IDisposable 接口
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。
提供一种用于释放非托管资源的机制。
public interface class IDisposablepublic interface IDisposable[System.Runtime.InteropServices.ComVisible(true)]
public interface IDisposabletype IDisposable = interface[<System.Runtime.InteropServices.ComVisible(true)>]
type IDisposable = interfacePublic Interface IDisposable- 派生
- 属性
示例
以下示例演示如何创建实现 IDisposable 接口的资源类。
#using <System.dll>
#using <System.Windows.Forms.dll>
using namespace System;
using namespace System::ComponentModel;
using namespace System::Windows::Forms;
// The following example demonstrates how to create a class that
// implements the IDisposable interface and the IDisposable.Dispose
// method with finalization to clean up unmanaged resources.
//
public ref class MyResource: public IDisposable
{
private:
// Pointer to an external unmanaged resource.
IntPtr handle;
// A managed resource this class uses.
Component^ component;
// Track whether Dispose has been called.
bool disposed;
public:
// The class constructor.
MyResource( IntPtr handle, Component^ component )
{
this->handle = handle;
this->component = component;
disposed = false;
}
// This method is called if the user explicitly disposes of the
// object (by calling the Dispose method in other managed languages,
// or the destructor in C++). The compiler emits as a call to
// GC::SuppressFinalize( this ) for you, so there is no need to
// call it here.
~MyResource()
{
// Dispose of managed resources.
component->~Component();
// Call C++ finalizer to clean up unmanaged resources.
this->!MyResource();
// Mark the class as disposed. This flag allows you to throw an
// exception if a disposed object is accessed.
disposed = true;
}
// Use interop to call the method necessary to clean up the
// unmanaged resource.
//
[System::Runtime::InteropServices::DllImport("Kernel32")]
static Boolean CloseHandle( IntPtr handle );
// The C++ finalizer destructor ensures that unmanaged resources get
// released if the user releases the object without explicitly
// disposing of it.
//
!MyResource()
{
// Call the appropriate methods to clean up unmanaged
// resources here. If disposing is false when Dispose(bool,
// disposing) is called, only the following code is executed.
CloseHandle( handle );
handle = IntPtr::Zero;
}
};
void main()
{
// Insert code here to create and use the MyResource object.
MyResource^ mr = gcnew MyResource((IntPtr) 42, (Component^) gcnew Button());
mr->~MyResource();
}
using System;
using System.ComponentModel;
// The following example demonstrates how to create
// a resource class that implements the IDisposable interface
// and the IDisposable.Dispose method.
public class DisposeExample
{
// A base class that implements IDisposable.
// By implementing IDisposable, you are announcing that
// instances of this type allocate scarce resources.
public class MyResource: IDisposable
{
// Pointer to an external unmanaged resource.
private IntPtr handle;
// Other managed resource this class uses.
private Component component = new Component();
// Track whether Dispose has been called.
private bool disposed = false;
// The class constructor.
public MyResource(IntPtr handle)
{
this.handle = handle;
}
// Implement IDisposable.
// Do not make this method virtual.
// A derived class should not be able to override this method.
public void Dispose()
{
Dispose(disposing: true);
// This object will be cleaned up by the Dispose method.
// Therefore, you should call GC.SuppressFinalize to
// take this object off the finalization queue
// and prevent finalization code for this object
// from executing a second time.
GC.SuppressFinalize(this);
}
// Dispose(bool disposing) executes in two distinct scenarios.
// If disposing equals true, the method has been called directly
// or indirectly by a user's code. Managed and unmanaged resources
// can be disposed.
// If disposing equals false, the method has been called by the
// runtime from inside the finalizer and you should not reference
// other objects. Only unmanaged resources can be disposed.
protected virtual void Dispose(bool disposing)
{
// Check to see if Dispose has already been called.
if(!this.disposed)
{
// If disposing equals true, dispose all managed
// and unmanaged resources.
if(disposing)
{
// Dispose managed resources.
component.Dispose();
}
// Call the appropriate methods to clean up
// unmanaged resources here.
// If disposing is false,
// only the following code is executed.
CloseHandle(handle);
handle = IntPtr.Zero;
// Note disposing has been done.
disposed = true;
}
}
// Use interop to call the method necessary
// to clean up the unmanaged resource.
[System.Runtime.InteropServices.DllImport("Kernel32")]
private extern static Boolean CloseHandle(IntPtr handle);
// Use C# finalizer syntax for finalization code.
// This finalizer will run only if the Dispose method
// does not get called.
// It gives your base class the opportunity to finalize.
// Do not provide finalizer in types derived from this class.
~MyResource()
{
// Do not re-create Dispose clean-up code here.
// Calling Dispose(disposing: false) is optimal in terms of
// readability and maintainability.
Dispose(disposing: false);
}
}
public static void Main()
{
// Insert code here to create
// and use the MyResource object.
}
}
// The following example demonstrates how to create
// a resource class that implements the IDisposable interface
// and the IDisposable.Dispose method.
open System
open System.ComponentModel
open System.Runtime.InteropServices
// Use interop to call the method necessary
// to clean up the unmanaged resource.
[<DllImport "Kernel32">]
extern Boolean CloseHandle(nativeint handle)
// A base class that implements IDisposable.
// By implementing IDisposable, you are announcing that
// instances of this type allocate scarce resources.
type MyResource(handle: nativeint) =
// Pointer to an external unmanaged resource.
let mutable handle = handle
// Other managed resource this class uses.
let comp = new Component()
// Track whether Dispose has been called.
let mutable disposed = false
// Implement IDisposable.
// Do not make this method virtual.
// A derived class should not be able to override this method.
interface IDisposable with
member this.Dispose() =
this.Dispose true
// This object will be cleaned up by the Dispose method.
// Therefore, you should call GC.SuppressFinalize to
// take this object off the finalization queue
// and prevent finalization code for this object
// from executing a second time.
GC.SuppressFinalize this
// Dispose(bool disposing) executes in two distinct scenarios.
// If disposing equals true, the method has been called directly
// or indirectly by a user's code. Managed and unmanaged resources
// can be disposed.
// If disposing equals false, the method has been called by the
// runtime from inside the finalizer and you should not reference
// other objects. Only unmanaged resources can be disposed.
abstract Dispose: bool -> unit
override _.Dispose(disposing) =
// Check to see if Dispose has already been called.
if not disposed then
// If disposing equals true, dispose all managed
// and unmanaged resources.
if disposing then
// Dispose managed resources.
comp.Dispose()
// Call the appropriate methods to clean up
// unmanaged resources here.
// If disposing is false,
// only the following code is executed.
CloseHandle handle |> ignore
handle <- IntPtr.Zero
// Note disposing has been done.
disposed <- true
// This finalizer will run only if the Dispose method
// does not get called.
// It gives your base class the opportunity to finalize.
// Do not provide finalizer in types derived from this class.
override this.Finalize() =
// Do not re-create Dispose clean-up code here.
// Calling Dispose(disposing: false) is optimal in terms of
// readability and maintainability.
this.Dispose false
Imports System.ComponentModel
' The following example demonstrates how to create
' a resource class that implements the IDisposable interface
' and the IDisposable.Dispose method.
Public Class DisposeExample
' A class that implements IDisposable.
' By implementing IDisposable, you are announcing that
' instances of this type allocate scarce resources.
Public Class MyResource
Implements IDisposable
' Pointer to an external unmanaged resource.
Private handle As IntPtr
' Other managed resource this class uses.
Private component As component
' Track whether Dispose has been called.
Private disposed As Boolean = False
' The class constructor.
Public Sub New(ByVal handle As IntPtr)
Me.handle = handle
End Sub
' Implement IDisposable.
' Do not make this method virtual.
' A derived class should not be able to override this method.
Public Overloads Sub Dispose() Implements IDisposable.Dispose
Dispose(disposing:=True)
' This object will be cleaned up by the Dispose method.
' Therefore, you should call GC.SupressFinalize to
' take this object off the finalization queue
' and prevent finalization code for this object
' from executing a second time.
GC.SuppressFinalize(Me)
End Sub
' Dispose(bool disposing) executes in two distinct scenarios.
' If disposing equals true, the method has been called directly
' or indirectly by a user's code. Managed and unmanaged resources
' can be disposed.
' If disposing equals false, the method has been called by the
' runtime from inside the finalizer and you should not reference
' other objects. Only unmanaged resources can be disposed.
Protected Overridable Overloads Sub Dispose(ByVal disposing As Boolean)
' Check to see if Dispose has already been called.
If Not Me.disposed Then
' If disposing equals true, dispose all managed
' and unmanaged resources.
If disposing Then
' Dispose managed resources.
component.Dispose()
End If
' Call the appropriate methods to clean up
' unmanaged resources here.
' If disposing is false,
' only the following code is executed.
CloseHandle(handle)
handle = IntPtr.Zero
' Note disposing has been done.
disposed = True
End If
End Sub
' Use interop to call the method necessary
' to clean up the unmanaged resource.
<System.Runtime.InteropServices.DllImport("Kernel32")> _
Private Shared Function CloseHandle(ByVal handle As IntPtr) As [Boolean]
End Function
' This finalizer will run only if the Dispose method
' does not get called.
' It gives your base class the opportunity to finalize.
' Do not provide finalize methods in types derived from this class.
Protected Overrides Sub Finalize()
' Do not re-create Dispose clean-up code here.
' Calling Dispose(disposing:=False) is optimal in terms of
' readability and maintainability.
Dispose(disposing:=False)
MyBase.Finalize()
End Sub
End Class
Public Shared Sub Main()
' Insert code here to create
' and use the MyResource object.
End Sub
End Class
注解
此接口的主要用途是释放非托管资源。 当不再使用托管对象时,垃圾回收器会自动释放分配给该对象的内存。 但是,无法预测垃圾回收的发生时间。 此外,垃圾回收器不了解非托管资源,例如窗口句柄或打开的文件和流。
Dispose使用此接口的 方法与垃圾回收器一起显式释放非托管资源。 当不再需要对象时,对象的使用者可以调用此方法。
警告
将 接口添加到 IDisposable 现有类是一项中断性变更。 由于类型的预先存在的使用者无法调用 Dispose,因此无法确定类型持有的非托管资源是否会释放。
IDisposable.Dispose由于 当不再需要实例拥有的资源时,某个类型的使用者会调用 实现,因此应将托管对象包装在 SafeHandle (建议的替代) 中,或者,在使用者忘记调用 Dispose的情况下,应重写 Object.Finalize 以释放非托管资源。
重要
在.NET Framework,C++ 编译器支持确定性处置资源,并且不允许直接实现 Dispose 方法。
有关如何使用此接口和 Object.Finalize 方法的详细讨论,请参阅 垃圾回收 和 实现 Dispose 方法 主题。
使用实现 IDisposable 的对象
如果应用仅使用实现 接口的对象 IDisposable ,则应在使用完对象后调用该对象的 IDisposable.Dispose 实现。 根据编程语言,可以通过以下两种方式之一执行此操作:
通过使用语言构造,例如
usingC# 和 Visual Basic 中的 语句,以及useF# 中的 语句或using函数。通过将对 实现的IDisposable.Dispose调用包装在 块中/
tryfinally。
注意
有关实现 IDisposable 的类型的文档请注意这一事实,并包含调用其 Dispose 实现的提醒。
C#、F# 和 Visual Basic Using 语句
如果你的语言支持构造,例如 C# 中的 using 语句、Visual Basic 中的 Using 语句或 F# 中的 use 语句,则可以使用它而不是显式调用 IDisposable.Dispose 自己。 以下示例在定义一个 WordCount 类时使用此方法,该类保留有关文件和其中单词数的信息。
using System;
using System.IO;
using System.Text.RegularExpressions;
public class WordCount
{
private String filename = String.Empty;
private int nWords = 0;
private String pattern = @"\b\w+\b";
public WordCount(string filename)
{
if (!File.Exists(filename))
throw new FileNotFoundException("The file does not exist.");
this.filename = filename;
string txt = String.Empty;
using (StreamReader sr = new StreamReader(filename))
{
txt = sr.ReadToEnd();
}
nWords = Regex.Matches(txt, pattern).Count;
}
public string FullName
{ get { return filename; } }
public string Name
{ get { return Path.GetFileName(filename); } }
public int Count
{ get { return nWords; } }
}
open System.IO
open System.Text.RegularExpressions
type WordCount(filename) =
let txt =
if File.Exists filename |> not then
raise (FileNotFoundException "The file does not exist.")
use sr = new StreamReader(filename)
sr.ReadToEnd()
let pattern = @"\b\w+\b"
let nWords = Regex.Matches(txt, pattern).Count
member _.FullName = filename
member _.Name = Path.GetFileName filename
member _.Count = nWords
Imports System.IO
Imports System.Text.RegularExpressions
Public Class WordCount
Private filename As String
Private nWords As Integer
Private pattern As String = "\b\w+\b"
Public Sub New(filename As String)
If Not File.Exists(filename) Then
Throw New FileNotFoundException("The file does not exist.")
End If
Me.filename = filename
Dim txt As String = String.Empty
Using sr As New StreamReader(filename)
txt = sr.ReadToEnd()
End Using
nWords = Regex.Matches(txt, pattern).Count
End Sub
Public ReadOnly Property FullName As String
Get
Return filename
End Get
End Property
Public ReadOnly Property Name As String
Get
Return Path.GetFileName(filename)
End Get
End Property
Public ReadOnly Property Count As Integer
Get
Return nWords
End Get
End Property
End Class
using F#) 中的语句 (use 表达式实际上是一种语法便利。 在编译时,语言编译器实现块的中间语言 (IL) try/finally 。
有关 语句的详细信息 using ,请参阅 Using 语句 或 using Statement 主题。
Try/Finally 块
如果编程语言不支持构造(如 using C# 或 Visual Basic 中的 语句)或 use F# 中的 语句,或者如果你不想使用它,则可以从 finally 语句的 try/finally 块调用 IDisposable.Dispose 实现。 以下示例将上一示例中的 块替换为 usingtry/finally 块。
using System;
using System.IO;
using System.Text.RegularExpressions;
public class WordCount2
{
private String filename = String.Empty;
private int nWords = 0;
private String pattern = @"\b\w+\b";
public WordCount2(string filename)
{
if (!File.Exists(filename))
throw new FileNotFoundException("The file does not exist.");
this.filename = filename;
string txt = String.Empty;
StreamReader? sr = null;
try
{
sr = new StreamReader(filename);
txt = sr.ReadToEnd();
}
finally
{
if (sr != null) sr.Dispose();
}
nWords = Regex.Matches(txt, pattern).Count;
}
public string FullName
{ get { return filename; } }
public string Name
{ get { return Path.GetFileName(filename); } }
public int Count
{ get { return nWords; } }
}
open System.IO
open System.Text.RegularExpressions
type WordCount2(filename) =
let txt =
if File.Exists filename |> not then
raise (FileNotFoundException "The file does not exist.")
let sr = new StreamReader(filename)
try
sr.ReadToEnd()
finally
sr.Dispose()
let pattern = @"\b\w+\b"
let nWords = Regex.Matches(txt, pattern).Count
member _.FullName = filename
member _.Name = Path.GetFileName filename
member _.Count = nWords
Imports System.IO
Imports System.Text.RegularExpressions
Public Class WordCount2
Private filename As String
Private nWords As Integer
Private pattern As String = "\b\w+\b"
Public Sub New(filename As String)
If Not File.Exists(filename) Then
Throw New FileNotFoundException("The file does not exist.")
End If
Me.filename = filename
Dim txt As String = String.Empty
Dim sr As StreamReader = Nothing
Try
sr = New StreamReader(filename)
txt = sr.ReadToEnd()
Finally
If sr IsNot Nothing Then sr.Dispose()
End Try
nWords = Regex.Matches(txt, pattern).Count
End Sub
Public ReadOnly Property FullName As String
Get
Return filename
End Get
End Property
Public ReadOnly Property Name As String
Get
Return Path.GetFileName(filename)
End Get
End Property
Public ReadOnly Property Count As Integer
Get
Return nWords
End Get
End Property
End Class
有关模式的详细信息 try/finally ,请参阅 试用...抓住。。。Finally 语句, try-finally, try...finally Expression 或 try-finally 语句。
正在实现 IDisposable
如果类型直接使用非托管资源,或者希望自己使用可释放资源,则应实现 IDisposable 。 当不再需要实例时,类型的使用者可以调用 IDisposable.Dispose 实现来释放资源。 若要处理它们无法调用 Dispose的情况,应使用派生自 SafeHandle 的类来包装非托管资源,或者应替代 Object.Finalize 引用类型的 方法。 在任一情况下,使用非托管资源后,都使用 Dispose 方法执行任何必要的清理,例如释放、释放或重置非托管资源。 有关实现 IDisposable.Dispose的详细信息 ,请参阅 Dispose (bool) 方法重载。
重要
如果要定义使用非托管资源的基类,并且具有或可能具有应释放的子类,则应实现 IDisposable.Dispose 方法并提供 的第二个重载 Dispose,如下一部分所述。
IDisposable 和继承层次结构
具有应为可释放的子类的基类必须 IDisposable 实现,如下所示。 每当在 Visual Basic) 中未 sealed (NotInheritable 的任何类型上实现IDisposable时,都应使用此模式。
它应提供一个公共的非虚拟 Dispose() 方法和受保护的虚拟
Dispose(Boolean disposing)方法。方法 Dispose() 必须调用
Dispose(true),并且应禁止最终确定性能。基类型不应包括任何终结器。
以下代码片段反映了基类的释放模式。 它假定类型不重写 Object.Finalize 方法。
using System;
using System.IO;
using System.Runtime.InteropServices;
class BaseClass1 : IDisposable
{
// Flag: Has Dispose already been called?
bool disposed = false;
// Instantiate a FileStream instance.
FileStream fs = new FileStream("test.txt", FileMode.OpenOrCreate);
// Public implementation of Dispose pattern callable by consumers.
public void Dispose()
{
Dispose(disposing: true);
GC.SuppressFinalize(this);
}
// Protected implementation of Dispose pattern.
protected virtual void Dispose(bool disposing)
{
if (disposed)
return;
if (disposing)
{
fs.Dispose();
// Free any other managed objects here.
//
}
disposed = true;
}
}
open System
open System.IO
type BaseClass1() =
// Flag: Has Dispose already been called?
let mutable disposed = false
// Instantiate a FileStream instance.
let fs = new FileStream("test.txt", FileMode.OpenOrCreate)
interface IDisposable with
// Public implementation of Dispose pattern callable by consumers.
member this.Dispose() =
this.Dispose true
GC.SuppressFinalize this
// Implementation of Dispose pattern.
abstract Dispose: bool -> unit
override _.Dispose(disposing) =
if not disposed then
if disposing then
fs.Dispose()
// Free any other managed objects here.
disposed <- true
Imports System.IO
Imports System.Runtime.InteropServices
Class BaseClass1 : Implements IDisposable
' Flag: Has Dispose already been called?
Dim disposed As Boolean = False
' Instantiate a FileStream instance.
Dim fs As FileStream = New FileStream("test.txt", FileMode.OpenOrCreate)
' Public implementation of Dispose pattern callable by consumers.
Public Sub Dispose() _
Implements IDisposable.Dispose
Dispose(disposing:=True)
GC.SuppressFinalize(Me)
End Sub
' Protected implementation of Dispose pattern.
Protected Overridable Sub Dispose(disposing As Boolean)
If disposed Then Return
If disposing Then
fs.Dispose()
' Free any other managed objects here.
'
End If
disposed = True
End Sub
End Class
如果确实重写 Object.Finalize 了 方法,则类应实现以下模式。
using System;
class BaseClass2 : IDisposable
{
// Flag: Has Dispose already been called?
bool disposed = false;
// Public implementation of Dispose pattern callable by consumers.
public void Dispose()
{
Dispose(disposing: true);
GC.SuppressFinalize(this);
}
// Protected implementation of Dispose pattern.
protected virtual void Dispose(bool disposing)
{
if (disposed)
return;
if (disposing)
{
// Free any other managed objects here.
//
}
// Free any unmanaged objects here.
//
disposed = true;
}
~BaseClass2()
{
Dispose(disposing: false);
}
}
open System
type BaseClass2() =
// Flag: Has Dispose already been called?
let mutable disposed = false
interface IDisposable with
// Public implementation of Dispose pattern callable by consumers.
member this.Dispose() =
this.Dispose true
GC.SuppressFinalize this
// Implementation of Dispose pattern.
abstract Dispose: bool -> unit
override _.Dispose(disposing) =
if not disposed then
if disposing then
// Free any other managed objects here.
()
// Free any unmanaged objects here.
disposed <- true
override this.Finalize() =
this.Dispose false
Class BaseClass : Implements IDisposable
' Flag: Has Dispose already been called?
Dim disposed As Boolean = False
' Public implementation of Dispose pattern callable by consumers.
Public Sub Dispose() _
Implements IDisposable.Dispose
Dispose(disposing:=True)
GC.SuppressFinalize(Me)
End Sub
' Protected implementation of Dispose pattern.
Protected Overridable Sub Dispose(disposing As Boolean)
If disposed Then Return
If disposing Then
' Free any other managed objects here.
'
End If
' Free any unmanaged objects here.
'
disposed = True
End Sub
Protected Overrides Sub Finalize()
Dispose(disposing:=False)
End Sub
End Class
子类应实现以下可释放模式:
它们必须重写
Dispose(Boolean)并调用基类Dispose(Boolean)实现。如果需要,他们可以提供终结器。 终结器必须调用
Dispose(false)。
请注意,派生类本身不实现 IDisposable 接口,也不包括无 Dispose 参数方法。 它们仅重写基类 Dispose(Boolean) 方法。
以下代码片段反映了派生类的释放模式。 它假定类型不重写 Object.Finalize 方法。
using System;
using System.IO;
using System.Runtime.InteropServices;
class MyDerivedClass : MyBaseClass
{
// Flag: Has Dispose already been called?
bool disposed = false;
// Instantiate a FileStream instance.
FileStream fs = new FileStream("test.txt", FileMode.OpenOrCreate);
// Protected implementation of Dispose pattern.
protected override void Dispose(bool disposing)
{
if (disposed)
return;
if (disposing)
{
fs.Dispose();
// Free any other managed objects here.
//
}
// Free any unmanaged objects here.
//
disposed = true;
// Call base class implementation.
base.Dispose(disposing);
}
}
open Microsoft.Win32.SafeHandles
open System
type MyDerivedClass() =
inherit MyBaseClass()
// Flag: Has Dispose already been called?
let mutable disposed = false
// Instantiate a FileStream instance.
let fs = new FileStream("test.txt", FileMode.OpenOrCreate)
// Implementation of Dispose pattern.
override _.Dispose(disposing) =
if not disposed then
if disposing then
fs.Dispose()
// Free any other managed objects here.
// Free any unmanaged objects here.
disposed <- true
// Call base class implementation.
base.Dispose disposing
Imports System.IO
Imports System.Runtime.InteropServices
Class DerivedClass2 : Inherits BaseClass2
' Flag: Has Dispose already been called?
Dim disposed As Boolean = False
' Instantiate a FileStream instance.
Dim fs As FileStream = New FileStream("test.txt", FileMode.OpenOrCreate)
' Protected implementation of Dispose pattern.
Protected Overrides Sub Dispose(disposing As Boolean)
If disposed Then Return
If disposing Then
fs.Dispose()
' Free any other managed objects here.
'
End If
' Free any unmanaged objects here.
'
disposed = True
' Call base class implementation.
MyBase.Dispose(disposing)
End Sub
End Class
方法
| Dispose() |
执行与释放或重置非托管资源关联的应用程序定义的任务。 |