MethodBuilder.DefineGenericParameters(String[]) Metodo

Definizione

Imposta il numero dei parametri di tipo generico per il metodo corrente, specificandone i nomi, e restituisce una matrice di oggetti GenericTypeParameterBuilder che possono essere usati per definire i vincoli.

public:
 cli::array <System::Reflection::Emit::GenericTypeParameterBuilder ^> ^ DefineGenericParameters(... cli::array <System::String ^> ^ names);
public System.Reflection.Emit.GenericTypeParameterBuilder[] DefineGenericParameters (params string[] names);
member this.DefineGenericParameters : string[] -> System.Reflection.Emit.GenericTypeParameterBuilder[]
Public Function DefineGenericParameters (ParamArray names As String()) As GenericTypeParameterBuilder()

Parametri

names
String[]

Matrice di stringhe che rappresentano i nomi dei parametri di tipo generico.

Restituisce

Matrice di oggetti GenericTypeParameterBuilder che rappresentano i parametri di tipo del metodo generico.

Eccezioni

Parametri di tipo generico sono già stati definiti per questo metodo.

-oppure-

Il metodo è già stato completato.

-oppure-

Il metodo SetImplementationFlags(MethodImplAttributes) è stato chiamato per il metodo corrente.

names è null.

-oppure-

Un elemento di names è null.

names è una matrice vuota.

Esempio

Nell'esempio di codice seguente viene creato un tipo dinamico, DemoType, che contiene il metodo generico DemoMethoddinamico . Questo metodo ha due parametri di tipo generico, uno dei quali viene usato come parametro e l'altro come tipo restituito.

Quando il codice viene eseguito, l'assembly dinamico viene salvato come DemoGenericMethod1.dll e può essere esaminato mediante lo strumento Ildasm.exe (Disassembler IL).

Nota

Questo esempio di codice genera un corpo semplice del metodo che restituisce semplicemente un riferimento Null. Per un esempio di codice con un corpo del metodo più sviluppato che crea e usa tipi generici, vedere Procedura: Definire un metodo generico con Reflection Emit.

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

public ref class GenericReflectionSample
{
};

int main()
{
    // Creating a dynamic assembly requires an AssemblyName
    // object, and the current application domain.
    //
    AssemblyName^ asmName =
        gcnew AssemblyName("EmittedAssembly");
    AppDomain^ domain = AppDomain::CurrentDomain;
    AssemblyBuilder^ sampleAssemblyBuilder =
        domain->DefineDynamicAssembly(asmName,
        AssemblyBuilderAccess::RunAndSave);

    // Define the module that contains the code. For an
    // assembly with one module, the module name is the
    // assembly name plus a file extension.
    ModuleBuilder^ sampleModuleBuilder =
        sampleAssemblyBuilder->DefineDynamicModule(asmName->Name,
        asmName->Name + ".dll");

    TypeBuilder^ sampleTypeBuilder =
        sampleModuleBuilder->DefineType("SampleType",
        TypeAttributes::Public | TypeAttributes::Abstract);

    // Define a Shared, Public method with standard calling
    // conventions. Do not specify the parameter types or the
    // return type, because type parameters will be used for
    // those types, and the type parameters have not been
    // defined yet.
    MethodBuilder^ sampleMethodBuilder =
        sampleTypeBuilder->DefineMethod("SampleMethod",
        MethodAttributes::Public | MethodAttributes::Static);

    // Defining generic parameters for the method makes it a
    // generic method. By convention, type parameters are
    // single alphabetic characters. T and U are used here.
    //
    array<String^>^ genericTypeNames = {"T", "U"};
    array<GenericTypeParameterBuilder^>^ genericTypes =
        sampleMethodBuilder->DefineGenericParameters(
        genericTypeNames);

    // Use the IsGenericMethod property to find out if a
    // dynamic method is generic, and IsGenericMethodDefinition
    // to find out if it defines a generic method.
    Console::WriteLine("Is SampleMethod generic? {0}",
        sampleMethodBuilder->IsGenericMethod);
    Console::WriteLine(
        "Is SampleMethod a generic method definition? {0}",
        sampleMethodBuilder->IsGenericMethodDefinition);

    // Set parameter types for the method. The method takes
    // one parameter, and its type is specified by the first
    // type parameter, T.
    array<Type^>^ parameterTypes = {genericTypes[0]};
    sampleMethodBuilder->SetParameters(parameterTypes);

    // Set the return type for the method. The return type is
    // specified by the second type parameter, U.
    sampleMethodBuilder->SetReturnType(genericTypes[1]);

    // Generate a code body for the method. The method doesn't
    // do anything except return null.
    //
    ILGenerator^ ilgen = sampleMethodBuilder->GetILGenerator();
    ilgen->Emit(OpCodes::Ldnull);
    ilgen->Emit(OpCodes::Ret);

    // Complete the type.
    Type^ sampleType = sampleTypeBuilder->CreateType();

    // To bind types to a dynamic generic method, you must
    // first call the GetMethod method on the completed type.
    // You can then define an array of types, and bind them
    // to the method.
    MethodInfo^ sampleMethodInfo = sampleType->GetMethod("SampleMethod");
    array<Type^>^ boundParameters =
        {String::typeid, GenericReflectionSample::typeid};
    MethodInfo^ boundMethodInfo =
        sampleMethodInfo->MakeGenericMethod(boundParameters);
    // Display a string representing the bound method.
    Console::WriteLine(boundMethodInfo);

    // Save the assembly, so it can be examined with Ildasm.exe.
    sampleAssemblyBuilder->Save(asmName->Name + ".dll");
}

/* This code example produces the following output:
Is SampleMethod generic? True
Is SampleMethod a generic method definition? True
GenericReflectionSample SampleMethod[String,GenericReflectionSample](System.String)
*/
using System;
using System.Reflection;
using System.Reflection.Emit;

class DemoMethodBuilder
{

    public static void Main()
    {
        // Creating a dynamic assembly requires an AssemblyName
        // object, and the current application domain.
        //
        AssemblyName asmName =
            new AssemblyName("DemoMethodBuilder1");
        AppDomain domain = AppDomain.CurrentDomain;
        AssemblyBuilder demoAssembly =
            domain.DefineDynamicAssembly(
                asmName,
                AssemblyBuilderAccess.RunAndSave
            );

        // Define the module that contains the code. For an
        // assembly with one module, the module name is the
        // assembly name plus a file extension.
        ModuleBuilder demoModule =
            demoAssembly.DefineDynamicModule(
                asmName.Name,
                asmName.Name + ".dll"
            );

        TypeBuilder demoType = demoModule.DefineType(
            "DemoType",
            TypeAttributes.Public | TypeAttributes.Abstract
        );

        // Define a Shared, Public method with standard calling
        // conventions. Do not specify the parameter types or the
        // return type, because type parameters will be used for
        // those types, and the type parameters have not been
        // defined yet.
        MethodBuilder demoMethod = demoType.DefineMethod(
            "DemoMethod",
            MethodAttributes.Public | MethodAttributes.Static
        );

        // Defining generic parameters for the method makes it a
        // generic method. By convention, type parameters are
        // single alphabetic characters. T and U are used here.
        //
        string[] typeParamNames = {"T", "U"};
        GenericTypeParameterBuilder[] typeParameters =
            demoMethod.DefineGenericParameters(typeParamNames);

        // The second type parameter is constrained to be a
        // reference type.
        typeParameters[1].SetGenericParameterAttributes(
            GenericParameterAttributes.ReferenceTypeConstraint);

        // Use the IsGenericMethod property to find out if a
        // dynamic method is generic, and IsGenericMethodDefinition
        // to find out if it defines a generic method.
        Console.WriteLine("Is DemoMethod generic? {0}",
            demoMethod.IsGenericMethod);
        Console.WriteLine("Is DemoMethod a generic method definition? {0}",
            demoMethod.IsGenericMethodDefinition);

        // Set parameter types for the method. The method takes
        // one parameter, and its type is specified by the first
        // type parameter, T.
        Type[] parms = {typeParameters[0]};
        demoMethod.SetParameters(parms);

        // Set the return type for the method. The return type is
        // specified by the second type parameter, U.
        demoMethod.SetReturnType(typeParameters[1]);

        // Generate a code body for the method. The method doesn't
        // do anything except return null.
        //
        ILGenerator ilgen = demoMethod.GetILGenerator();
        ilgen.Emit(OpCodes.Ldnull);
        ilgen.Emit(OpCodes.Ret);

        // Complete the type.
        Type dt = demoType.CreateType();

        // To bind types to a dynamic generic method, you must
        // first call the GetMethod method on the completed type.
        // You can then define an array of types, and bind them
        // to the method.
        MethodInfo m = dt.GetMethod("DemoMethod");
        Type[] typeArgs = {typeof(string), typeof(DemoMethodBuilder)};
        MethodInfo bound = m.MakeGenericMethod(typeArgs);
        // Display a string representing the bound method.
        Console.WriteLine(bound);

        // Save the assembly, so it can be examined with Ildasm.exe.
        demoAssembly.Save(asmName.Name + ".dll");
    }
}

/* This code example produces the following output:
Is DemoMethod generic? True
Is DemoMethod a generic method definition? True
DemoMethodBuilder DemoMethod[String,DemoMethodBuilder](System.String)
*/
Imports System.Reflection
Imports System.Reflection.Emit

Class DemoMethodBuilder
   
    Public Shared Sub Main()
        ' Creating a dynamic assembly requires an AssemblyName
        ' object, and the current application domain.
        '
        Dim asmName As New AssemblyName("DemoMethodBuilder1")
        Dim domain As AppDomain = AppDomain.CurrentDomain
        Dim demoAssembly As AssemblyBuilder = _
            domain.DefineDynamicAssembly(asmName, _
                AssemblyBuilderAccess.RunAndSave)

        ' Define the module that contains the code. For an 
        ' assembly with one module, the module name is the 
        ' assembly name plus a file extension.
        Dim demoModule As ModuleBuilder = _
            demoAssembly.DefineDynamicModule( _
                asmName.Name, _
                asmName.Name & ".dll")
      
        Dim demoType As TypeBuilder = demoModule.DefineType( _
            "DemoType", _
            TypeAttributes.Public Or TypeAttributes.Abstract)

        ' Define a Shared, Public method with standard calling
        ' conventions. Do not specify the parameter types or the
        ' return type, because type parameters will be used for 
        ' those types, and the type parameters have not been
        ' defined yet.
        Dim demoMethod As MethodBuilder = _
            demoType.DefineMethod("DemoMethod", _
                MethodAttributes.Public Or MethodAttributes.Static)

        ' Defining generic parameters for the method makes it a
        ' generic method. By convention, type parameters are 
        ' single alphabetic characters. T and U are used here.
        '
        Dim typeParamNames() As String = {"T", "U"}
        Dim typeParameters() As GenericTypeParameterBuilder = _
            demoMethod.DefineGenericParameters(typeParamNames)

        ' The second type parameter is constrained to be a 
        ' reference type.
        typeParameters(1).SetGenericParameterAttributes( _
            GenericParameterAttributes.ReferenceTypeConstraint)

        ' Use the IsGenericMethod property to find out if a
        ' dynamic method is generic, and IsGenericMethodDefinition
        ' to find out if it defines a generic method.
        Console.WriteLine("Is DemoMethod generic? {0}", _
            demoMethod.IsGenericMethod)
        Console.WriteLine("Is DemoMethod a generic method definition? {0}", _
            demoMethod.IsGenericMethodDefinition)

        ' Set parameter types for the method. The method takes
        ' one parameter, and its type is specified by the first
        ' type parameter, T.
        Dim params() As Type = {typeParameters(0)}
        demoMethod.SetParameters(params)

        ' Set the return type for the method. The return type is
        ' specified by the second type parameter, U.
        demoMethod.SetReturnType(typeParameters(1))

        ' Generate a code body for the method. The method doesn't
        ' do anything except return Nothing.
        '
        Dim ilgen As ILGenerator = demoMethod.GetILGenerator()
        ilgen.Emit(OpCodes.Ldnull)
        ilgen.Emit(OpCodes.Ret)

        ' Complete the type.
        Dim dt As Type = demoType.CreateType()

        ' To bind types to a dynamic generic method, you must 
        ' first call the GetMethod method on the completed type.
        ' You can then define an array of types, and bind them
        ' to the method.
        Dim m As MethodInfo = dt.GetMethod("DemoMethod")
        Dim typeArgs() As Type = _
            {GetType(String), GetType(DemoMethodBuilder)}
        Dim bound As MethodInfo = m.MakeGenericMethod(typeArgs)
        ' Display a string representing the bound method.
        Console.WriteLine(bound)

        ' Save the assembly, so it can be examined with Ildasm.exe.
        demoAssembly.Save(asmName.Name & ".dll")
    End Sub  
End Class 

' This code example produces the following output:
'Is DemoMethod generic? True
'Is DemoMethod a generic method definition? True
'DemoMethodBuilder DemoMethod[String,DemoMethodBuilder](System.String)

Commenti

La chiamata al DefineGenericParameters metodo rende generico il metodo corrente. Non è possibile annullare questa modifica. La chiamata a questo metodo una seconda volta causa un oggetto InvalidOperationException.

I parametri di tipo del metodo generico possono essere recuperati in un secondo momento usando il GetGenericArguments metodo .

Per convenzione, un nome di parametro di tipo è una singola lettera maiuscola.

Per altre informazioni, vedere MethodBase.IsGenericMethod e MethodInfo.GetGenericMethodDefinition. Per informazioni sui tipi generici, vedere Type.IsGenericType.

Si applica a

Vedi anche