SerializationInfoEnumerator Klasse

Definition

Stellt einen für Formatierungsprogramme geeigneten Mechanismus zum Analysieren der Daten in SerializationInfo bereit. Diese Klasse kann nicht vererbt werden.

public ref class SerializationInfoEnumerator sealed : System::Collections::IEnumerator
public sealed class SerializationInfoEnumerator : System.Collections.IEnumerator
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class SerializationInfoEnumerator : System.Collections.IEnumerator
type SerializationInfoEnumerator = class
    interface IEnumerator
[<System.Runtime.InteropServices.ComVisible(true)>]
type SerializationInfoEnumerator = class
    interface IEnumerator
Public NotInheritable Class SerializationInfoEnumerator
Implements IEnumerator
Vererbung
SerializationInfoEnumerator
Attribute
Implementiert

Beispiele

Im folgenden Codebeispiel wird gezeigt, wie Sie die FormatterServices Klasse verwenden, um ein Objekt ordnungsgemäß zu serialisieren oder zu deserialisieren, bei dem die Basisklasse nicht implementiert ISerializable wird, aber die abgeleitete Klasse ausführt.

using namespace System;
using namespace System::IO;
using namespace System::Runtime::Serialization;
using namespace System::Runtime::Serialization::Formatters;
using namespace System::Runtime::Serialization::Formatters::Binary;
using namespace System::Reflection;
using namespace System::Security::Permissions;

// Person is a serializable base class.
[Serializable]
public ref class Person
{
private:
    String^ title;

public:
    Person(String^ title)
    {
        this->title = title;
    }

public:
    virtual String^ ToString() override
    {
        return String::Format("{0}", title);
    }
};

// Employee is a serializable class derived from Person.
[Serializable]
public ref class Employee : public Person
{
private:
    String^ title;

public:
    Employee(String^ title) : Person("Person")
    {
        this->title = title;
    }

public:
    virtual String^ ToString() override
    {
        return String::Format("{0} -> {1}", title, Person::ToString());
    }
};

// Manager is a serializable and ISerializable class derived from Employee.
[Serializable]
ref class Manager : public Employee, public ISerializable
{
private:
    String^ title;

public:
    Manager() : Employee("Employee")
    {
        this->title = "Manager";
    }

public:
    [SecurityPermission(SecurityAction::Demand, SerializationFormatter = true)]
    virtual void GetObjectData(SerializationInfo^ info, StreamingContext context)
    {
        // Serialize the desired values for this class.
        info->AddValue("title", title);

        // Get the set of serializable members for the class and base classes.
        Type^ thisType = this->GetType();
        array<MemberInfo^>^ serializableMembers =
            FormatterServices::GetSerializableMembers(thisType, context);

        // Serialize the base class's fields to the info object.
        for each (MemberInfo^ serializableMember in serializableMembers)
        {
            // Do not serialize fields for this class.
            if (serializableMember->DeclaringType != thisType)
            {
                // Skip this field if it is marked NonSerialized.
                if (!(Attribute::IsDefined(serializableMember,
                    NonSerializedAttribute::typeid)))
                {
                    // Get the value of this field and add it to the
                    // SerializationInfo object.
                    info->AddValue(serializableMember->Name,
                        ((FieldInfo^)serializableMember)->GetValue(this));
                }
            }
        }

        // Call the method below to see the contents of the
        // SerializationInfo object.
        DisplaySerializationInfo(info);
    }

private:
    static void DisplaySerializationInfo(SerializationInfo^ info)
    {
        Console::WriteLine("Values in the SerializationInfo:");
        for each (SerializationEntry^ infoEntry in info)
        {
            Console::WriteLine("Name={0}, ObjectType={1}, Value={2}",
                infoEntry->Name, infoEntry->ObjectType, infoEntry->Value);
        }
    }

protected:
    Manager(SerializationInfo^ info,
        StreamingContext context) : Employee(nullptr)
    {
        // Get the set of serializable members for the class and base classes.
        Type^ thisType = this->GetType();
        array<MemberInfo^>^ serializableMembers =
            FormatterServices::GetSerializableMembers(thisType, context);

        // Deserialize the base class's fields from the info object.
        for each (MemberInfo^ serializableMember in serializableMembers)
        {
            // Do not deserialize fields for this class.
            if (serializableMember->DeclaringType != thisType)
            {
                // For easier coding, treat the member as a FieldInfo object
                FieldInfo^ fieldInformation = (FieldInfo^)serializableMember;

                // Skip this field if it is marked NonSerialized.
                if (!(Attribute::IsDefined(serializableMember,
                    NonSerializedAttribute::typeid)))
                {
                    // Get the value of this field from the
                    // SerializationInfo object.
                    fieldInformation->SetValue(this,
                        info->GetValue(fieldInformation->Name,
                        fieldInformation->FieldType));
                }
            }
        }

        // Deserialize the values that were serialized for this class.
        title = info->GetString("title");
    }

public:
    virtual String^ ToString() override
    {
        return String::Format("{0} -> {1}", title, Employee::ToString());
    }
};

int main()
{
    Stream^ stream = gcnew MemoryStream();
    IFormatter^ formatter = gcnew BinaryFormatter();
    Manager^ m = gcnew Manager();
    Console::WriteLine(m->ToString());
    formatter->Serialize(stream, m);

    stream->Position = 0;
    m = (Manager^) formatter->Deserialize(stream);
    Console::WriteLine(m->ToString());
}

// This code produces the following output.
//
//  Manager -> Employee -> Person
//  Values in the SerializaitonInfo:
//  Name=title, ObjectType=System.String, Value=Manager
//  Name=Employee+title, ObjectType=System.String, Value=Employee
//  Name=Person+title, ObjectType=System.String, Value=Person
//  Manager -> Employee -> Person
using System;
using System.IO;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters;
using System.Runtime.Serialization.Formatters.Binary;
using System.Reflection;

// Person is a serializable base class.
[Serializable]
public class Person
{
    private String title;

    public Person(String title)
    {
        this.title = title;
    }

    public override String ToString()
    {
        return String.Format("{0}", title);
    }
}

// Employee is a serializable class derived from Person.
[Serializable]
public class Employee : Person
{
    private String title;

    public Employee(String title) : base("Person")
    {
        this.title = title;
    }

    public override String ToString()
    {
        return String.Format("{0} -> {1}", title, base.ToString());
    }
}

// Manager is a serializable and ISerializable class derived from Employee.
[Serializable]
public class Manager : Employee, ISerializable
{
    private String title;

    public Manager() : base("Employee")
    {
        this.title = "Manager";
    }

    public void GetObjectData(SerializationInfo info, StreamingContext context)
    {

        // Serialize the desired values for this class.
        info.AddValue("title", title);

        // Get the set of serializable members for the class and base classes.
        Type thisType = this.GetType();
        MemberInfo[] mi = FormatterServices.GetSerializableMembers(thisType, context);

        // Serialize the base class's fields to the info object.
        for (Int32 i = 0; i < mi.Length; i++)
        {
            // Do not serialize fields for this class.
            if (mi[i].DeclaringType == thisType) continue;

            // Skip this field if it is marked NonSerialized.
            if (Attribute.IsDefined(mi[i], typeof(NonSerializedAttribute))) continue;

            // Get the value of this field and add it to the SerializationInfo object.
            info.AddValue(mi[i].Name, ((FieldInfo) mi[i]).GetValue(this));
        }

        // Call the method below to see the contents of the SerializationInfo object.
        DisplaySerializationInfo(info);
    }

    private void DisplaySerializationInfo(SerializationInfo info)
    {
        SerializationInfoEnumerator e = info.GetEnumerator();
        Console.WriteLine("Values in the SerializationInfo:");
        while (e.MoveNext())
        {
            Console.WriteLine("Name={0}, ObjectType={1}, Value={2}", e.Name, e.ObjectType, e.Value);
        }
    }

    protected Manager(SerializationInfo info, StreamingContext context) : base(null)
    {
        // Get the set of serializable members for the class and base classes.
        Type thisType = this.GetType();
        MemberInfo[] mi = FormatterServices.GetSerializableMembers(thisType, context);

        // Deserialize the base class's fields from the info object.
        for (Int32 i = 0; i < mi.Length; i++)
        {
            // Do not deserialize fields for this class.
            if (mi[i].DeclaringType == thisType) continue;

            // For easier coding, treat the member as a FieldInfo object
            FieldInfo fi = (FieldInfo) mi[i];

            // Skip this field if it is marked NonSerialized.
            if (Attribute.IsDefined(mi[i], typeof(NonSerializedAttribute))) continue;

            // Get the value of this field from the SerializationInfo object.
            fi.SetValue(this, info.GetValue(fi.Name, fi.FieldType));
        }

        // Deserialize the values that were serialized for this class.
        title = info.GetString("title");
    }

    public override String ToString()
    {
        return String.Format("{0} -> {1}", title, base.ToString());
    }
}

public sealed class App
{
    public static void Main()
    {
        Run();
    }

    public static void Run()
    {
        using (Stream stream = new MemoryStream())
    {
            IFormatter formatter = new BinaryFormatter();
            Manager m = new Manager();
            Console.WriteLine(m.ToString());
            formatter.Serialize(stream, m);

            stream.Position = 0;
            m = (Manager) formatter.Deserialize(stream);
            Console.WriteLine(m.ToString());
        }
    }
}
// This code produces the following output.
//
//  Manager -> Employee -> Person
//  Values in the SerializaitonInfo:
//  Name=title, ObjectType=System.String, Value=Manager
//  Name=Employee+title, ObjectType=System.String, Value=Employee
//  Name=Person+title, ObjectType=System.String, Value=Person
//  Manager -> Employee -> Person

Hinweise

Die aktuelle Klasse ist ein Standardumerator, der die in gespeicherten SerializationInfoWerte analysiert. Statt die Werte aufzuzeichnen, bleiben die SerializationInfoEnumerator Zeiger auf die Membervariablen des SerializationInfo erstellten Elements.

Diese Klasse folgt dem IEnumerator Mechanismus.

Eigenschaften

Current

Ruft das Element ab, das gerade überprüft wird.

Name

Ruft den Namen des Elements ab, das gerade überprüft wird.

ObjectType

Ruft den Typ des Elements ab, das gerade überprüft wird.

Value

Ruft den Wert des Elements ab, das gerade überprüft wird.

Methoden

Equals(Object)

Bestimmt, ob das angegebene Objekt gleich dem aktuellen Objekt ist.

(Geerbt von Object)
GetHashCode()

Fungiert als Standardhashfunktion.

(Geerbt von Object)
GetType()

Ruft den Type der aktuellen Instanz ab.

(Geerbt von Object)
MemberwiseClone()

Erstellt eine flache Kopie des aktuellen Object.

(Geerbt von Object)
MoveNext()

Aktualisiert den Enumerator auf das nächste Element.

Reset()

Setzt den Enumerator auf das erste Element zurück.

ToString()

Gibt eine Zeichenfolge zurück, die das aktuelle Objekt darstellt.

(Geerbt von Object)

Explizite Schnittstellenimplementierungen

IEnumerator.Current

Ruft das aktuelle Element in der Auflistung ab.

Gilt für:

Siehe auch