BinaryFormatter.Binder-Eigenschaft
Ruft ein Objekt vom Typ SerializationBinder ab, das die Bindung eines serialisierten Objekts an einen Typ steuert, oder legt dieses fest.
Namespace: System.Runtime.Serialization.Formatters.Binary
Assembly: mscorlib (in mscorlib.dll)
'Declaration
Public Property Binder As SerializationBinder
'Usage
Dim instance As BinaryFormatter
Dim value As SerializationBinder
value = instance.Binder
instance.Binder = value
public SerializationBinder Binder { get; set; }
public:
virtual property SerializationBinder^ Binder {
SerializationBinder^ get () sealed;
void set (SerializationBinder^ value) sealed;
}
/** @property */
public final SerializationBinder get_Binder ()
/** @property */
public final void set_Binder (SerializationBinder value)
public final function get Binder () : SerializationBinder
public final function set Binder (value : SerializationBinder)
Der Serialisierungsbinder, der mit diesem Formatierungsprogramm verwendet werden soll.
Imports System
Imports System.IO
Imports System.Runtime.Serialization
Imports System.Runtime.Serialization.Formatters.Binary
Imports System.Reflection
Imports System.Security.Permissions
Class App
<STAThread()> Shared Sub Main()
Serialize()
Deserialize()
End Sub
Shared Sub Serialize()
' To serialize the objects, you must first open a stream for writing.
' Use a file stream here.
Dim fs As New FileStream("DataFile.dat", FileMode.Create)
Try
' Construct a BinaryFormatter and use it
' to serialize the data to the stream.
Dim formatter As New BinaryFormatter
' Construct a Version1Type object and serialize it.
Dim obj As New Version1Type
obj.x = 123
formatter.Serialize(fs, obj)
Catch e As SerializationException
Console.WriteLine("Failed to serialize. Reason: " & e.Message)
Throw
Finally
fs.Close()
End Try
End Sub
Shared Sub Deserialize()
' Declare the Version2Type reference.
Dim obj As Version2Type = Nothing
' Open the file containing the data that you want to deserialize.
Dim fs As New FileStream("DataFile.dat", FileMode.Open)
Try
' Construct a BinaryFormatter and use it
' to deserialize the data from the stream.
Dim formatter As New BinaryFormatter
' Construct an instance of the
' Version1ToVersion2TypeSerialiationBinder type.
' This Binder type can deserialize a Version1Type
' object to a Version2Type object.
formatter.Binder = New Version1ToVersion2DeserializationBinder
obj = DirectCast(formatter.Deserialize(fs), Version2Type)
Catch e As SerializationException
Console.WriteLine("Failed to deserialize. Reason: " & e.Message)
Throw
Finally
fs.Close()
End Try
' To prove that a Version2Type object was deserialized,
' display the object's type and fields to the console.
Console.WriteLine("Type of object deserialized: {0}", obj.GetType())
Console.WriteLine("x = {0}, name = {1}", obj.x, obj.name)
End Sub
End Class
<Serializable()> Class Version1Type
Public x As Int32
End Class
<Serializable()> Class Version2Type
Implements ISerializable
Public x As Int32
Public name As String
' The security attribute demands that code that calls
' this method have permission to perform serialization.
<SecurityPermissionAttribute(SecurityAction.Demand, SerializationFormatter:=True)> _
Private Sub GetObjectData(ByVal info As SerializationInfo, _
ByVal context As StreamingContext) Implements ISerializable.GetObjectData
info.AddValue("x", x)
info.AddValue("name", name)
End Sub
' The security attribute demands that code that calls
' this method have permission to perform serialization.
<SecurityPermissionAttribute(SecurityAction.Demand, SerializationFormatter:=True)> _
Private Sub New(ByVal info As SerializationInfo, _
ByVal context As StreamingContext)
x = info.GetInt32("x")
Try
name = info.GetString("name")
Catch e As SerializationException
' The "name" field was not serialized because
' Version1Type did not contain this field.
' Set this field to a reasonable default value.
name = "Reasonable default value"
End Try
End Sub
End Class
NotInheritable Class Version1ToVersion2DeserializationBinder
Inherits SerializationBinder
Public Overrides Function BindToType(ByVal assemblyName As String, _
ByVal typeName As String) As Type
Dim typeToDeserialize As Type = Nothing
' For each assemblyName/typeName that you want to deserialize
' to a different type, set typeToDeserialize to the desired type.
Dim assemVer1 As String = [Assembly].GetExecutingAssembly().FullName
Dim typeVer1 As String = GetType(Version1Type).FullName
If assemblyName = assemVer1 And typeName = typeVer1 Then
' To use a type from a different assembly version,
' change the version number.
' To do this, uncomment the following code.
' assemblyName = assemblyName.Replace("1.0.0.0", "2.0.0.0")
' To use a different type from the same assembly,
' change the type name.
typeName = typeName.Replace("Version1Type", "Version2Type")
End If
' The following code returns the type.
typeToDeserialize = Type.GetType(String.Format("{0}, {1}", typeName, _
assemblyName))
Return typeToDeserialize
End Function
End Class
using System;
using System.IO;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters.Binary;
using System.Reflection;
using System.Security.Permissions;
class App
{
[STAThread]
static void Main()
{
Serialize();
Deserialize();
}
static void Serialize()
{
// To serialize the objects, you must first open a stream for writing.
// Use a file stream here.
FileStream fs = new FileStream("DataFile.dat", FileMode.Create);
try
{
// Construct a BinaryFormatter and use it
// to serialize the data to the stream.
BinaryFormatter formatter = new BinaryFormatter();
// Construct a Version1Type object and serialize it.
Version1Type obj = new Version1Type();
obj.x = 123;
formatter.Serialize(fs, obj);
}
catch (SerializationException e)
{
Console.WriteLine("Failed to serialize. Reason: " + e.Message);
throw;
}
finally
{
fs.Close();
}
}
static void Deserialize()
{
// Declare the Version2Type reference.
Version2Type obj = null;
// Open the file containing the data that you want to deserialize.
FileStream fs = new FileStream("DataFile.dat", FileMode.Open);
try
{
// Construct a BinaryFormatter and use it
// to deserialize the data from the stream.
BinaryFormatter formatter = new BinaryFormatter();
// Construct an instance of our the
// Version1ToVersion2TypeSerialiationBinder type.
// This Binder type can deserialize a Version1Type
// object to a Version2Type object.
formatter.Binder = new Version1ToVersion2DeserializationBinder();
obj = (Version2Type) formatter.Deserialize(fs);
}
catch (SerializationException e)
{
Console.WriteLine("Failed to deserialize. Reason: " + e.Message);
throw;
}
finally
{
fs.Close();
}
// To prove that a Version2Type object was deserialized,
// display the object's type and fields to the console.
Console.WriteLine("Type of object deserialized: " + obj.GetType());
Console.WriteLine("x = {0}, name = {1}", obj.x, obj.name);
}
}
[Serializable]
class Version1Type
{
public Int32 x;
}
[Serializable]
class Version2Type : ISerializable
{
public Int32 x;
public String name;
// The security attribute demands that code that calls
// this method have permission to perform serialization.
[SecurityPermissionAttribute(SecurityAction.Demand,SerializationFormatter=true)]
void ISerializable.GetObjectData(SerializationInfo info, StreamingContext context)
{
info.AddValue("x", x);
info.AddValue("name", name);
}
// The security attribute demands that code that calls
// this method have permission to perform serialization.
[SecurityPermissionAttribute(SecurityAction.Demand,SerializationFormatter=true)]
private Version2Type(SerializationInfo info, StreamingContext context)
{
x = info.GetInt32("x");
try
{
name = info.GetString("name");
}
catch (SerializationException)
{
// The "name" field was not serialized because Version1Type
// did not contain this field.
// Set this field to a reasonable default value.
name = "Reasonable default value";
}
}
}
sealed class Version1ToVersion2DeserializationBinder : SerializationBinder
{
public override Type BindToType(string assemblyName, string typeName)
{
Type typeToDeserialize = null;
// For each assemblyName/typeName that you want to deserialize to
// a different type, set typeToDeserialize to the desired type.
String assemVer1 = Assembly.GetExecutingAssembly().FullName;
String typeVer1 = "Version1Type";
if (assemblyName == assemVer1 && typeName == typeVer1)
{
// To use a type from a different assembly version,
// change the version number.
// To do this, uncomment the following line of code.
// assemblyName = assemblyName.Replace("1.0.0.0", "2.0.0.0");
// To use a different type from the same assembly,
// change the type name.
typeName = "Version2Type";
}
// The following line of code returns the type.
typeToDeserialize = Type.GetType(String.Format("{0}, {1}",
typeName, assemblyName));
return typeToDeserialize;
}
}
using namespace System;
using namespace System::IO;
using namespace System::Runtime::Serialization;
using namespace System::Runtime::Serialization::Formatters::Binary;
using namespace System::Reflection;
using namespace System::Security::Permissions;
ref class Version1ToVersion2DeserializationBinder;
[Serializable]
ref class Version1Type
{
public:
Int32 x;
};
[Serializable]
ref class Version2Type: public ISerializable
{
public:
Int32 x;
String^ name;
// The security attribute demands that code that calls
// this method have permission to perform serialization.
[SecurityPermissionAttribute(SecurityAction::Demand,SerializationFormatter=true)]
virtual void GetObjectData( SerializationInfo^ info, StreamingContext context )
{
info->AddValue( "x", x );
info->AddValue( "name", name );
}
private:
// The security attribute demands that code that calls
// this method have permission to perform serialization.
[SecurityPermissionAttribute(SecurityAction::Demand,SerializationFormatter=true)]
Version2Type( SerializationInfo^ info, StreamingContext context )
{
x = info->GetInt32( "x" );
try
{
name = info->GetString( "name" );
}
catch ( SerializationException^ )
{
// The 'name' field was not serialized because Version1Type
// did not contain this field.
// We will set this field to a reasonable default value.
name = "Reasonable default value";
}
}
};
ref class Version1ToVersion2DeserializationBinder sealed: public SerializationBinder
{
public:
virtual Type^ BindToType( String^ assemblyName, String^ typeName ) override
{
Type^ typeToDeserialize = nullptr;
// For each assemblyName/typeName that you want to deserialize to
// a different type, set typeToDeserialize to the desired type.
String^ assemVer1 = Assembly::GetExecutingAssembly()->FullName;
String^ typeVer1 = "Version1Type";
if ( assemblyName->Equals( assemVer1 ) && typeName->Equals( typeVer1 ) )
{
// To use a type from a different assembly version,
// change the version number using the following line of code.
// assemblyName = assemblyName.Replace("1.0.0.0", "2.0.0.0");
// To use a different type from the same assembly,
// change the type name.
typeName = "Version2Type";
}
// The following line of code returns the type.
typeToDeserialize = Type::GetType( String::Format( "{0}, {1}", typeName, assemblyName ) );
return typeToDeserialize;
}
};
ref class App
{
public:
static void Serialize()
{
// To serialize the objects, you must first open a stream for writing.
// We will use a file stream here.
FileStream^ fs = gcnew FileStream( "DataFile.dat",FileMode::Create );
try
{
// Construct a BinaryFormatter and use it
// to serialize the data to the stream.
BinaryFormatter^ formatter = gcnew BinaryFormatter;
// Construct a Version1Type Object and serialize it.
Version1Type^ obj = gcnew Version1Type;
obj->x = 123;
formatter->Serialize( fs, obj );
}
catch ( SerializationException^ e )
{
Console::WriteLine( "Failed to serialize. Reason: {0}", e->Message );
throw;
}
finally
{
fs->Close();
}
}
static void Deserialize()
{
// Declare the Version2Type reference.
Version2Type^ obj = nullptr;
// Open the file containing the data that we want to deserialize.
FileStream^ fs = gcnew FileStream( "DataFile.dat",FileMode::Open );
try
{
// Construct a BinaryFormatter and use it
// to deserialize the data from the stream.
BinaryFormatter^ formatter = gcnew BinaryFormatter;
// Construct an instance of our
// Version1ToVersion2TypeSerialiationBinder type.
// This Binder type knows how to deserialize a Version1Type
// Object* to a Version2Type Object.
formatter->Binder = gcnew Version1ToVersion2DeserializationBinder;
obj = dynamic_cast<Version2Type^>(formatter->Deserialize( fs ));
}
catch ( SerializationException^ e )
{
Console::WriteLine( "Failed to deserialize. Reason: {0}", e->Message );
throw;
}
finally
{
fs->Close();
}
// To prove that a Version2Type Object* was deserialized,
// display the Object's type and fields to the console.
Console::WriteLine( "Type of Object deserialized: {0}", obj->GetType() );
Console::WriteLine( "x = {0}, name = {1}", obj->x, obj->name );
}
};
[STAThread]
int main()
{
App::Serialize();
App::Deserialize();
return 0;
}
import System.*;
import System.IO.*;
import System.Runtime.Serialization.*;
import System.Runtime.Serialization.Formatters.Binary.*;
import System.Reflection.*;
import System.Security.Permissions.*;
class App
{
/** @attribute STAThread()
*/
public static void main(String[] args)
{
Serialize();
Deserialize();
} //main
static void Serialize()
{
// To serialize the objects, you must first open a stream for writing.
// Use a file stream here.
FileStream fs = new FileStream("DataFile.dat", FileMode.Create);
try {
// Construct a BinaryFormatter and use it
// to serialize the data to the stream.
BinaryFormatter formatter = new BinaryFormatter();
// Construct a Version1Type object and serialize it.
Version1Type obj = new Version1Type();
obj.x = 123;
formatter.Serialize(fs, obj);
}
catch (SerializationException e) {
Console.WriteLine("Failed to serialize. Reason: " + e.get_Message());
}
finally {
fs.Close();
}
} //Serialize
static void Deserialize()
{
// Declare the Version2Type reference.
Version2Type obj = null;
// Open the file containing the data that you want to deserialize.
FileStream fs = new FileStream("DataFile.dat", FileMode.Open);
try {
// Construct a BinaryFormatter and use it
// to deserialize the data from the stream.
BinaryFormatter formatter = new BinaryFormatter();
// Construct an instance of our the
// Version1ToVersion2TypeSerialiationBinder type.
// This Binder type can deserialize a Version1Type
// object to a Version2Type object.
formatter.set_Binder(new Version1ToVersion2DeserializationBinder());
obj = (Version2Type)(formatter.Deserialize(fs));
}
catch (SerializationException e) {
Console.WriteLine("Failed to deserialize. Reason: " + e.get_Message());
}
finally {
fs.Close();
}
// To prove that a Version2Type object was deserialized,
// display the object's type and fields to the console.
Console.WriteLine("Type of object deserialized: " + obj.GetType());
System.Console.WriteLine("x = {0}, name = {1}", (System.Int32)obj.x,
obj.name);
} //Deserialize
} //App
/** @attribute Serializable()
*/
class Version1Type
{
public int x;
} //Version1Type
/** @attribute Serializable()
*/
class Version2Type implements ISerializable
{
public int x;
public String name;
// The security attribute demands that code that calls
// this method have permission to perform serialization.
/** @attribute SecurityPermissionAttribute(SecurityAction.Demand,
SerializationFormatter = true)
*/
public void GetObjectData(SerializationInfo info,StreamingContext context)
{
info.AddValue("x", x);
info.AddValue("name", name);
} //ISerializable.GetObjectData
// The security attribute demands that code that calls
// this method have permission to perform serialization.
/** @attribute SecurityPermissionAttribute(SecurityAction.Demand,
SerializationFormatter = true)
*/
private Version2Type(SerializationInfo info, StreamingContext context)
{
x = info.GetInt32("x");
try {
name = info.GetString("name");
}
catch (SerializationException exp) {
// The "name" field was not serialized because Version1Type
// did not contain this field.
// Set this field to a reasonable default value.
name = "Reasonable default value";
}
} //Version2Type
} //Version2Type
final class Version1ToVersion2DeserializationBinder extends SerializationBinder
{
public Type BindToType(String assemblyName, String typeName)
{
Type typeToDeserialize = null;
// For each assemblyName/typeName that you want to deserialize to
// a different type, set typeToDeserialize to the desired type.
String assemVer1 = Assembly.GetExecutingAssembly().get_FullName();
String typeVer1 = "Version1Type";
if (assemblyName.Equals(assemVer1) && typeName.Equals(typeVer1)) {
// To use a type from a different assembly version,
// change the version number.
// To do this, uncomment the following line of code.
// assemblyName = assemblyName.Replace("1.0.0.0", "2.0.0.0");
// To use a different type from the same assembly,
// change the type name.
typeName = "Version2Type";
}
// The following line of code returns the type.
typeToDeserialize = Type.GetType(String.Format("{0}, {1}", typeName,
assemblyName));
return typeToDeserialize;
} //BindToType
} //Version1ToVersion2DeserializationBinder
Windows 98, Windows 2000 SP4, Windows Millennium Edition, Windows Server 2003, Windows XP Media Center Edition, Windows XP Professional x64 Edition, Windows XP SP2, Windows XP Starter Edition
.NET Framework unterstützt nicht alle Versionen sämtlicher Plattformen. Eine Liste der unterstützten Versionen finden Sie unter Systemanforderungen.
Unterstützt in: 2.0, 1.1, 1.0
BinaryFormatter-Klasse
BinaryFormatter-Member
System.Runtime.Serialization.Formatters.Binary-Namespace
SerializationBinder-Klasse