NonSerializedAttribute 类
定义
重要
一些信息与预发行产品相关,相应产品在发行之前可能会进行重大修改。 对于此处提供的信息,Microsoft 不作任何明示或暗示的担保。
指示可序列化类的某个字段不应被序列化。 此类不能被继承。
public ref class NonSerializedAttribute sealed : Attribute[System.AttributeUsage(System.AttributeTargets.Field, Inherited=false)]
public sealed class NonSerializedAttribute : Attribute[System.AttributeUsage(System.AttributeTargets.Field, Inherited=true)]
public sealed class NonSerializedAttribute : Attribute[System.AttributeUsage(System.AttributeTargets.Field, Inherited=false)]
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class NonSerializedAttribute : Attribute[<System.AttributeUsage(System.AttributeTargets.Field, Inherited=false)>]
type NonSerializedAttribute = class
inherit Attribute[<System.AttributeUsage(System.AttributeTargets.Field, Inherited=true)>]
type NonSerializedAttribute = class
inherit Attribute[<System.AttributeUsage(System.AttributeTargets.Field, Inherited=false)>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type NonSerializedAttribute = class
inherit AttributePublic NotInheritable Class NonSerializedAttribute
Inherits Attribute- 继承
- 属性
示例
以下示例演示了用 SerializableAttribute 属性标记的对象序列化,以及用 NonSerializedAttribute 序列化对象中标记的字段的行为。
备注
该代码使用 SoapFormatter 类序列化对象。 该类在默认情况下不会加载到项目中的system.runtime.serialization.formatters.soap.dll中找到。 若要运行代码,必须将对 DLL 的引用添加到项目中。
#using <system.dll>
#using <system.messaging.dll>
#using <System.Runtime.Serialization.Formatters.Soap.dll>
using namespace System;
using namespace System::IO;
using namespace System::Runtime::Serialization::Formatters::Soap;
// A test object that needs to be serialized.
[Serializable]
ref class TestSimpleObject
{
private:
int member1;
String^ member2;
String^ member3;
double member4;
public:
// A field that is not serialized.
[NonSerialized]
String^ member5;
TestSimpleObject()
{
member1 = 11;
member2 = "hello";
member3 = "hello";
member4 = 3.14159265;
member5 = "hello world!";
}
void Print()
{
Console::WriteLine( "member1 = ' {0}'", member1 );
Console::WriteLine( "member2 = ' {0}'", member2 );
Console::WriteLine( "member3 = ' {0}'", member3 );
Console::WriteLine( "member4 = ' {0}'", member4 );
Console::WriteLine( "member5 = ' {0}'", member5 );
}
};
int main()
{
// Creates a new TestSimpleObject object.
TestSimpleObject^ obj = gcnew TestSimpleObject;
Console::WriteLine( "Before serialization the Object* contains: " );
obj->Print();
// Opens a file and serializes the object into it in binary format.
Stream^ stream = File::Open( "data.xml", FileMode::Create );
SoapFormatter^ formatter = gcnew SoapFormatter;
//BinaryFormatter* formatter = new BinaryFormatter();
formatter->Serialize( stream, obj );
stream->Close();
// Empties obj.
obj = nullptr;
// Opens file S"data.xml" and deserializes the object from it.
stream = File::Open( "data.xml", FileMode::Open );
formatter = gcnew SoapFormatter;
//formatter = new BinaryFormatter();
obj = dynamic_cast<TestSimpleObject^>(formatter->Deserialize( stream ));
stream->Close();
Console::WriteLine( "" );
Console::WriteLine( "After deserialization the object contains: " );
obj->Print();
}
using System;
using System.IO;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters.Soap;
//using System.Runtime.Serialization.Formatters.Binary;
public class Test {
public static void Main() {
// Creates a new TestSimpleObject object.
TestSimpleObject obj = new TestSimpleObject();
Console.WriteLine("Before serialization the object contains: ");
obj.Print();
// Opens a file and serializes the object into it in binary format.
Stream stream = File.Open("data.xml", FileMode.Create);
SoapFormatter formatter = new SoapFormatter();
//BinaryFormatter formatter = new BinaryFormatter();
formatter.Serialize(stream, obj);
stream.Close();
// Empties obj.
obj = null;
// Opens file "data.xml" and deserializes the object from it.
stream = File.Open("data.xml", FileMode.Open);
formatter = new SoapFormatter();
//formatter = new BinaryFormatter();
obj = (TestSimpleObject)formatter.Deserialize(stream);
stream.Close();
Console.WriteLine("");
Console.WriteLine("After deserialization the object contains: ");
obj.Print();
}
}
// A test object that needs to be serialized.
[Serializable()]
public class TestSimpleObject {
public int member1;
public string member2;
public string member3;
public double member4;
// A field that is not serialized.
[NonSerialized()] public string member5;
public TestSimpleObject() {
member1 = 11;
member2 = "hello";
member3 = "hello";
member4 = 3.14159265;
member5 = "hello world!";
}
public void Print() {
Console.WriteLine("member1 = '{0}'", member1);
Console.WriteLine("member2 = '{0}'", member2);
Console.WriteLine("member3 = '{0}'", member3);
Console.WriteLine("member4 = '{0}'", member4);
Console.WriteLine("member5 = '{0}'", member5);
}
}
open System
open System.IO
open System.Runtime.Serialization.Formatters.Soap
// A test object that needs to be serialized.
[<Serializable>]
type TestSimpleObject() =
let member1 = 11
let member2 = "hello"
let member3 = "hello"
let member4 = 3.14159265
// A field that is not serialized.
[<NonSerialized>]
let member5 = "hello world!"
member _.Print() =
printfn $"member1 = '{member1}'"
printfn $"member2 = '{member2}'"
printfn $"member3 = '{member3}'"
printfn $"member4 = '{member4}'"
printfn $"member5 = '{member5}'"
[<EntryPoint>]
let main _ =
// Creates a new TestSimpleObject object.
let obj = TestSimpleObject()
printfn "Before serialization the object contains: "
obj.Print()
// Opens a file and serializes the object into it in binary format.
let stream = File.Open("data.xml", FileMode.Create)
let formatter = SoapFormatter()
//BinaryFormatter formatter = new BinaryFormatter()
formatter.Serialize(stream, obj)
stream.Close()
// Opens file "data.xml" and deserializes the object from it.
let stream = File.Open("data.xml", FileMode.Open)
let formatter = new SoapFormatter()
let obj = formatter.Deserialize stream :?> TestSimpleObject
stream.Close()
printfn "\nAfter deserialization the object contains: "
obj.Print()
0
Imports System.IO
Imports System.Runtime.Serialization
Imports System.Runtime.Serialization.Formatters.Soap
Public Class Test
Public Shared Sub Main()
' Creates a new TestSimpleObject object.
Dim obj As New TestSimpleObject()
Console.WriteLine("Before serialization the object contains: ")
obj.Print()
' Opens a file and serializes the object into it in binary format.
Dim stream As Stream = File.Open("data.xml", FileMode.Create)
Dim formatter As New SoapFormatter()
formatter.Serialize(stream, obj)
stream.Close()
' Empties obj.
obj = Nothing
' Opens file "data.xml" and deserializes the object from it.
stream = File.Open("data.xml", FileMode.Open)
formatter = New SoapFormatter()
obj = CType(formatter.Deserialize(stream), TestSimpleObject)
stream.Close()
Console.WriteLine("")
Console.WriteLine("After deserialization the object contains: ")
obj.Print()
End Sub
End Class
' A test object that needs to be serialized.
<Serializable()> Public Class TestSimpleObject
Public member1 As Integer
Public member2 As String
Public member3 As String
Public member4 As Double
' A member that is not serialized.
<NonSerialized()> Public member5 As String
Public Sub New()
member1 = 11
member2 = "hello"
member3 = "hello"
member4 = 3.14159265
member5 = "hello world!"
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)
Console.WriteLine("member5 = '{0}'", member5)
End Sub
End Class
注解
使用 BinaryFormatter 或 SoapFormatter 类序列化对象时,请使用 NonSerializedAttribute 该属性来阻止对字段进行序列化。 例如,可以使用此属性来防止对敏感数据进行序列化。
属性的目标对象 NonSerializedAttribute 是可序列化类的公共字段和专用字段。 默认情况下,除非类被 SerializableAttribute标记为可序列化,否则类不可序列化。 在序列化过程中,默认情况下会序列化类的所有公共字段和专用字段。 在序列化期间,标记的 NonSerializedAttribute 字段将被排除。 如果使用 XmlSerializer 类序列化对象,请使用 XmlIgnoreAttribute 该类获取相同的功能。 或者,实现 ISerializable 接口以显式控制序列化过程。 请注意,实现 ISerializable 的类仍必须标有 SerializableAttribute。
若要将 NonSerializedAttribute 类应用于事件,请将属性位置设置为字段,如以下 C# 代码所示。
[field:NonSerializedAttribute()]
public event ChangedEventHandler Changed;
如果字段未序列化,但它仍然需要在反序列化后必须提供的默认值,则可以创建一个提供具有值字段的方法,然后将该方法应用于 OnDeserializedAttribute 该方法。
有关使用属性的详细信息,请参阅 “属性”。
构造函数
| NonSerializedAttribute() |
初始化 NonSerializedAttribute 类的新实例。 |
属性
| TypeId |
在派生类中实现时,获取此 Attribute 的唯一标识符。 (继承自 Attribute) |
方法
| Equals(Object) |
返回一个值,该值指示此实例是否与指定的对象相等。 (继承自 Attribute) |
| GetHashCode() |
返回此实例的哈希代码。 (继承自 Attribute) |
| GetType() |
获取当前实例的 Type。 (继承自 Object) |
| IsDefaultAttribute() |
在派生类中重写时,指示此实例的值是否是派生类的默认值。 (继承自 Attribute) |
| Match(Object) |
当在派生类中重写时,返回一个指示此实例是否等于指定对象的值。 (继承自 Attribute) |
| MemberwiseClone() |
创建当前 Object 的浅表副本。 (继承自 Object) |
| ToString() |
返回表示当前对象的字符串。 (继承自 Object) |
显式接口实现
| _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) |
将一组名称映射为对应的一组调度标识符。 (继承自 Attribute) |
| _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) |
检索对象的类型信息,然后可以使用该信息获取接口的类型信息。 (继承自 Attribute) |
| _Attribute.GetTypeInfoCount(UInt32) |
检索对象提供的类型信息接口的数量(0 或 1)。 (继承自 Attribute) |
| _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) |
提供对某一对象公开的属性和方法的访问。 (继承自 Attribute) |