BindingFlags Enumeración
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Especifica marcas que controlan el enlace y la forma en que la búsqueda de miembros y tipos se lleva a cabo mediante reflexión.
Esta enumeración admite una combinación bit a bit de sus valores de miembro.
public enum class BindingFlags[System.Flags]
public enum BindingFlags[System.Flags]
[System.Serializable]
public enum BindingFlags[System.Flags]
[System.Serializable]
[System.Runtime.InteropServices.ComVisible(true)]
public enum BindingFlags[<System.Flags>]
type BindingFlags = [<System.Flags>]
[<System.Serializable>]
type BindingFlags = [<System.Flags>]
[<System.Serializable>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type BindingFlags = Public Enum BindingFlags- Herencia
- Atributos
Campos
| Nombre | Valor | Description |
|---|---|---|
| Default | 0 | Especifica que no se definen marcas de enlace. |
| IgnoreCase | 1 | Especifica que el caso del nombre de miembro no se debe tener en cuenta al enlazar. |
| DeclaredOnly | 2 | Especifica que solo se deben tener en cuenta los miembros declarados en el nivel de la jerarquía del tipo proporcionado. No se tienen en cuenta los miembros heredados. |
| Instance | 4 | Especifica que los miembros de instancia se incluirán en la búsqueda. |
| Static | 8 | Especifica que los miembros estáticos se van a incluir en la búsqueda. |
| Public | 16 | Especifica que los miembros públicos se incluirán en la búsqueda. |
| NonPublic | 32 | Especifica que los miembros no públicos se incluirán en la búsqueda. |
| FlattenHierarchy | 64 | Especifica que se deben devolver los miembros estáticos públicos y protegidos de la jerarquía. No se devuelven miembros estáticos privados en clases heredadas. Los miembros estáticos incluyen campos, métodos, eventos y propiedades. No se devuelven tipos anidados. |
| InvokeMethod | 256 | Especifica que se va a invocar un método. No debe ser un constructor ni un inicializador de tipo. Esta marca se pasa a un |
| CreateInstance | 512 | Especifica que la reflexión debe crear una instancia del tipo especificado. Llama al constructor que coincide con los argumentos especificados. Se omite el nombre del miembro proporcionado. Si no se especifica el tipo de búsqueda, (Instancia | Público) se aplicará. No es posible llamar a un inicializador de tipo. Esta marca se pasa a un |
| GetField | 1024 | Especifica que se debe devolver el valor del campo especificado. Esta marca se pasa a un |
| SetField | 2048 | Especifica que se debe establecer el valor del campo especificado. Esta marca se pasa a un |
| GetProperty | 4096 | Especifica que se debe devolver el valor de la propiedad especificada. Esta marca se pasa a un |
| SetProperty | 8192 | Especifica que se debe establecer el valor de la propiedad especificada. Para las propiedades COM, especificar esta marca de enlace equivale a especificar Esta marca se pasa a un |
| PutDispProperty | 16384 | Especifica que se debe invocar el |
| PutRefDispProperty | 32768 | Especifica que se debe invocar el |
| ExactBinding | 65536 | Especifica que los tipos de los argumentos proporcionados deben coincidir exactamente con los tipos de los parámetros formales correspondientes. La reflexión produce una excepción si el autor de la llamada proporciona un objeto no NULL |
| SuppressChangeType | 131072 | Sin implementar. |
| OptionalParamBinding | 262144 | Devuelve el conjunto de miembros cuyo recuento de parámetros coincide con el número de argumentos proporcionados. Esta marca de enlace se usa para los métodos con parámetros que tienen valores predeterminados y métodos con argumentos variables (varargs). Esta marca solo debe usarse con InvokeMember(String, BindingFlags, Binder, Object, Object[], ParameterModifier[], CultureInfo, String[]). |
| IgnoreReturn | 16777216 | Se usa en la interoperabilidad COM para especificar que se puede omitir el valor devuelto del miembro. |
| DoNotWrapExceptions | 33554432 | Especifica que las excepciones no deben encapsularse en un TargetInvocationException. |
Ejemplos
En el ejemplo siguiente se muestran muchas de las marcas de enlace.
using System;
using System.Reflection;
using System.IO;
namespace BindingFlagsSnippet
{
class Example
{
static void Main()
{
// BindingFlags.InvokeMethod
// Call a static method.
Type t = typeof (TestClass);
Console.WriteLine();
Console.WriteLine("Invoking a static method.");
Console.WriteLine("-------------------------");
t.InvokeMember ("SayHello", BindingFlags.InvokeMethod | BindingFlags.Public |
BindingFlags.Static, null, null, new object [] {});
// BindingFlags.InvokeMethod
// Call an instance method.
TestClass c = new TestClass ();
Console.WriteLine();
Console.WriteLine("Invoking an instance method.");
Console.WriteLine("----------------------------");
c.GetType().InvokeMember ("AddUp", BindingFlags.InvokeMethod, null, c, new object [] {});
c.GetType().InvokeMember ("AddUp", BindingFlags.InvokeMethod, null, c, new object [] {});
// BindingFlags.InvokeMethod
// Call a method with parameters.
object [] args = new object [] {100.09, 184.45};
object result;
Console.WriteLine();
Console.WriteLine("Invoking a method with parameters.");
Console.WriteLine("---------------------------------");
result = t.InvokeMember ("ComputeSum", BindingFlags.InvokeMethod, null, null, args);
Console.WriteLine ("{0} + {1} = {2}", args[0], args[1], result);
// BindingFlags.GetField, SetField
Console.WriteLine();
Console.WriteLine("Invoking a field (getting and setting.)");
Console.WriteLine("--------------------------------------");
// Get a field value.
result = t.InvokeMember ("Name", BindingFlags.GetField, null, c, new object [] {});
Console.WriteLine ("Name == {0}", result);
// Set a field.
t.InvokeMember ("Name", BindingFlags.SetField, null, c, new object [] {"NewName"});
result = t.InvokeMember ("Name", BindingFlags.GetField, null, c, new object [] {});
Console.WriteLine ("Name == {0}", result);
Console.WriteLine();
Console.WriteLine("Invoking an indexed property (getting and setting.)");
Console.WriteLine("--------------------------------------------------");
// BindingFlags.GetProperty
// Get an indexed property value.
int index = 3;
result = t.InvokeMember ("Item", BindingFlags.GetProperty, null, c, new object [] {index});
Console.WriteLine ("Item[{0}] == {1}", index, result);
// BindingFlags.SetProperty
// Set an indexed property value.
index = 3;
t.InvokeMember ("Item", BindingFlags.SetProperty, null, c, new object [] {index, "NewValue"});
result = t.InvokeMember ("Item", BindingFlags.GetProperty , null, c, new object [] {index});
Console.WriteLine ("Item[{0}] == {1}", index, result);
Console.WriteLine();
Console.WriteLine("Getting a field or property.");
Console.WriteLine("----------------------------");
// BindingFlags.GetField
// Get a field or property.
result = t.InvokeMember ("Name", BindingFlags.GetField | BindingFlags.GetProperty, null, c,
new object [] {});
Console.WriteLine ("Name == {0}", result);
// BindingFlags.GetProperty
result = t.InvokeMember ("Value", BindingFlags.GetField | BindingFlags.GetProperty, null, c,
new object [] {});
Console.WriteLine ("Value == {0}", result);
Console.WriteLine();
Console.WriteLine("Invoking a method with named parameters.");
Console.WriteLine("---------------------------------------");
// BindingFlags.InvokeMethod
// Call a method using named parameters.
object[] argValues = new object [] {"Mouse", "Micky"};
String [] argNames = new String [] {"lastName", "firstName"};
t.InvokeMember ("PrintName", BindingFlags.InvokeMethod, null, null, argValues, null, null,
argNames);
Console.WriteLine();
Console.WriteLine("Invoking a default member of a type.");
Console.WriteLine("------------------------------------");
// BindingFlags.Default
// Call the default member of a type.
Type t3 = typeof (TestClass2);
t3.InvokeMember ("", BindingFlags.InvokeMethod | BindingFlags.Default, null, new TestClass2(),
new object [] {});
// BindingFlags.Static, NonPublic, and Public
// Invoking a member with ref parameters.
Console.WriteLine();
Console.WriteLine("Invoking a method with ref parameters.");
Console.WriteLine("--------------------------------------");
MethodInfo m = t.GetMethod("Swap");
args = new object[2];
args[0] = 1;
args[1] = 2;
m.Invoke(new TestClass(),args);
Console.WriteLine ("{0}, {1}", args[0], args[1]);
// BindingFlags.CreateInstance
// Creating an instance with a parameterless constructor.
Console.WriteLine();
Console.WriteLine("Creating an instance with a parameterless constructor.");
Console.WriteLine("------------------------------------------------------");
object cobj = t.InvokeMember ("TestClass", BindingFlags.Public |
BindingFlags.Instance | BindingFlags.CreateInstance,
null, null, new object [] {});
Console.WriteLine("Instance of {0} created.", cobj.GetType().Name);
// Creating an instance with a constructor that has parameters.
Console.WriteLine();
Console.WriteLine("Creating an instance with a constructor that has parameters.");
Console.WriteLine("------------------------------------------------------------");
cobj = t.InvokeMember ("TestClass", BindingFlags.Public |
BindingFlags.Instance | BindingFlags.CreateInstance,
null, null, new object [] { "Hello, World!" });
Console.WriteLine("Instance of {0} created with initial value '{1}'.", cobj.GetType().Name,
cobj.GetType().InvokeMember("Name", BindingFlags.GetField, null, cobj, null));
// BindingFlags.DeclaredOnly
Console.WriteLine();
Console.WriteLine("DeclaredOnly instance members.");
Console.WriteLine("------------------------------");
System.Reflection.MemberInfo[] memInfo =
t.GetMembers(BindingFlags.DeclaredOnly | BindingFlags.Instance |
BindingFlags.Public);
for(int i=0;i<memInfo.Length;i++)
{
Console.WriteLine(memInfo[i].Name);
}
// BindingFlags.IgnoreCase
Console.WriteLine();
Console.WriteLine("Using IgnoreCase and invoking the PrintName method.");
Console.WriteLine("---------------------------------------------------");
t.InvokeMember("printname", BindingFlags.IgnoreCase | BindingFlags.Static |
BindingFlags.Public | BindingFlags.InvokeMethod, null, null, new object[]
{"Brad","Smith"});
// BindingFlags.FlattenHierarchy
Console.WriteLine();
Console.WriteLine("Using FlattenHierarchy to get inherited static protected and public members." );
Console.WriteLine("----------------------------------------------------------------------------");
FieldInfo[] finfos = typeof(MostDerived).GetFields(BindingFlags.NonPublic | BindingFlags.Public |
BindingFlags.Static | BindingFlags.FlattenHierarchy);
foreach (FieldInfo finfo in finfos)
{
Console.WriteLine("{0} defined in {1}.", finfo.Name, finfo.DeclaringType.Name);
}
Console.WriteLine();
Console.WriteLine("Without FlattenHierarchy." );
Console.WriteLine("-------------------------");
finfos = typeof(MostDerived).GetFields(BindingFlags.NonPublic | BindingFlags.Public |
BindingFlags.Static);
foreach (FieldInfo finfo in finfos)
{
Console.WriteLine("{0} defined in {1}.", finfo.Name, finfo.DeclaringType.Name);
}
}
}
public class TestClass
{
public String Name;
private Object [] values = new Object [] {0, 1,2,3,4,5,6,7,8,9};
public Object this [int index]
{
get
{
return values[index];
}
set
{
values[index] = value;
}
}
public Object Value
{
get
{
return "the value";
}
}
public TestClass () : this("initialName") {}
public TestClass (string initName)
{
Name = initName;
}
int methodCalled = 0;
public static void SayHello ()
{
Console.WriteLine ("Hello");
}
public void AddUp ()
{
methodCalled++;
Console.WriteLine ("AddUp Called {0} times", methodCalled);
}
public static double ComputeSum (double d1, double d2)
{
return d1 + d2;
}
public static void PrintName (String firstName, String lastName)
{
Console.WriteLine ("{0},{1}", lastName,firstName);
}
public void PrintTime ()
{
Console.WriteLine (DateTime.Now);
}
public void Swap(ref int a, ref int b)
{
int x = a;
a = b;
b = x;
}
}
[DefaultMemberAttribute ("PrintTime")]
public class TestClass2
{
public void PrintTime ()
{
Console.WriteLine (DateTime.Now);
}
}
public class Base
{
static int BaseOnlyPrivate = 0;
protected static int BaseOnly = 0;
}
public class Derived : Base
{
public static int DerivedOnly = 0;
}
public class MostDerived : Derived {}
}
/* This example produces output similar to the following:
Invoking a static method.
-------------------------
Hello
Invoking an instance method.
----------------------------
AddUp Called 1 times
AddUp Called 2 times
Invoking a method with parameters.
---------------------------------
100.09 + 184.45 = 284.54
Invoking a field (getting and setting.)
--------------------------------------
Name == initialName
Name == NewName
Invoking an indexed property (getting and setting.)
--------------------------------------------------
Item[3] == 3
Item[3] == NewValue
Getting a field or property.
----------------------------
Name == NewName
Value == the value
Invoking a method with named parameters.
---------------------------------------
Mouse,Micky
Invoking a default member of a type.
------------------------------------
12/23/2009 4:29:21 PM
Invoking a method with ref parameters.
--------------------------------------
2, 1
Creating an instance with a parameterless constructor.
------------------------------------------------------
Instance of TestClass created.
Creating an instance with a constructor that has parameters.
------------------------------------------------------------
Instance of TestClass created with initial value 'Hello, World!'.
DeclaredOnly instance members.
------------------------------
get_Item
set_Item
get_Value
AddUp
PrintTime
Swap
.ctor
.ctor
Item
Value
Name
Using IgnoreCase and invoking the PrintName method.
---------------------------------------------------
Smith,Brad
Using FlattenHierarchy to get inherited static protected and public members.
----------------------------------------------------------------------------
DerivedOnly defined in Derived.
BaseOnly defined in Base.
Without FlattenHierarchy.
-------------------------
*/
Imports System.Reflection
Imports System.IO
Class Invoke
Public Shared Sub Main()
' BindingFlags.InvokeMethod
' Call a static method.
Dim t As Type = GetType(TestClass)
Console.WriteLine()
Console.WriteLine("Invoking a static method.")
Console.WriteLine("-------------------------")
t.InvokeMember("SayHello", BindingFlags.InvokeMethod Or BindingFlags.Public _
Or BindingFlags.Static, Nothing, Nothing, New Object() {})
' BindingFlags.InvokeMethod
' Call an instance method.
Dim c As New TestClass()
Console.WriteLine()
Console.WriteLine("Invoking an instance method.")
Console.WriteLine("----------------------------")
c.GetType().InvokeMember("AddUp", BindingFlags.InvokeMethod, Nothing, c, New Object() {})
c.GetType().InvokeMember("AddUp", BindingFlags.InvokeMethod, Nothing, c, New Object() {})
' BindingFlags.InvokeMethod
' Call a method with parameters.
Dim args() As Object = {100.09, 184.45}
Dim result As Object
Console.WriteLine()
Console.WriteLine("Invoking a method with parameters.")
Console.WriteLine("---------------------------------")
result = t.InvokeMember("ComputeSum", BindingFlags.InvokeMethod, Nothing, Nothing, args)
Console.WriteLine("{0} + {1} = {2}", args(0), args(1), result)
' BindingFlags.GetField, SetField
Console.WriteLine()
Console.WriteLine("Invoking a field (getting and setting.)")
Console.WriteLine("--------------------------------------")
' Get a field value.
result = t.InvokeMember("Name", BindingFlags.GetField, Nothing, c, New Object() {})
Console.WriteLine("Name == {0}", result)
' Set a field.
t.InvokeMember("Name", BindingFlags.SetField, Nothing, c, New Object() {"NewName"})
result = t.InvokeMember("Name", BindingFlags.GetField, Nothing, c, New Object() {})
Console.WriteLine("Name == {0}", result)
Console.WriteLine()
Console.WriteLine("Invoking an indexed property (getting and setting.)")
Console.WriteLine("--------------------------------------------------")
' BindingFlags.GetProperty
' Get an indexed property value.
Dim index As Integer = 3
result = t.InvokeMember("Item", BindingFlags.GetProperty, Nothing, c, New Object() {index})
Console.WriteLine("Item[{0}] == {1}", index, result)
' BindingFlags.SetProperty
' Set an indexed property value.
index = 3
t.InvokeMember("Item", BindingFlags.SetProperty, Nothing, c, New Object() {index, "NewValue"})
result = t.InvokeMember("Item", BindingFlags.GetProperty, Nothing, c, New Object() {index})
Console.WriteLine("Item[{0}] == {1}", index, result)
Console.WriteLine()
Console.WriteLine("Getting a field or property.")
Console.WriteLine("----------------------------")
' BindingFlags.GetField
' Get a field or property.
result = t.InvokeMember("Name", BindingFlags.GetField Or BindingFlags.GetProperty, Nothing, _
c, New Object() {})
Console.WriteLine("Name == {0}", result)
' BindingFlags.GetProperty
result = t.InvokeMember("Value", BindingFlags.GetField Or BindingFlags.GetProperty, Nothing, _
c, New Object() {})
Console.WriteLine("Value == {0}", result)
Console.WriteLine()
Console.WriteLine("Invoking a method with named parameters.")
Console.WriteLine("---------------------------------------")
' BindingFlags.InvokeMethod
' Call a method using named parameters.
Dim argValues() As Object = {"Mouse", "Micky"}
Dim argNames() As [String] = {"lastName", "firstName"}
t.InvokeMember("PrintName", BindingFlags.InvokeMethod, Nothing, Nothing, argValues, Nothing, _
Nothing, argNames)
Console.WriteLine()
Console.WriteLine("Invoking a default member of a type.")
Console.WriteLine("------------------------------------")
' BindingFlags.Default
' Call the default member of a type.
Dim t3 As Type = GetType(TestClass2)
t3.InvokeMember("", BindingFlags.InvokeMethod Or BindingFlags.Default, Nothing, _
New TestClass2(), New Object() {})
Console.WriteLine()
Console.WriteLine("Invoking a method with ByRef parameters.")
Console.WriteLine("----------------------------------------")
' BindingFlags.Static, NonPublic, and Public
' Invoking a member by reference.
Dim m As MethodInfo = t.GetMethod("Swap")
args = New Object(1) {}
args(0) = 1
args(1) = 2
m.Invoke(New TestClass(), args)
Console.WriteLine("{0}, {1}", args(0), args(1))
' BindingFlags.CreateInstance
' Creating an instance.
Console.WriteLine()
Console.WriteLine("Creating an instance with parameterless constructor.")
Console.WriteLine("----------------------------------------------------")
Dim obj As Object = GetType(TestClass).InvokeMember("TestClass", BindingFlags.CreateInstance, _
Nothing, Nothing, New Object() {})
Console.WriteLine("Instance of {0} created.", obj.GetType().Name)
Console.WriteLine()
Console.WriteLine("Creating an instance with a constructor that has parameters.")
Console.WriteLine("------------------------------------------------------------")
obj = GetType(TestClass).InvokeMember("TestClass", BindingFlags.CreateInstance, Nothing, _
Nothing, New Object() { "Hello, World!" })
Console.WriteLine("Instance of {0} created with initial value '{1}'.", obj.GetType().Name, _
obj.GetType().InvokeMember("Name", BindingFlags.GetField, Nothing, obj, Nothing))
' BindingFlags.DeclaredOnly
Console.WriteLine()
Console.WriteLine("DeclaredOnly instance members.")
Console.WriteLine("------------------------------")
Dim memInfo As System.Reflection.MemberInfo() = t.GetMembers(BindingFlags.DeclaredOnly Or _
BindingFlags.Public Or BindingFlags.Instance)
Dim i As Integer
For i = 0 To memInfo.Length - 1
Console.WriteLine(memInfo(i).Name)
Next i
' BindingFlags.IgnoreCase
Console.WriteLine()
Console.WriteLine("Using IgnoreCase and invoking the PrintName method.")
Console.WriteLine("---------------------------------------------------")
t.InvokeMember("printname", BindingFlags.IgnoreCase Or BindingFlags.Public Or _
BindingFlags.Static Or BindingFlags.InvokeMethod, Nothing, Nothing, _
New Object() {"Brad", "Smith"})
' BindingFlags.FlattenHierarchy
Console.WriteLine()
Console.WriteLine("Using FlattenHierarchy to get inherited static protected and public members." )
Console.WriteLine("----------------------------------------------------------------------------")
Dim finfos() As FieldInfo = GetType(MostDerived).GetFields(BindingFlags.NonPublic Or _
BindingFlags.Public Or BindingFlags.Static Or BindingFlags.FlattenHierarchy)
For Each finfo As FieldInfo In finfos
Console.WriteLine("{0} defined in {1}.", finfo.Name, finfo.DeclaringType.Name)
Next
Console.WriteLine()
Console.WriteLine("Without FlattenHierarchy." )
Console.WriteLine("-------------------------")
finfos = GetType(MostDerived).GetFields(BindingFlags.NonPublic Or BindingFlags.Public Or _
BindingFlags.Static)
For Each finfo As FieldInfo In finfos
Console.WriteLine("{0} defined in {1}.", finfo.Name, finfo.DeclaringType.Name)
Next
End Sub
End Class
Public Class TestClass
Public Name As String
Private values() As [Object] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}
Default Public Property Item(ByVal index As Integer) As [Object]
Get
Return values(index)
End Get
Set(ByVal Value As [Object])
values(index) = Value
End Set
End Property
Public ReadOnly Property Value() As [Object]
Get
Return "the value"
End Get
End Property
Public Sub New(ByVal initName As String)
Name = initName
End Sub
Public Sub New()
MyClass.New("initialName")
End Sub
Private methodCalled As Integer = 0
Public Shared Sub SayHello()
Console.WriteLine("Hello")
End Sub
Public Sub AddUp()
methodCalled += 1
Console.WriteLine("AddUp Called {0} times", methodCalled)
End Sub
Public Shared Function ComputeSum(ByVal d1 As Double, ByVal d2 As Double) As Double
Return d1 + d2
End Function
Public Shared Sub PrintName(ByVal firstName As [String], ByVal lastName As [String])
Console.WriteLine("{0},{1}", lastName, firstName)
End Sub
Public Sub PrintTime()
Console.WriteLine(DateTime.Now)
End Sub
Public Sub Swap(ByRef a As Integer, ByRef b As Integer)
Dim x As Integer = a
a = b
b = x
End Sub
End Class
<DefaultMemberAttribute("PrintTime")> _
Public Class TestClass2
Public Sub PrintTime()
Console.WriteLine(DateTime.Now)
End Sub
End Class
Public Class Base
Shared BaseOnlyPrivate As Integer = 0
Protected Shared BaseOnly As Integer = 0
End Class
Public Class Derived
Inherits Base
Public Shared DerivedOnly As Integer = 0
End Class
Public Class MostDerived
Inherits Derived
End Class
' This example produces output similar to the following:
'
'Invoking a static method.
'-------------------------
'Hello
'
'Invoking an instance method.
'----------------------------
'AddUp Called 1 times
'AddUp Called 2 times
'
'Invoking a method with parameters.
'---------------------------------
'100.09 + 184.45 = 284.54
'
'Invoking a field (getting and setting.)
'--------------------------------------
'Name == initialName
'Name == NewName
'
'Invoking an indexed property (getting and setting.)
'--------------------------------------------------
'Item[3] == 3
'Item[3] == NewValue
'
'Getting a field or property.
'----------------------------
'Name == NewName
'Value == the value
'
'Invoking a method with named parameters.
'---------------------------------------
'Mouse,Micky
'
'Invoking a default member of a type.
'------------------------------------
'12/23/2009 4:34:22 PM
'
'Invoking a method with ByRef parameters.
'----------------------------------------
'2, 1
'
'Creating an instance with parameterless constructor.
'----------------------------------------------------
'Instance of TestClass created.
'
'Creating an instance with a constructor that has parameters.
'------------------------------------------------------------
'Instance of TestClass created with initial value 'Hello, World!'.
'
'DeclaredOnly instance members.
'------------------------------
'get_Item
'set_Item
'get_Value
'AddUp
'PrintTime
'Swap
'.ctor
'.ctor
'Item
'Value
'Name
'
'Using IgnoreCase and invoking the PrintName method.
'---------------------------------------------------
'Smith,Brad
'
'Using FlattenHierarchy to get inherited static protected and public members.
'----------------------------------------------------------------------------
'DerivedOnly defined in Derived.
'BaseOnly defined in Base.
'
'Without FlattenHierarchy.
'-------------------------
'
Comentarios
Estos BindingFlags enlaces de control para una gran cantidad de clases en los Systemespacios de nombres , System.Reflectiony System.Runtime que invocan, crean, obtienen, establecen y buscan miembros y tipos.
BindingFlags se usan en los métodos siguientes Type y en otros lugares, como MethodBase.Invoke:
InvokeMember y GetMethod son especialmente importantes.
Las marcas de enlace se pueden clasificar por cómo identifican un miembro de tipo, como se muestra en la tabla siguiente.
| Identificado por accesibilidad | Identificado por el argumento binding | Identificado por operación |
|---|---|---|
| DeclareOnly FlattenHierarchy IgnoreCase IgnoreReturn Instance NonPublic Público estática |
ExactBinding OptionalParamBinding |
CreateInstance GetField SetField GetProperty EstablecerPropiedad InvokeMethod PutDispProperty PutRefDispProperty |
Note
Debe especificar Instance o Static junto con Public o NonPublic ningún miembro se devolverá.
En la tabla siguiente se enumeran las coerciones realizadas de forma predeterminada Binder.ChangeType. Esta tabla se aplica especialmente a la marca de BindingFlags.ExactBinding enlace. El principio general es que ChangeType solo debe realizar coerciones de ampliación, que nunca pierden datos. Un ejemplo de una coerción de ampliación consiste en convertir un valor que es un entero de 32 bits con signo en un valor que es un entero de 64 bits con signo. Esto se distingue de una coerción de restricción, que puede perder datos. Un ejemplo de una coerción de restricción consiste en convertir un entero de 64 bits con signo en un entero de 32 bits con signo.
| Tipo origen | Tipo de destino |
|---|---|
| Cualquier tipo | Su tipo base. |
| Cualquier tipo | La interfaz que implementa. |
Char |
UInt16, UInt32, Int32, UInt64, Int64, , SingleDouble |
Byte |
Char, UInt16, Int16, UInt32, Int32, UInt64, Int64, SingleDouble |
SByte |
Int16, Int32, Int64, , Single, Double |
UInt16 |
UInt32, Int32, UInt64, Int64, , Single, Double |
Int16 |
Int32, Int64, , Single, Double |
UInt32 |
UInt64, Int64, , Single, Double |
Int32 |
Int64, , Single, Double |
UInt64 |
Single, Double |
Int64 |
Single, Double |
Single |
Double |
| No referencia | Por referencia. |
Cuando se usa la marca de enlace, la BindingFlags.ExactBinding reflexión modela las reglas de accesibilidad del sistema de tipos comunes. Por ejemplo, si el autor de la llamada está en el mismo ensamblado, el autor de la llamada no necesita permisos especiales para los miembros internos. De lo contrario, el autor de la llamada necesita ReflectionPermission. Esto es coherente con la búsqueda de miembros protegidos, privados, etc.