ILGenerator.MarkLabel(Label) Método
Definição
Importante
Algumas informações se referem a produtos de pré-lançamento que podem ser substancialmente modificados antes do lançamento. A Microsoft não oferece garantias, expressas ou implícitas, das informações aqui fornecidas.
Marca a posição atual do fluxo da MSIL (Microsoft Intermediate Language) com o rótulo fornecido.
public:
virtual void MarkLabel(System::Reflection::Emit::Label loc);
public:
abstract void MarkLabel(System::Reflection::Emit::Label loc);
public virtual void MarkLabel (System.Reflection.Emit.Label loc);
public abstract void MarkLabel (System.Reflection.Emit.Label loc);
abstract member MarkLabel : System.Reflection.Emit.Label -> unit
override this.MarkLabel : System.Reflection.Emit.Label -> unit
abstract member MarkLabel : System.Reflection.Emit.Label -> unit
Public Overridable Sub MarkLabel (loc As Label)
Public MustOverride Sub MarkLabel (loc As Label)
Parâmetros
- loc
- Label
O rótulo para o qual definir um índice.
Exceções
loc
representa um índice inválido para a matriz do rótulo.
- ou -
Um índice para loc
já foi definido.
Exemplos
O exemplo de código abaixo demonstra o uso contextual de MarkLabel
para implementar a ramificação MSIL em um método dinâmico.
using namespace System;
using namespace System::Threading;
using namespace System::Reflection;
using namespace System::Reflection::Emit;
Type^ BuildMyType()
{
AppDomain^ myDomain = Thread::GetDomain();
AssemblyName^ myAsmName = gcnew AssemblyName;
myAsmName->Name = "MyDynamicAssembly";
AssemblyBuilder^ myAsmBuilder = myDomain->DefineDynamicAssembly( myAsmName, AssemblyBuilderAccess::Run );
ModuleBuilder^ myModBuilder = myAsmBuilder->DefineDynamicModule( "MyJumpTableDemo" );
TypeBuilder^ myTypeBuilder = myModBuilder->DefineType( "JumpTableDemo", TypeAttributes::Public );
array<Type^>^temp0 = {int::typeid};
MethodBuilder^ myMthdBuilder = myTypeBuilder->DefineMethod( "SwitchMe", static_cast<MethodAttributes>(MethodAttributes::Public | MethodAttributes::Static), String::typeid, temp0 );
ILGenerator^ myIL = myMthdBuilder->GetILGenerator();
Label defaultCase = myIL->DefineLabel();
Label endOfMethod = myIL->DefineLabel();
// We are initializing our jump table. Note that the labels
// will be placed later using the MarkLabel method.
array<Label>^jumpTable = gcnew array<Label>(5);
jumpTable[ 0 ] = myIL->DefineLabel();
jumpTable[ 1 ] = myIL->DefineLabel();
jumpTable[ 2 ] = myIL->DefineLabel();
jumpTable[ 3 ] = myIL->DefineLabel();
jumpTable[ 4 ] = myIL->DefineLabel();
// arg0, the number we passed, is pushed onto the stack.
// In this case, due to the design of the code sample,
// the value pushed onto the stack happens to match the
// index of the label (in IL terms, the index of the offset
// in the jump table). If this is not the case, such as
// when switching based on non-integer values, rules for the correspondence
// between the possible case values and each index of the offsets
// must be established outside of the ILGenerator::Emit calls,
// much as a compiler would.
myIL->Emit( OpCodes::Ldarg_0 );
myIL->Emit( OpCodes::Switch, jumpTable );
// Branch on default case
myIL->Emit( OpCodes::Br_S, defaultCase );
// Case arg0 = 0
myIL->MarkLabel( jumpTable[ 0 ] );
myIL->Emit( OpCodes::Ldstr, "are no bananas" );
myIL->Emit( OpCodes::Br_S, endOfMethod );
// Case arg0 = 1
myIL->MarkLabel( jumpTable[ 1 ] );
myIL->Emit( OpCodes::Ldstr, "is one banana" );
myIL->Emit( OpCodes::Br_S, endOfMethod );
// Case arg0 = 2
myIL->MarkLabel( jumpTable[ 2 ] );
myIL->Emit( OpCodes::Ldstr, "are two bananas" );
myIL->Emit( OpCodes::Br_S, endOfMethod );
// Case arg0 = 3
myIL->MarkLabel( jumpTable[ 3 ] );
myIL->Emit( OpCodes::Ldstr, "are three bananas" );
myIL->Emit( OpCodes::Br_S, endOfMethod );
// Case arg0 = 4
myIL->MarkLabel( jumpTable[ 4 ] );
myIL->Emit( OpCodes::Ldstr, "are four bananas" );
myIL->Emit( OpCodes::Br_S, endOfMethod );
// Default case
myIL->MarkLabel( defaultCase );
myIL->Emit( OpCodes::Ldstr, "are many bananas" );
myIL->MarkLabel( endOfMethod );
myIL->Emit( OpCodes::Ret );
return myTypeBuilder->CreateType();
}
int main()
{
Type^ myType = BuildMyType();
Console::Write( "Enter an integer between 0 and 5: " );
int theValue = Convert::ToInt32( Console::ReadLine() );
Console::WriteLine( "---" );
Object^ myInstance = Activator::CreateInstance( myType, gcnew array<Object^>(0) );
array<Object^>^temp1 = {theValue};
Console::WriteLine( "Yes, there {0} today!", myType->InvokeMember( "SwitchMe", BindingFlags::InvokeMethod, nullptr, myInstance, temp1 ) );
}
using System;
using System.Threading;
using System.Reflection;
using System.Reflection.Emit;
class DynamicJumpTableDemo
{
public static Type BuildMyType()
{
AppDomain myDomain = Thread.GetDomain();
AssemblyName myAsmName = new AssemblyName();
myAsmName.Name = "MyDynamicAssembly";
AssemblyBuilder myAsmBuilder = myDomain.DefineDynamicAssembly(
myAsmName,
AssemblyBuilderAccess.Run);
ModuleBuilder myModBuilder = myAsmBuilder.DefineDynamicModule(
"MyJumpTableDemo");
TypeBuilder myTypeBuilder = myModBuilder.DefineType("JumpTableDemo",
TypeAttributes.Public);
MethodBuilder myMthdBuilder = myTypeBuilder.DefineMethod("SwitchMe",
MethodAttributes.Public |
MethodAttributes.Static,
typeof(string),
new Type[] {typeof(int)});
ILGenerator myIL = myMthdBuilder.GetILGenerator();
Label defaultCase = myIL.DefineLabel();
Label endOfMethod = myIL.DefineLabel();
// We are initializing our jump table. Note that the labels
// will be placed later using the MarkLabel method.
Label[] jumpTable = new Label[] { myIL.DefineLabel(),
myIL.DefineLabel(),
myIL.DefineLabel(),
myIL.DefineLabel(),
myIL.DefineLabel() };
// arg0, the number we passed, is pushed onto the stack.
// In this case, due to the design of the code sample,
// the value pushed onto the stack happens to match the
// index of the label (in IL terms, the index of the offset
// in the jump table). If this is not the case, such as
// when switching based on non-integer values, rules for the correspondence
// between the possible case values and each index of the offsets
// must be established outside of the ILGenerator.Emit calls,
// much as a compiler would.
myIL.Emit(OpCodes.Ldarg_0);
myIL.Emit(OpCodes.Switch, jumpTable);
// Branch on default case
myIL.Emit(OpCodes.Br_S, defaultCase);
// Case arg0 = 0
myIL.MarkLabel(jumpTable[0]);
myIL.Emit(OpCodes.Ldstr, "are no bananas");
myIL.Emit(OpCodes.Br_S, endOfMethod);
// Case arg0 = 1
myIL.MarkLabel(jumpTable[1]);
myIL.Emit(OpCodes.Ldstr, "is one banana");
myIL.Emit(OpCodes.Br_S, endOfMethod);
// Case arg0 = 2
myIL.MarkLabel(jumpTable[2]);
myIL.Emit(OpCodes.Ldstr, "are two bananas");
myIL.Emit(OpCodes.Br_S, endOfMethod);
// Case arg0 = 3
myIL.MarkLabel(jumpTable[3]);
myIL.Emit(OpCodes.Ldstr, "are three bananas");
myIL.Emit(OpCodes.Br_S, endOfMethod);
// Case arg0 = 4
myIL.MarkLabel(jumpTable[4]);
myIL.Emit(OpCodes.Ldstr, "are four bananas");
myIL.Emit(OpCodes.Br_S, endOfMethod);
// Default case
myIL.MarkLabel(defaultCase);
myIL.Emit(OpCodes.Ldstr, "are many bananas");
myIL.MarkLabel(endOfMethod);
myIL.Emit(OpCodes.Ret);
return myTypeBuilder.CreateType();
}
public static void Main()
{
Type myType = BuildMyType();
Console.Write("Enter an integer between 0 and 5: ");
int theValue = Convert.ToInt32(Console.ReadLine());
Console.WriteLine("---");
Object myInstance = Activator.CreateInstance(myType, new object[0]);
Console.WriteLine("Yes, there {0} today!", myType.InvokeMember("SwitchMe",
BindingFlags.InvokeMethod,
null,
myInstance,
new object[] {theValue}));
}
}
Imports System.Threading
Imports System.Reflection
Imports System.Reflection.Emit
_
Class DynamicJumpTableDemo
Public Shared Function BuildMyType() As Type
Dim myDomain As AppDomain = Thread.GetDomain()
Dim myAsmName As New AssemblyName()
myAsmName.Name = "MyDynamicAssembly"
Dim myAsmBuilder As AssemblyBuilder = myDomain.DefineDynamicAssembly(myAsmName, _
AssemblyBuilderAccess.Run)
Dim myModBuilder As ModuleBuilder = myAsmBuilder.DefineDynamicModule("MyJumpTableDemo")
Dim myTypeBuilder As TypeBuilder = myModBuilder.DefineType("JumpTableDemo", _
TypeAttributes.Public)
Dim myMthdBuilder As MethodBuilder = myTypeBuilder.DefineMethod("SwitchMe", _
MethodAttributes.Public Or MethodAttributes.Static, _
GetType(String), New Type() {GetType(Integer)})
Dim myIL As ILGenerator = myMthdBuilder.GetILGenerator()
Dim defaultCase As Label = myIL.DefineLabel()
Dim endOfMethod As Label = myIL.DefineLabel()
' We are initializing our jump table. Note that the labels
' will be placed later using the MarkLabel method.
Dim jumpTable() As Label = {myIL.DefineLabel(), _
myIL.DefineLabel(), _
myIL.DefineLabel(), _
myIL.DefineLabel(), _
myIL.DefineLabel()}
' arg0, the number we passed, is pushed onto the stack.
' In this case, due to the design of the code sample,
' the value pushed onto the stack happens to match the
' index of the label (in IL terms, the index of the offset
' in the jump table). If this is not the case, such as
' when switching based on non-integer values, rules for the correspondence
' between the possible case values and each index of the offsets
' must be established outside of the ILGenerator.Emit calls,
' much as a compiler would.
myIL.Emit(OpCodes.Ldarg_0)
myIL.Emit(OpCodes.Switch, jumpTable)
' Branch on default case
myIL.Emit(OpCodes.Br_S, defaultCase)
' Case arg0 = 0
myIL.MarkLabel(jumpTable(0))
myIL.Emit(OpCodes.Ldstr, "are no bananas")
myIL.Emit(OpCodes.Br_S, endOfMethod)
' Case arg0 = 1
myIL.MarkLabel(jumpTable(1))
myIL.Emit(OpCodes.Ldstr, "is one banana")
myIL.Emit(OpCodes.Br_S, endOfMethod)
' Case arg0 = 2
myIL.MarkLabel(jumpTable(2))
myIL.Emit(OpCodes.Ldstr, "are two bananas")
myIL.Emit(OpCodes.Br_S, endOfMethod)
' Case arg0 = 3
myIL.MarkLabel(jumpTable(3))
myIL.Emit(OpCodes.Ldstr, "are three bananas")
myIL.Emit(OpCodes.Br_S, endOfMethod)
' Case arg0 = 4
myIL.MarkLabel(jumpTable(4))
myIL.Emit(OpCodes.Ldstr, "are four bananas")
myIL.Emit(OpCodes.Br_S, endOfMethod)
' Default case
myIL.MarkLabel(defaultCase)
myIL.Emit(OpCodes.Ldstr, "are many bananas")
myIL.MarkLabel(endOfMethod)
myIL.Emit(OpCodes.Ret)
Return myTypeBuilder.CreateType()
End Function 'BuildMyType
Public Shared Sub Main()
Dim myType As Type = BuildMyType()
Console.Write("Enter an integer between 0 and 5: ")
Dim theValue As Integer = Convert.ToInt32(Console.ReadLine())
Console.WriteLine("---")
Dim myInstance As [Object] = Activator.CreateInstance(myType, New Object() {})
Console.WriteLine("Yes, there {0} today!", myType.InvokeMember("SwitchMe", _
BindingFlags.InvokeMethod, Nothing, _
myInstance, New Object() {theValue}))
End Sub
End Class
Comentários
Um rótulo não pode ser definido mais de uma vez.