OnSerializingAttribute クラス

定義

メソッドに適用された場合、そのメソッドがオブジェクト グラフのオブジェクトのシリアル化時に呼び出されるように指定します。When applied to a method, specifies that the method is during serialization of an object in an object graph. グラフ内の他のオブジェクトを基準とした、シリアル化の相対順序は非確定的です。The order of serialization relative to other objects in the graph is non-deterministic.

public ref class OnSerializingAttribute sealed : Attribute
[System.AttributeUsage(System.AttributeTargets.Method, Inherited=false)]
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class OnSerializingAttribute : Attribute
type OnSerializingAttribute = class
    inherit Attribute
Public NotInheritable Class OnSerializingAttribute
Inherits Attribute
継承
OnSerializingAttribute
属性

次の例ではOnDeserializedAttribute OnSerializedAttributeOnSerializingAttributeクラスのメソッドOnDeserializingAttributeに、、、およびの各属性を適用します。The following example applies the OnDeserializedAttribute, OnSerializingAttribute, OnSerializedAttribute, and OnDeserializingAttribute attributes to methods in a class.

using System;
using System.IO;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters.Binary;

public class Test
{
    public static void Main()
    {
        // Create a new TestSimpleObject object.
        TestSimpleObject obj = new TestSimpleObject();

        Console.WriteLine("\n Before serialization the object contains: ");
        obj.Print();

        // Open a file and serialize the object into binary format.
        Stream stream = File.Open("DataFile.dat", FileMode.Create);
        BinaryFormatter formatter = new BinaryFormatter();

        try
        {
            formatter.Serialize(stream, obj);

            // Print the object again to see the effect of the 
            //OnSerializedAttribute.
            Console.WriteLine("\n After serialization the object contains: ");
            obj.Print();

            // Set the original variable to null.
            obj = null;
            stream.Close();

            // Open the file "DataFile.dat" and deserialize the object from it.
            stream = File.Open("DataFile.dat", FileMode.Open);

            // Deserialize the object from the data file.
            obj = (TestSimpleObject)formatter.Deserialize(stream);

            Console.WriteLine("\n After deserialization the object contains: ");
            obj.Print();
            Console.ReadLine();
        }
        catch (SerializationException se)
        {
            Console.WriteLine("Failed to serialize. Reason: " + se.Message);
            throw;
        }
        catch (Exception exc)
        {
            Console.WriteLine("An exception occurred. Reason: " + exc.Message);
            throw;
        }
        finally
        {
            stream.Close();
            obj = null;
            formatter = null;
        }

    }
}


// This is the object that will be serialized and deserialized.
[Serializable()]
public class TestSimpleObject
{
    // This member is serialized and deserialized with no change.
    public int member1;

    // The value of this field is set and reset during and 
    // after serialization.
    private string member2;

    // This field is not serialized. The OnDeserializedAttribute 
    // is used to set the member value after serialization.
    [NonSerialized()]
    public string member3;

    // This field is set to null, but populated after deserialization.
    private string member4;

    // Constructor for the class.
    public TestSimpleObject()
    {
        member1 = 11;
        member2 = "Hello World!";
        member3 = "This is a nonserialized value";
        member4 = null;
    }

    public void Print()
    {
        Console.WriteLine("member1 = '{0}'", member1);
        Console.WriteLine("member2 = '{0}'", member2);
        Console.WriteLine("member3 = '{0}'", member3);
        Console.WriteLine("member4 = '{0}'", member4);
    }

    [OnSerializing()]
    internal void OnSerializingMethod(StreamingContext context)
    {
        member2 = "This value went into the data file during serialization.";
    }

    [OnSerialized()]
    internal void OnSerializedMethod(StreamingContext context)
    {
        member2 = "This value was reset after serialization.";
    }

    [OnDeserializing()]
    internal void OnDeserializingMethod(StreamingContext context)
    {
        member3 = "This value was set during deserialization";
    }

    [OnDeserialized()]
    internal void OnDeserializedMethod(StreamingContext context)
    {
        member4 = "This value was set after deserialization.";
    }
}

// Output:
//  Before serialization the object contains: 
// member1 = '11'
// member2 = 'Hello World!'
// member3 = 'This is a nonserialized value'
// member4 = ''
//
//  After serialization the object contains: 
// member1 = '11'
// member2 = 'This value was reset after serialization.'
// member3 = 'This is a nonserialized value'
// member4 = ''
//
//  After deserialization the object contains: 
// member1 = '11'
// member2 = 'This value went into the data file during serialization.'
// member3 = 'This value was set during deserialization'
// member4 = 'This value was set after deserialization.'
Imports System.IO
Imports System.Runtime.Serialization
Imports System.Runtime.Serialization.Formatters.Binary

Public Class Test
    Public Shared Sub Main()
        ' Create a new TestSimpleObject object.
        Dim obj As New TestSimpleObject()

        Console.WriteLine(vbLf + " Before serialization the object contains: ")
        obj.Print()

        ' Open a file and serialize the object into binary format.
        Dim stream As Stream = File.Open("DataFile.dat", FileMode.Create)
        Dim formatter As New BinaryFormatter()

        Try
            formatter.Serialize(stream, obj)

            ' Print the object again to see the effect of the 
            'OnSerializedAttribute.
            Console.WriteLine(vbLf + " After serialization the object contains: ")
            obj.Print()

            ' Set the original variable to null.
            obj = Nothing
            stream.Close()

            ' Open the file "DataFile.dat" and deserialize the object from it.
            stream = File.Open("DataFile.dat", FileMode.Open)

            ' Deserialize the object from the data file.
            obj = CType(formatter.Deserialize(stream), TestSimpleObject)

            Console.WriteLine(vbLf + " After deserialization the object contains: ")
            obj.Print()
            Console.ReadLine()
        Catch se As SerializationException
            Console.WriteLine("Failed to serialize. Reason: " + se.Message)
            Throw
        Catch exc As Exception
            Console.WriteLine("An exception occurred. Reason: " + exc.Message)
            Throw
        Finally
            stream.Close()
            obj = Nothing
            formatter = Nothing
        End Try
    End Sub
End Class


' This is the object that will be serialized and deserialized.
<Serializable()> _
Public Class TestSimpleObject
    ' This member is serialized and deserialized with no change.
    Public member1 As Integer

    ' The value of this field is set and reset during and 
    ' after serialization.
    Private member2 As String

    ' This field is not serialized. The OnDeserializedAttribute 
    ' is used to set the member value after serialization.
    <NonSerialized()> _
    Public member3 As String

    ' This field is set to null, but populated after deserialization.
    Private member4 As String

    ' Constructor for the class.
    Public Sub New()
        member1 = 11
        member2 = "Hello World!"
        member3 = "This is a nonserialized value"
        member4 = Nothing
    End Sub

    Public Sub Print()
        Console.WriteLine("member1 = '{0}'", member1)
        Console.WriteLine("member2 = '{0}'", member2)
        Console.WriteLine("member3 = '{0}'", member3)
        Console.WriteLine("member4 = '{0}'", member4)
    End Sub

    <OnSerializing()> _
    Friend Sub OnSerializingMethod(ByVal context As StreamingContext)
        member2 = "This value went into the data file during serialization."
    End Sub

    <OnSerialized()> _
    Friend Sub OnSerializedMethod(ByVal context As StreamingContext)
        member2 = "This value was reset after serialization."
    End Sub

    <OnDeserializing()> _
    Friend Sub OnDeserializingMethod(ByVal context As StreamingContext)
        member3 = "This value was set during deserialization"
    End Sub

    <OnDeserialized()> _
    Friend Sub OnDeserializedMethod(ByVal context As StreamingContext)
        member4 = "This value was set after deserialization."
    End Sub
End Class

' Output:
'  Before serialization the object contains: 
' member1 = '11'
' member2 = 'Hello World!'
' member3 = 'This is a nonserialized value'
' member4 = ''
'
'  After serialization the object contains: 
' member1 = '11'
' member2 = 'This value was reset after serialization.'
' member3 = 'This is a nonserialized value'
' member4 = ''
'
'  After deserialization the object contains: 
' member1 = '11'
' member2 = 'This value went into the data file during serialization.'
' member3 = 'This value was set during deserialization'
' member4 = 'This value was set after deserialization.'

注釈

シリアル化OnSerializingAttributeが発生する前に、を使用してオブジェクトを操作します。Use the OnSerializingAttribute to manipulate the object before serialization occurs.

を使用OnSerializingAttributeするには、メソッドにStreamingContextパラメーターが含まれている必要があります。To use the OnSerializingAttribute, the method must contain a StreamingContext parameter. 属性は、シリアル化インフラストラクチャによって呼び出されるメソッドをマークStreamingContextし、によって発生するシリアル化の種類に関する追加データを提供します。The attribute marks the method to be called by the serialization infrastructure and the StreamingContext provides additional data about the type of serialization taking place. 使用方法を次のコードに示します。The usage is shown in the following code:

[OnSerializing]
private void SetValuesOnSerializing(StreamingContext context)
{
    // Code not shown.
}
<OnSerializing()> _
Private Sub SetValuesOnSerializing(ByVal context As StreamingContext)
    ' Code not shown.
End Sub

注意

コードでは、OnSerializing の代わりに OnSerializingAttribute という短い語を使用できます。In your code, you can use the word OnSerializing instead of the longer OnSerializingAttribute.

バイナリシリアル化を使用する場合、シリアル化されたオブジェクトonSerializingが等しい場合は、バイナリシリアル化プロセスによってメソッドの呼び出しが省略されます。When using binary serialization, the binary serialization process omits the call to the onSerializing method when the serialized objects are equal. したがって、 equalsメソッド ( BinaryFormatterまたはObject.GetHashCode) で型を使用する場合、結果は未定義の動作になることがあります。Therefore, when using the BinaryFormatter type with the equals method (or Object.GetHashCode) for example, the result may be undefined behavior.

コンストラクター

OnSerializingAttribute()

OnSerializingAttribute クラスの新しいインスタンスを初期化します。Initializes a new instance of the OnSerializingAttribute class.

プロパティ

TypeId

派生クラスで実装されると、この Attribute の一意の識別子を取得します。When implemented in a derived class, gets a unique identifier for this Attribute.

(継承元 Attribute)

メソッド

Equals(Object)

このインスタンスが、指定されたオブジェクトと等価であるかどうかを示す値を返します。Returns a value that indicates whether this instance is equal to a specified object.

(継承元 Attribute)
GetHashCode()

このインスタンスのハッシュ コードを返します。Returns the hash code for this instance.

(継承元 Attribute)
GetType()

現在のインスタンスの Type を取得します。Gets the Type of the current instance.

(継承元 Object)
IsDefaultAttribute()

派生クラスでオーバーライドされるとき、このインスタンスの値が派生クラスの既定値であるかどうかを示します。When overridden in a derived class, indicates whether the value of this instance is the default value for the derived class.

(継承元 Attribute)
Match(Object)

派生クラス内でオーバーライドされたときに、指定したオブジェクトとこのインスタンスが等しいかどうかを示す値を返します。When overridden in a derived class, returns a value that indicates whether this instance equals a specified object.

(継承元 Attribute)
MemberwiseClone()

現在の Object の簡易コピーを作成します。Creates a shallow copy of the current Object.

(継承元 Object)
ToString()

現在のオブジェクトを表す string を返します。Returns a string that represents the current object.

(継承元 Object)

明示的なインターフェイスの実装

_Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr)

一連の名前を対応する一連のディスパッチ識別子に割り当てます。Maps a set of names to a corresponding set of dispatch identifiers.

(継承元 Attribute)
_Attribute.GetTypeInfo(UInt32, UInt32, IntPtr)

オブジェクトの型情報を取得します。この情報はインターフェイスの型情報の取得に使用できます。Retrieves the type information for an object, which can be used to get the type information for an interface.

(継承元 Attribute)
_Attribute.GetTypeInfoCount(UInt32)

オブジェクトが提供する型情報インターフェイスの数 (0 または 1) を取得します。Retrieves the number of type information interfaces that an object provides (either 0 or 1).

(継承元 Attribute)
_Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr)

オブジェクトによって公開されたプロパティおよびメソッドへのアクセスを提供します。Provides access to properties and methods exposed by an object.

(継承元 Attribute)

適用対象

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