DynamicMethod.GetILGenerator Methode

Definition

Namespace:

System.Reflection.Emit

Assembly:

System.Reflection.Emit.Lightweight.dll

Gibt einen MSIL-Generator zurück, mit dem ein Textkörper für die dynamische Methode ausgegeben werden kann.

Überlädt

GetILGenerator(Int32)	Gibt für die Methode einen MSIL-Generator (Microsoft Intermediate Language) mit der angegebenen Größe der MSIL-Streams zurück.
GetILGenerator()	Gibt für die Methode einen MSIL-Generator (Microsoft Intermediate Language) mit einer MSIL-Standardstreamgröße von 64 Byte zurück.

GetILGenerator(Int32)

Quelle:

DynamicMethod.CoreCLR.cs

Gibt für die Methode einen MSIL-Generator (Microsoft Intermediate Language) mit der angegebenen Größe der MSIL-Streams zurück.

public:
 System::Reflection::Emit::ILGenerator ^ GetILGenerator(int streamSize);

public System.Reflection.Emit.ILGenerator GetILGenerator (int streamSize);

member this.GetILGenerator : int -> System.Reflection.Emit.ILGenerator

Public Function GetILGenerator (streamSize As Integer) As ILGenerator

Parameter

streamSize

Int32

Die Größe des MSIL-Streams in Bytes.

Gibt zurück

ILGenerator

Ein ILGenerator-Objekt für die Methode mit der angegebenen Größe der MSIL-Streams.

Beispiele

Im folgenden Codebeispiel wird diese Methodenüberladung veranschaulicht. Dieses Codebeispiel ist Teil eines größeren Beispiels, das für die DynamicMethod-Klasse bereitgestellt wird.

// Create an array that specifies the parameter types of the
// overload of Console::WriteLine to be used in Hello.
array<Type^>^ writeStringArgs = { String::typeid };
// Get the overload of Console::WriteLine that has one
// String parameter.
MethodInfo^ writeString = Console::typeid->GetMethod("WriteLine", 
    writeStringArgs);

// Get an ILGenerator and emit a body for the dynamic method,
// using a stream size larger than the IL that will be
// emitted.
ILGenerator^ il = hello->GetILGenerator(256);
// Load the first argument, which is a string, onto the stack.
il->Emit(OpCodes::Ldarg_0);
// Call the overload of Console::WriteLine that prints a string.
il->EmitCall(OpCodes::Call, writeString, nullptr);
// The Hello method returns the value of the second argument;
// to do this, load the onto the stack and return.
il->Emit(OpCodes::Ldarg_1);
il->Emit(OpCodes::Ret);

// Create an array that specifies the parameter types of the
// overload of Console.WriteLine to be used in Hello.
Type[] writeStringArgs = {typeof(string)};
// Get the overload of Console.WriteLine that has one
// String parameter.
MethodInfo writeString = typeof(Console).GetMethod("WriteLine",
    writeStringArgs);

// Get an ILGenerator and emit a body for the dynamic method,
// using a stream size larger than the IL that will be
// emitted.
ILGenerator il = hello.GetILGenerator(256);
// Load the first argument, which is a string, onto the stack.
il.Emit(OpCodes.Ldarg_0);
// Call the overload of Console.WriteLine that prints a string.
il.EmitCall(OpCodes.Call, writeString, null);
// The Hello method returns the value of the second argument;
// to do this, load the onto the stack and return.
il.Emit(OpCodes.Ldarg_1);
il.Emit(OpCodes.Ret);

' Create an array that specifies the parameter types of the
' overload of Console.WriteLine to be used in Hello.
Dim writeStringArgs() As Type = {GetType(String)}
' Get the overload of Console.WriteLine that has one
' String parameter.
Dim writeString As MethodInfo = GetType(Console). _
    GetMethod("WriteLine", writeStringArgs) 

' Get an ILGenerator and emit a body for the dynamic method,
' using a stream size larger than the IL that will be
' emitted.
Dim il As ILGenerator = hello.GetILGenerator(256)
' Load the first argument, which is a string, onto the stack.
il.Emit(OpCodes.Ldarg_0)
' Call the overload of Console.WriteLine that prints a string.
il.EmitCall(OpCodes.Call, writeString, Nothing)
' The Hello method returns the value of the second argument;
' to do this, load the onto the stack and return.
il.Emit(OpCodes.Ldarg_1)
il.Emit(OpCodes.Ret)

Hinweise

Nachdem eine dynamische Methode abgeschlossen wurde, werden alle weiteren Versuche, MSIL hinzuzufügen, durch Aufrufen der CreateDelegate -Methode oder Invoke ignoriert. Es wird keine Ausnahme ausgelöst.

Hinweis

Es gibt Einschränkungen für nicht überprüfbaren Code in dynamischen Methoden, selbst in einigen voll vertrauenswürdigen Szenarien. Weitere Informationen finden Sie im Abschnitt „Überprüfung“ für DynamicMethod.

Weitere Informationen

• How to: Definieren und Ausführen von dynamischen Methoden

GetILGenerator()

Quelle:

DynamicMethod.cs

Gibt für die Methode einen MSIL-Generator (Microsoft Intermediate Language) mit einer MSIL-Standardstreamgröße von 64 Byte zurück.

public:
 System::Reflection::Emit::ILGenerator ^ GetILGenerator();

public System.Reflection.Emit.ILGenerator GetILGenerator ();

member this.GetILGenerator : unit -> System.Reflection.Emit.ILGenerator

Public Function GetILGenerator () As ILGenerator

Gibt zurück

ILGenerator

Ein ILGenerator-Objekt für die Methode.

Beispiele

Im folgenden Codebeispiel wird eine dynamische Methode erstellt, die zwei Parameter akzeptiert. Im Beispiel wird ein einfacher Funktionstext ausgegeben, der den ersten Parameter an die Konsole ausgibt, und im Beispiel wird der zweite Parameter als Rückgabewert der -Methode verwendet. Im Beispiel wird die -Methode durch Erstellen eines Delegaten abgeschlossen, der Delegat mit verschiedenen Parametern aufgerufen und schließlich die dynamische Methode mithilfe der Invoke -Methode aufgerufen.

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

public ref class Test
{   
};

// Declare a delegate that will be used to execute the completed
// dynamic method.
delegate int HelloInvoker(String^ msg, int ret);

int main()
{
    // Create an array that specifies the types of the parameters
    // of the dynamic method. This method has a string parameter
    // and an int parameter.
    array<Type^>^ helloArgs = {String::typeid, int::typeid};

    // Create a dynamic method with the name "Hello", a return type
    // of int, and two parameters whose types are specified by the
    // array helloArgs. Create the method in the module that
    // defines the Test class.
    DynamicMethod^ hello = gcnew DynamicMethod("Hello", 
        int::typeid,
        helloArgs,
        Test::typeid->Module);

    // Create an array that specifies the parameter types of the
    // overload of Console.WriteLine to be used in Hello.
    array<Type^>^ writeStringArgs = {String::typeid};
    // Get the overload of Console.WriteLine that has one
    // String parameter.
    MethodInfo^ writeString =
        Console::typeid->GetMethod("WriteLine", writeStringArgs);

    // Get an ILGenerator and emit a body for the dynamic method.
    ILGenerator^ ilgen = hello->GetILGenerator();
    // Load the first argument, which is a string, onto the stack.
    ilgen->Emit(OpCodes::Ldarg_0);
    // Call the overload of Console.WriteLine that prints a string.
    ilgen->EmitCall(OpCodes::Call, writeString, nullptr);
    // The Hello method returns the value of the second argument;
    // to do this, load the onto the stack and return.
    ilgen->Emit(OpCodes::Ldarg_1);
    ilgen->Emit(OpCodes::Ret);

    // Create a delegate that represents the dynamic method. This
    // action completes the method, and any further attempts to
    // change the method will cause an exception.
    HelloInvoker^ helloDelegate =
        (HelloInvoker^) hello->CreateDelegate(HelloInvoker::typeid);

    // Use the delegate to execute the dynamic method. Save and
    // print the return value.
    int returnValue = helloDelegate("\r\nHello, World!", 42);
    Console::WriteLine("helloDelegate(\"Hello, World!\", 42) returned {0}",
        returnValue);

    // Do it again, with different arguments.
    returnValue = helloDelegate("\r\nHi, Mom!", 5280);
    Console::WriteLine("helloDelegate(\"Hi, Mom!\", 5280) returned {0}",
        returnValue);

    // Create an array of arguments to use with the Invoke method.
    array<Object^>^ delegateArgs = {"\r\nHello, World!", 42};
    // Invoke the dynamic method using the arguments. This is much
    // slower than using the delegate, because you must create an
    // array to contain the arguments, and ValueType arguments
    // must be boxed.
    Object^ returnValueObject = hello->Invoke(nullptr, delegateArgs);
    Console::WriteLine("hello.Invoke returned {0}", returnValueObject);
}

using System;
using System.Reflection;
using System.Reflection.Emit;
using Microsoft.VisualBasic;

public class Test
{
    // Declare a delegate that will be used to execute the completed
    // dynamic method.
    private delegate int HelloInvoker(string msg, int ret);

    public static void Main()
    {
        // Create an array that specifies the types of the parameters
        // of the dynamic method. This method has a string parameter
        // and an int parameter.
        Type[] helloArgs = {typeof(string), typeof(int)};

        // Create a dynamic method with the name "Hello", a return type
        // of int, and two parameters whose types are specified by the
        // array helloArgs. Create the method in the module that
        // defines the Test class.
        DynamicMethod hello = new DynamicMethod("Hello",
            typeof(int),
            helloArgs,
            typeof(Test).Module);

        // Create an array that specifies the parameter types of the
        // overload of Console.WriteLine to be used in Hello.
        Type[] writeStringArgs = {typeof(string)};
        // Get the overload of Console.WriteLine that has one
        // String parameter.
        MethodInfo writeString =
            typeof(Console).GetMethod("WriteLine", writeStringArgs);

        // Get an ILGenerator and emit a body for the dynamic method.
        ILGenerator il = hello.GetILGenerator();
        // Load the first argument, which is a string, onto the stack.
        il.Emit(OpCodes.Ldarg_0);
        // Call the overload of Console.WriteLine that prints a string.
        il.EmitCall(OpCodes.Call, writeString, null);
        // The Hello method returns the value of the second argument;
        // to do this, load the onto the stack and return.
        il.Emit(OpCodes.Ldarg_1);
        il.Emit(OpCodes.Ret);

        // Create a delegate that represents the dynamic method. This
        // action completes the method, and any further attempts to
        // change the method will cause an exception.
        HelloInvoker hi =
            (HelloInvoker) hello.CreateDelegate(typeof(HelloInvoker));

        // Use the delegate to execute the dynamic method. Save and
        // print the return value.
        int retval = hi("\r\nHello, World!", 42);
        Console.WriteLine("Executing delegate hi(\"Hello, World!\", 42) returned {0}",
            retval);

        // Do it again, with different arguments.
        retval = hi("\r\nHi, Mom!", 5280);
        Console.WriteLine("Executing delegate hi(\"Hi, Mom!\", 5280) returned {0}",
            retval);

        // Create an array of arguments to use with the Invoke method.
        object[] invokeArgs = {"\r\nHello, World!", 42};
        // Invoke the dynamic method using the arguments. This is much
        // slower than using the delegate, because you must create an
        // array to contain the arguments, and ValueType arguments
        // must be boxed.
        object objRet = hello.Invoke(null, invokeArgs);
        Console.WriteLine("hello.Invoke returned {0}", objRet);
    }
}

Imports System.Reflection
Imports System.Reflection.Emit

Public Class Test
    ' Declare a delegate that will be used to execute the completed
    ' dynamic method. 
    Private Delegate Function HelloInvoker(ByVal msg As String, _
        ByVal ret As Integer) As Integer

    Public Shared Sub Main()
        ' Create an array that specifies the types of the parameters
        ' of the dynamic method. This method has a String parameter
        ' and an Integer parameter.
        Dim helloArgs() As Type = {GetType(String), GetType(Integer)}

        ' Create a dynamic method with the name "Hello", a return type
        ' of Integer, and two parameters whose types are specified by
        ' the array helloArgs. Create the method in the module that
        ' defines the Test class.
        Dim hello As New DynamicMethod("Hello", _
            GetType(Integer), _
            helloArgs, _
            GetType(Test).Module)

        ' Create an array that specifies the parameter types of the
        ' overload of Console.WriteLine to be used in Hello.
        Dim writeStringArgs() As Type = {GetType(String)}
        ' Get the overload of Console.WriteLine that has one
        ' String parameter.
        Dim writeString As MethodInfo = GetType(Console). _
            GetMethod("WriteLine", writeStringArgs) 

        ' Get an ILGenerator and emit a body for the dynamic method.
        Dim il As ILGenerator = hello.GetILGenerator()
        ' Load the first argument, which is a string, onto the stack.
        il.Emit(OpCodes.Ldarg_0)
        ' Call the overload of Console.WriteLine that prints a string.
        il.EmitCall(OpCodes.Call, writeString, Nothing)
        ' The Hello method returns the value of the second argument;
        ' to do this, load the onto the stack and return.
        il.Emit(OpCodes.Ldarg_1)
        il.Emit(OpCodes.Ret)

        ' Create a delegate that represents the dynamic method. This
        ' action completes the method, and any further attempts to
        ' change the method will cause an exception.
    Dim hi As HelloInvoker = _
            hello.CreateDelegate(GetType(HelloInvoker))

        ' Use the delegate to execute the dynamic method. Save and
        ' print the return value.
        Dim retval As Integer = hi(vbCrLf & "Hello, World!", 42)
        Console.WriteLine("Executing delegate hi(""Hello, World!"", 42) returned " _
            & retval)

        ' Do it again, with different arguments.
        retval = hi(vbCrLf & "Hi, Mom!", 5280)
        Console.WriteLine("Executing delegate hi(""Hi, Mom!"", 5280) returned " _
            & retval)

        ' Create an array of arguments to use with the Invoke method.
        Dim invokeArgs() As Object = {vbCrLf & "Hello, World!", 42}
        ' Invoke the dynamic method using the arguments. This is much
        ' slower than using the delegate, because you must create an
        ' array to contain the arguments, and ValueType arguments
        ' must be boxed. Note that this overload of Invoke is 
        ' inherited from MethodBase, and simply calls the more 
        ' complete overload of Invoke.
        Dim objRet As Object = hello.Invoke(Nothing, invokeArgs)
        Console.WriteLine("hello.Invoke returned " & objRet)
    End Sub
End Class

' This code example produces the following output:
'
'Hello, World!
'Executing delegate hi("Hello, World!", 42) returned 42
'
'Hi, Mom!
'Executing delegate hi("Hi, Mom!", 5280) returned 5280
'
'Hello, World!
'hello.Invoke returned 42
'

Hinweise

Nachdem eine dynamische Methode abgeschlossen wurde, werden alle weiteren Versuche, MSIL hinzuzufügen, durch Aufrufen der CreateDelegate -Methode oder Invoke ignoriert. Es wird keine Ausnahme ausgelöst.

Hinweis

Es gibt Einschränkungen für nicht überprüfbaren Code in dynamischen Methoden, selbst in einigen voll vertrauenswürdigen Szenarien. Weitere Informationen finden Sie im Abschnitt „Überprüfung“ für DynamicMethod.

Weitere Informationen

• How to: Definieren und Ausführen von dynamischen Methoden