InstanceDescriptor 類別
定義
重要
部分資訊涉及發行前產品,在發行之前可能會有大幅修改。 Microsoft 對此處提供的資訊,不做任何明確或隱含的瑕疵擔保。
提供建立物件執行個體 (Instance) 所需的資訊。 此類別無法獲得繼承。
public ref class InstanceDescriptor sealedpublic sealed class InstanceDescriptortype InstanceDescriptor = classPublic NotInheritable Class InstanceDescriptor- 繼承
-
InstanceDescriptor
範例
下列程式代碼範例說明如何使用類型轉換器,透過使用實例描述元來參與程式代碼產生。
#using <system.dll>
#using <system.drawing.dll>
using namespace System;
using namespace System::ComponentModel;
using namespace System::ComponentModel::Design::Serialization;
using namespace System::Drawing;
using namespace System::Globalization;
using namespace System::Collections;
using namespace System::Reflection;
/* This sample shows how to support code generation for a custom type of object
using a type converter and InstanceDescriptor objects.
To use this code, copy it to a file and add the file to a project. Then add
a component to the project and declare a Triangle field and a public property
with accessors for the Triangle field on the component.
The Triangle property will be persisted using code generation.
*/
ref class TriangleConverter;
[TypeConverter(TriangleConverter::typeid)]
public ref class Triangle
{
private:
// Triangle members
Point P1;
Point P2;
Point P3;
public:
property Point Point1
{
Point get()
{
return P1;
}
void set( Point value )
{
P1 = value;
}
}
property Point Point2
{
Point get()
{
return P2;
}
void set( Point value )
{
P2 = value;
}
}
property Point Point3
{
Point get()
{
return P3;
}
void set( Point value )
{
P3 = value;
}
}
Triangle( Point point1, Point point2, Point point3 )
{
P1 = point1;
P2 = point2;
P3 = point3;
}
/* A TypeConverter for the Triangle object. Note that you can make it internal,
private, or any scope you want and the designers will still be able to use
it through the TypeDescriptor object. This type converter provides the
capability to convert to an InstanceDescriptor. This object can be used by
the .NET Framework to generate source code that creates an instance of a
Triangle object. */
[System::Security::Permissions::PermissionSet(System::Security::
Permissions::SecurityAction::Demand, Name = "FullTrust")]
ref class TriangleConverter: public TypeConverter
{
public:
/* This method overrides CanConvertTo from TypeConverter. This is called when someone
wants to convert an instance of Triangle to another type. Here,
only conversion to an InstanceDescriptor is supported. */
virtual bool CanConvertTo( ITypeDescriptorContext^ context, Type^ destinationType ) override
{
if ( destinationType == InstanceDescriptor::typeid )
{
return true;
}
// Always call the base to see if it can perform the conversion.
return TypeConverter::CanConvertTo( context, destinationType );
}
/* This code performs the actual conversion from a Triangle to an InstanceDescriptor. */
virtual Object^ ConvertTo( ITypeDescriptorContext^ context, CultureInfo^ culture, Object^ value, Type^ destinationType ) override
{
if ( destinationType == InstanceDescriptor::typeid )
{
array<Type^>^type1 = {Point::typeid,Point::typeid,Point::typeid};
ConstructorInfo^ ci = Triangle::typeid->GetConstructor( type1 );
Triangle^ t = safe_cast<Triangle^>(value);
array<Object^>^obj1 = {t->Point1,t->Point2,t->Point3};
return gcnew InstanceDescriptor( ci,safe_cast<ICollection^>(obj1) );
}
// Always call base, even if you can't convert.
return TypeConverter::ConvertTo( context, culture, value, destinationType );
}
};
};
public ref class TestComponent: public System::ComponentModel::Component
{
private:
Triangle^ myTriangle;
public:
TestComponent()
{
myTriangle = gcnew Triangle( Point(5,5),Point(10,10),Point(1,8) );
}
property Triangle^ MyTriangle
{
Triangle^ get()
{
return myTriangle;
}
void set( Triangle^ value )
{
myTriangle = value;
}
}
};
namespace Microsoft.Samples.InstanceDescriptorSample
{
using System;
using System.ComponentModel;
using System.ComponentModel.Design.Serialization;
using System.Drawing;
using System.Globalization;
using System.Reflection;
// This sample shows how to support code generation for a custom type
// of object using a type converter and InstanceDescriptor objects.
// To use this code, copy it to a file and add the file to a project.
// Then add a component to the project and declare a Triangle field and
// a public property with accessors for the Triangle field on the component.
// The Triangle property will be persisted using code generation.
[TypeConverter(typeof(Triangle.TriangleConverter))]
public class Triangle
{
// Triangle members.
Point P1;
Point P2;
Point P3;
public Point Point1 {
get {
return P1;
}
set {
P1 = value;
}
}
public Point Point2 {
get
{
return P2;
}
set
{
P2 = value;
}
}
public Point Point3 {
get
{
return P3;
}
set
{
P3 = value;
}
}
public Triangle(Point point1,Point point2,Point point3) {
P1 = point1;
P2 = point2;
P3 = point3;
}
// A TypeConverter for the Triangle object. Note that you can make it internal,
// private, or any scope you want and the designers will still be able to use
// it through the TypeDescriptor object. This type converter provides the
// capability to convert to an InstanceDescriptor. This object can be used by
// the .NET Framework to generate source code that creates an instance of a
// Triangle object.
internal class TriangleConverter : TypeConverter
{
// This method overrides CanConvertTo from TypeConverter. This is called when someone
// wants to convert an instance of Triangle to another type. Here,
// only conversion to an InstanceDescriptor is supported.
public override bool CanConvertTo(ITypeDescriptorContext context, Type destinationType)
{
if (destinationType == typeof(InstanceDescriptor))
{
return true;
}
// Always call the base to see if it can perform the conversion.
return base.CanConvertTo(context, destinationType);
}
// This code performs the actual conversion from a Triangle to an InstanceDescriptor.
public override object ConvertTo(ITypeDescriptorContext context, CultureInfo culture, object value, Type destinationType)
{
if (destinationType == typeof(InstanceDescriptor))
{
ConstructorInfo ci = typeof(Triangle).GetConstructor(new Type[]{typeof(Point),
typeof(Point),typeof(Point)});
Triangle t = (Triangle) value;
return new InstanceDescriptor(ci,new object[]{t.Point1,t.Point2,t.Point3});
}
// Always call base, even if you can't convert.
return base.ConvertTo(context, culture, value, destinationType);
}
}
}
public class TestComponent : System.ComponentModel.Component
{
Triangle myTriangle;
public TestComponent() {
myTriangle = new Triangle(
new Point(5,5),
new Point(10,10),
new Point(1,8)
);
}
public Triangle MyTriangle {
get {
return myTriangle;
}
set {
myTriangle = value;
}
}
}
}
Imports System.ComponentModel
Imports System.ComponentModel.Design.Serialization
Imports System.Drawing
Imports System.Globalization
Imports System.Reflection
Namespace Microsoft.Samples.InstanceDescriptorSample
' This sample shows how to support code generation for a custom type
' of object using a type converter and InstanceDescriptor objects.
'
' To use this code, copy it to a file and add the file to a project.
' Then add a component to the project and declare a Triangle field and
' a public property with accessors for the Triangle field on the component.
'
' The Triangle property will be persisted using code generation.
<TypeConverter(GetType(Triangle.TriangleConverter))> _
Public Class Triangle
' Triangle members.
Private P1 As Point
Private P2 As Point
Private P3 As Point
Public Property Point1() As Point
Get
Return P1
End Get
Set(ByVal Value As Point)
P1 = Value
End Set
End Property
Public Property Point2() As Point
Get
Return P2
End Get
Set(ByVal Value As Point)
P2 = Value
End Set
End Property
Public Property Point3() As Point
Get
Return P3
End Get
Set(ByVal Value As Point)
P3 = Value
End Set
End Property
Public Sub New(ByVal point1 As Point, ByVal point2 As Point, ByVal point3 As Point)
P1 = point1
P2 = point2
P3 = point3
End Sub
' A TypeConverter for the Triangle object. Note that you can make it internal,
' private, or any scope you want and the designers will still be able to use
' it through the TypeDescriptor object. This type converter provides the
' capability to convert to an InstanceDescriptor. This object can be used by
' the .NET Framework to generate source code that creates an instance of a
' Triangle object.
Friend Class TriangleConverter
Inherits TypeConverter
' This method overrides CanConvertTo from TypeConverter. This is called when someone
' wants to convert an instance of Triangle to another type. Here,
' only coversition to an InstanceDescriptor is supported.
Public Overloads Overrides Function CanConvertTo(ByVal context As ITypeDescriptorContext, ByVal destinationType As Type) As Boolean
If destinationType Is GetType(InstanceDescriptor) Then
Return True
End If
' Always call the base to see if it can perform the conversion.
Return MyBase.CanConvertTo(context, destinationType)
End Function
' This code performs the actual conversion from a Triangle to an InstanceDescriptor.
Public Overloads Overrides Function ConvertTo(ByVal context As ITypeDescriptorContext, ByVal culture As CultureInfo, ByVal value As Object, ByVal destinationType As Type) As Object
If destinationType Is GetType(InstanceDescriptor) Then
Dim ci As ConstructorInfo = GetType(Triangle).GetConstructor(New Type() {GetType(Point), GetType(Point), GetType(Point)})
Dim t As Triangle = CType(value, Triangle)
Return New InstanceDescriptor(ci, New Object() {t.Point1, t.Point2, t.Point3})
End If
' Always call base, even if you can't convert.
Return MyBase.ConvertTo(context, culture, value, destinationType)
End Function
End Class
End Class
Public Class TestComponent
Inherits System.ComponentModel.Component
Private myTriangleProp As Triangle
Public Sub New()
myTriangleProp = New Triangle(New Point(5, 5), _
New Point(10, 10), New Point(1, 8))
End Sub
Public Property MyTriangle() As Triangle
Get
Return myTriangleProp
End Get
Set(ByVal Value As Triangle)
myTriangleProp = Value
End Set
End Property
End Class
End Namespace
備註
InstanceDescriptor 可以儲存描述 物件實例的資訊。 此資訊可用來建立 對象的實例。
某些自定義串行化程式會使用 InstanceDescriptor 來表示可串行化的物件。 用來InstanceDescriptor表示或具現化對象的數種方法TypeDescriptor。
InstanceDescriptor提供下列成員:
MemberInfo描述這個物件的屬性。
Arguments屬性,包含可用來具現化這個物件的建構函式自變數。
布爾 IsComplete 值屬性,指出物件是否完全由目前資訊表示。
Invoke方法,可用來建立所表示對象的實例。
建構函式
| InstanceDescriptor(MemberInfo, ICollection) |
使用指定的成員資訊和引數,初始化 InstanceDescriptor 類別的新執行個體。 |
| InstanceDescriptor(MemberInfo, ICollection, Boolean) |
使用指定的成員資訊、引數和指示指定資訊是否完整描述執行個體的值,初始化 InstanceDescriptor 類別的新執行個體。 |
屬性
| Arguments |
取得可用來重建這個執行個體描述項所表示之物件執行個體的引數集合。 |
| IsComplete |
取得值,表示這個 InstanceDescriptor 的內容是否完整識別執行個體。 |
| MemberInfo |
取得描述與這個描述項相關之執行個體的成員資訊。 |
方法
| Equals(Object) |
判斷指定的物件是否等於目前的物件。 (繼承來源 Object) |
| GetHashCode() |
做為預設雜湊函式。 (繼承來源 Object) |
| GetType() |
取得目前執行個體的 Type。 (繼承來源 Object) |
| Invoke() |
叫用 (Invoke) 這個執行個體描述項,並傳回描述項所描述的物件。 |
| MemberwiseClone() |
建立目前 Object 的淺層複製。 (繼承來源 Object) |
| ToString() |
傳回代表目前物件的字串。 (繼承來源 Object) |
