"}
        Dim typeParams() As GenericTypeParameterBuilder = _
            myType.DefineGenericParameters(typeParamNames)

        ' Define a method that takes a ByRef argument of type T, a
        ' pointer to type T, and one-dimensional array of type T. The
        ' method returns a two-dimensional array of type T.
        '
        ' To create this method, you need Type objects that represent the
        ' parameter types and the return type. Use the MakeByRefType, 
        ' MakePointerType, and MakeArrayType methods to create the Type
        ' objects, using the generic type parameter T.
        '
        Dim byRefType As Type = typeParams(0).MakeByRefType
        Dim pointerType As Type = typeParams(0).MakePointerType
        Dim arrayType As Type = typeParams(0).MakeArrayType
        Dim twoDimArrayType As Type = typeParams(0).MakeArrayType(2)

        ' Create the array of parameter types.
        Dim parameterTypes() As Type = _
            {byRefType, pointerType, arrayType}

        ' Define the abstract Test method. After you have compiled
        ' and run this example code, you can use ildasm.exe to open
        ' MakeXxxGenericTypeParameterExample.dll, examine the Sample
        ' type, and verify the parameter types and return type of
        ' the TestMethod method.
        '
        Dim myMethodBuilder As MethodBuilder = myType.DefineMethod( _
            "TestMethod", _
            MethodAttributes.Abstract Or MethodAttributes.Virtual _
                Or MethodAttributes.Public, _
            twoDimArrayType, _
            parameterTypes)

        ' Create the type and save the assembly. For a single-file 
        ' assembly, there is only one module to store the manifest 
        ' information in.
        '
        myType.CreateType()
        myAssembly.Save(myAsmName.Name & ".dll")

    End Sub
End Class

Remarks

The MakePointerType method provides a way to generate pointer types for parameter lists.

Applies to

See also