Lazy<T> コンストラクター
定義
重要
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Lazy<T> クラスの新しいインスタンスを初期化します。
オーバーロード
| Lazy<T>() |
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生した場合、ターゲットの型のパラメーターなしのコンストラクターが使用されます。 |
| Lazy<T>(Boolean) |
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生した場合、ターゲットの型のパラメーターなしのコンストラクターと指定された初期化モードが使用されます。 |
| Lazy<T>(Func<T>) |
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生すると、指定された初期化関数が使用されます。 |
| Lazy<T>(LazyThreadSafetyMode) |
|
| Lazy<T>(T) |
事前に初期化され、指定された値を使用する Lazy<T> クラスの新しいインスタンスを初期化します。 |
| Lazy<T>(Func<T>, Boolean) |
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生すると、指定された初期化関数と初期化モードが使用されます。 |
| Lazy<T>(Func<T>, LazyThreadSafetyMode) |
指定された初期化関数とスレッド セーフ モードを使用する Lazy<T> クラスの新しいインスタンスを初期化します。 |
Lazy<T>()
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生した場合、ターゲットの型のパラメーターなしのコンストラクターが使用されます。
public:
Lazy();public Lazy ();Public Sub New ()例
次の例では、このコンストラクターの使用方法を示します。 また、コンストラクター (指定対象) とLazy<T>(LazyThreadSafetyMode)コンストラクター (指定true対象isThreadSafe) の使用方法Lazy<T>(Boolean)もLazyThreadSafetyMode.ExecutionAndPublicationmode示します。 別のコンストラクターに切り替えるには、コメントアウトするコンストラクターを変更するだけです。
この例では、複数あるスレッドのうちの 1 つによって遅れて初期化される LargeObject クラスを定義します。 この例の 2 つの重要なコード行は、初期化子の作成と実際の初期化です。 Main メソッドの開始時に、この例では LargeObject のスレッドセーフな遅延初期化子が作成されます。
lazyLargeObject = new Lazy<LargeObject>();
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(true);
//lazyLargeObject = new Lazy<LargeObject>(LazyThreadSafetyMode.ExecutionAndPublication);
let lazyLargeObject = Lazy<LargeObject>()
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(true)
// let lazyLargeObject = Lazy<LargeObject>(LazyThreadSafetyMode.ExecutionAndPublication)
lazyLargeObject = New Lazy(Of LargeObject)()
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = New Lazy(Of LargeObject)(True)
'lazyLargeObject = New Lazy(Of LargeObject)(LazyThreadSafetyMode.ExecutionAndPublication)
この例では、オブジェクトでブロックする 3 つのスレッドを ManualResetEvent 作成して開始します。この例では、スレッドをすべて一度に解放できます。 3 つのスレッドすべてで使用されるメソッドは ThreadProc 、プロパティを Value 呼び出してインスタンスを LargeObject 取得します。
LargeObject large = lazyLargeObject.Value;
let large = lazyLargeObject.Value
Dim large As LargeObject = lazyLargeObject.Value
このクラスは Lazy<T> ロックを提供するため、インスタンスの作成 LargeObject が許可されるスレッドは 1 つだけです。 この例では、他のスレッドがすべて同じインスタンスを取得することを示しています。
注意
簡略化のために、この例では Lazy<T> のグローバル インスタンスを使用して、すべてのメソッドは static (Visual Basic の Shared) です。 これらは、遅延初期化を使用するための要件ではありません。
using System;
using System.Threading;
class Program
{
static Lazy<LargeObject> lazyLargeObject = null;
static void Main()
{
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
lazyLargeObject = new Lazy<LargeObject>();
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(true);
//lazyLargeObject = new Lazy<LargeObject>(LazyThreadSafetyMode.ExecutionAndPublication);
Console.WriteLine(
"\r\nLargeObject is not created until you access the Value property of the lazy" +
"\r\ninitializer. Press Enter to create LargeObject.");
Console.ReadLine();
// Create and start 3 threads, passing the same blocking event to all of them.
ManualResetEvent startingGate = new ManualResetEvent(false);
Thread[] threads = { new Thread(ThreadProc), new Thread(ThreadProc), new Thread(ThreadProc) };
foreach (Thread t in threads)
{
t.Start(startingGate);
}
// Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep(100);
startingGate.Set();
// Wait for all 3 threads to finish. (The order doesn't matter.)
foreach (Thread t in threads)
{
t.Join();
}
Console.WriteLine("\r\nPress Enter to end the program");
Console.ReadLine();
}
static void ThreadProc(object state)
{
// Wait for the signal.
ManualResetEvent waitForStart = (ManualResetEvent) state;
waitForStart.WaitOne();
LargeObject large = lazyLargeObject.Value;
// The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5);
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock(large)
{
large.Data[0] = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("Initialized by thread {0}; last used by thread {1}.",
large.InitializedBy, large.Data[0]);
}
}
}
class LargeObject
{
int initBy = 0;
public int InitializedBy { get { return initBy; } }
public LargeObject()
{
initBy = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("LargeObject was created on thread id {0}.", initBy);
}
public long[] Data = new long[100000000];
}
/* This example produces output similar to the following:
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject.
LargeObject was created on thread id 4.
Initialized by thread 4; last used by thread 3.
Initialized by thread 4; last used by thread 4.
Initialized by thread 4; last used by thread 5.
Press Enter to end the program
*/
open System
open System.Threading
type LargeObject() =
let initBy = Thread.CurrentThread.ManagedThreadId
do
printfn $"LargeObject was created on thread id {initBy}."
member val Data = Array.zeroCreate<int64> 100000000 with get
member _.InitializedBy = initBy
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
let lazyLargeObject = Lazy<LargeObject>()
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(true)
// let lazyLargeObject = Lazy<LargeObject>(LazyThreadSafetyMode.ExecutionAndPublication)
let threadProc (state: obj) =
// Wait for the signal.
let waitForStart = state :?> ManualResetEvent
waitForStart.WaitOne() |> ignore
let large = lazyLargeObject.Value
// The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep 5
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock large (fun () ->
large.Data[0] <- Thread.CurrentThread.ManagedThreadId
printfn $"Initialized by thread {large.InitializedBy} last used by thread {large.Data[0]}." )
printfn """
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject."""
stdin.ReadLine() |> ignore
// Create and start 3 threads, passing the same blocking event to all of them.
let startingGate = new ManualResetEvent false
let threads = [| Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc) |]
for t in threads do
t.Start startingGate
// Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep 100
startingGate.Set() |> ignore
// Wait for all 3 threads to finish. (The order doesn't matter.)
for t in threads do
t.Join()
printfn "\nPress Enter to end the program"
stdin.ReadLine() |> ignore
// This example produces output similar to the following:
// LargeObject is not created until you access the Value property of the lazy
// initializer. Press Enter to create LargeObject.
//
// LargeObject was created on thread id 4.
// Initialized by thread 4 last used by thread 3.
// Initialized by thread 4 last used by thread 4.
// Initialized by thread 4 last used by thread 5.
//
// Press Enter to end the program
Imports System.Threading
Class Program
Private Shared lazyLargeObject As Lazy(Of LargeObject) = Nothing
Shared Sub Main()
' The lazy initializer is created here. LargeObject is not created until the
' ThreadProc method executes.
lazyLargeObject = New Lazy(Of LargeObject)()
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = New Lazy(Of LargeObject)(True)
'lazyLargeObject = New Lazy(Of LargeObject)(LazyThreadSafetyMode.ExecutionAndPublication)
Console.WriteLine( _
vbCrLf & "LargeObject is not created until you access the Value property of the lazy" _
& vbCrLf & "initializer. Press Enter to create LargeObject.")
Console.ReadLine()
' Create and start 3 threads, passing the same blocking event to all of them.
Dim startingGate As New ManualResetEvent(False)
Dim threads() As Thread = { New Thread(AddressOf ThreadProc),
New Thread(AddressOf ThreadProc), New Thread(AddressOf ThreadProc) }
For Each t As Thread In threads
t.Start(startingGate)
Next t
' Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep(100)
startingGate.Set()
' Wait for all 3 threads to finish. (The order doesn't matter.)
For Each t As Thread In threads
t.Join()
Next t
Console.WriteLine(vbCrLf & "Press Enter to end the program")
Console.ReadLine()
End Sub
Private Shared Sub ThreadProc(ByVal state As Object)
' Wait for the signal.
Dim waitForStart As ManualResetEvent = CType(state, ManualResetEvent)
waitForStart.WaitOne()
Dim large As LargeObject = lazyLargeObject.Value
' The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5)
' IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
' object after creation. You must lock the object before accessing it,
' unless the type is thread safe. (LargeObject is not thread safe.)
SyncLock large
large.Data(0) = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("Initialized by thread {0}; last used by thread {1}.", _
large.InitializedBy, large.Data(0))
End SyncLock
End Sub
End Class
Class LargeObject
Private initBy As Integer = 0
Public ReadOnly Property InitializedBy() As Integer
Get
Return initBy
End Get
End Property
Public Sub New()
initBy = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("LargeObject was created on thread id {0}.", initBy)
End Sub
Public Data(100000000) As Long
End Class
' This example produces output similar to the following:
'
'LargeObject is not created until you access the Value property of the lazy
'initializer. Press Enter to create LargeObject.
'
'LargeObject was created on thread id 3.
'Initialized by thread 3; last used by thread 5.
'Initialized by thread 3; last used by thread 4.
'Initialized by thread 3; last used by thread 3.
'
'Press Enter to end the program
注釈
このコンストラクターで作成されたインスタンスは、複数のスレッドから同時に使用できます。
このコンストラクターで初期化されるインスタンスの Lazy<T> スレッド セーフ モードは、次のようになります LazyThreadSafetyMode.ExecutionAndPublication。 スレッド セーフ モードでは、複数のスレッドがインスタンスを初期化しようとしたときの動作が Lazy<T> 記述されます。
Lazy<T>このコンストラクターを使用して作成されたインスタンスは、例外をキャッシュしません。 詳細については、Lazy<T> クラスまたは System.Threading.LazyThreadSafetyMode 列挙体の解説を参照してください。
こちらもご覧ください
適用対象
Lazy<T>(Boolean)
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生した場合、ターゲットの型のパラメーターなしのコンストラクターと指定された初期化モードが使用されます。
public:
Lazy(bool isThreadSafe);public Lazy (bool isThreadSafe);new Lazy<'T> : bool -> Lazy<'T>Public Sub New (isThreadSafe As Boolean)パラメーター
- isThreadSafe
- Boolean
同時に複数のスレッドでこのインスタンスを使用できるようにする場合には true、このインスタンスを一度に 1 つのスレッドのみで使用できるようにする場合は false。
例
次の例では、このコンストラクターを使用して、遅延初期化オブジェクトへのすべてのアクセスが同じスレッドで発生するシナリオで、スレッド セーフではない遅延初期化子を作成する方法を示します。 また、コンストラクターのLazy<T>(LazyThreadSafetyMode)使用方法も示します (次を指定しますmodeLazyThreadSafetyMode.None。 別のコンストラクターに切り替えるには、コメントアウトされるコンストラクターを変更するだけです。
注意
マルチスレッド シナリオ (指定対象) でこのコンストラクターを使用する方法をtrue``isThreadSafe示すコードについては、コンストラクターの例をLazy<T>()参照してください。
この例では、 LargeObject 遅延で初期化されるクラスを定義します。 Mainこのメソッドでは、インスタンスをLazy<T>作成してから一時停止します。 Enter キーを押すと、インスタンスのLazy<T>プロパティにValueアクセスし、初期化が発生します。 クラスのコンストラクターは LargeObject 、コンソール メッセージを表示します。
注意
簡略化のために、この例では Lazy<T> のグローバル インスタンスを使用して、すべてのメソッドは static (Visual Basic の Shared) です。 これらは、遅延初期化を使用するための要件ではありません。
using System;
using System.Threading;
class Program
{
static Lazy<LargeObject> lazyLargeObject = null;
static void Main()
{
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
lazyLargeObject = new Lazy<LargeObject>(false);
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(LazyThreadSafetyMode.None);
Console.WriteLine(
"\r\nLargeObject is not created until you access the Value property of the lazy" +
"\r\ninitializer. Press Enter to create LargeObject.");
Console.ReadLine();
LargeObject large = lazyLargeObject.Value;
large.Data[11] = 89;
Console.WriteLine("\r\nPress Enter to end the program");
Console.ReadLine();
}
}
class LargeObject
{
public LargeObject()
{
Console.WriteLine("LargeObject was created on thread id {0}.",
Thread.CurrentThread.ManagedThreadId);
}
public long[] Data = new long[100000000];
}
/* This example produces output similar to the following:
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject.
LargeObject was created on thread id 1.
Press Enter to end the program
*/
open System
open System.Threading
type LargeObject () =
do
printfn $"LargeObject was created on thread id {Thread.CurrentThread.ManagedThreadId}."
member val Data = Array.zeroCreate<int64> 100000000 with get
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
let lazyLargeObject = Lazy<LargeObject> false
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(LazyThreadSafetyMode.None)
printfn """
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject."""
stdin.ReadLine() |> ignore
let large = lazyLargeObject.Value
large.Data[11] <- 89
printfn "\nPress Enter to end the program"
stdin.ReadLine() |> ignore
// This example produces output similar to the following:
// LargeObject is not created until you access the Value property of the lazy
// initializer. Press Enter to create LargeObject.
//
// LargeObject was created on thread id 1.
//
// Press Enter to end the program
Imports System.Threading
Friend Class Program
Private Shared lazyLargeObject As Lazy(Of LargeObject) = Nothing
Shared Sub Main()
' The lazy initializer is created here. LargeObject is not created until the
' ThreadProc method executes.
lazyLargeObject = New Lazy(Of LargeObject)(False)
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = new Lazy<LargeObject>(LazyThreadSafetyMode.None);
Console.WriteLine( _
vbCrLf & "LargeObject is not created until you access the Value property of the lazy" _
& vbCrLf & "initializer. Press Enter to create LargeObject.")
Console.ReadLine()
Dim large As LargeObject = lazyLargeObject.Value
large.Data(11) = 89
Console.WriteLine(vbCrLf & "Press Enter to end the program")
Console.ReadLine()
End Sub
End Class
Friend Class LargeObject
Public Sub New()
Console.WriteLine("LargeObject was created on thread id {0}.", _
Thread.CurrentThread.ManagedThreadId)
End Sub
Public Data(100000000) As Long
End Class
' This example produces output similar to the following:
'
'LargeObject is not created until you access the Value property of the lazy
'initializer. Press Enter to create LargeObject.
'
'LargeObject was created on thread id 1.
'
'Press Enter to end the program
注釈
このコンストラクターで初期化されるインスタンスのLazy<T>スレッド セーフ モードは if isThreadSafe trueですLazyThreadSafetyMode.ExecutionAndPublication。それ以外の場合、モードは LazyThreadSafetyMode.None. スレッド セーフ モードでは、複数のスレッドがインスタンスを初期化しようとしたときの動作が Lazy<T> 記述されます。 モードをLazyThreadSafetyMode.PublicationOnly指定するには、またはLazy<T>(LazyThreadSafetyMode)コンストラクターをLazy<T>(Func<T>, LazyThreadSafetyMode)使用します。
Lazy<T>このコンストラクターを使用して作成されたインスタンスは、例外をキャッシュしません。 詳細については、Lazy<T> クラスまたは System.Threading.LazyThreadSafetyMode 列挙体の解説を参照してください。
こちらもご覧ください
適用対象
Lazy<T>(Func<T>)
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生すると、指定された初期化関数が使用されます。
public:
Lazy(Func<T> ^ valueFactory);public Lazy (Func<T> valueFactory);new Lazy<'T> : Func<'T> -> Lazy<'T>Public Sub New (valueFactory As Func(Of T))パラメーター
- valueFactory
- Func<T>
必要に応じて、遅延初期化の値を生成するために呼び出されるデリゲート。
例外
valueFactory が nullです。
例
次の例では、このコンストラクターを使用して、例外キャッシュを使用して遅延初期化を提供する方法を示します。 また、コンストラクター (指定対象) とLazy<T>(Func<T>, LazyThreadSafetyMode)コンストラクター (指定true対象isThreadSafe) の使用方法Lazy<T>(Func<T>, Boolean)もLazyThreadSafetyMode.ExecutionAndPublicationmode示します。 別のコンストラクターに切り替えるには、コメントアウトするコンストラクターを変更するだけです。
この例では、複数あるスレッドのうちの 1 つによって遅れて初期化される LargeObject クラスを定義します。 コードの 3 つの主要なセクションは、初期化子の作成、実際の初期化、および例外キャッシュを LargeObject 示すクラスのコンストラクターを示しています。 Main メソッドの開始時に、この例では LargeObject のスレッドセーフな遅延初期化子が作成されます。
lazyLargeObject = new Lazy<LargeObject>(InitLargeObject);
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, true);
//lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, LazyThreadSafetyMode.ExecutionAndPublication);
let lazyLargeObject = Lazy<LargeObject> initLargeObject
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(initLargeObject, true)
// let lazyLargeObject = Lazy<LargeObject>(initLargeObject, LazyThreadSafetyMode.ExecutionAndPublication)
lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject)
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, True)
'lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, LazyThreadSafetyMode.ExecutionAndPublication)
この例では、3 つのスレッドを作成して開始します。 3 つのスレッドすべてで使用されるメソッドは ThreadProc 、プロパティを Value 呼び出してインスタンスを LargeObject 取得します。
try
{
LargeObject large = lazyLargeObject.Value;
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock(large)
{
large.Data[0] = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("Initialized by thread {0}; last used by thread {1}.",
large.InitializedBy, large.Data[0]);
}
}
catch (ApplicationException aex)
{
Console.WriteLine("Exception: {0}", aex.Message);
}
try
let large = lazyLargeObject.Value
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock large (fun () ->
large.Data[0] <- Thread.CurrentThread.ManagedThreadId
printfn $"Initialized by thread {large.InitializedBy} last used by thread {large.Data[0]}.")
with :? ApplicationException as aex ->
printfn $"Exception: {aex.Message}"
Try
Dim large As LargeObject = lazyLargeObject.Value
' IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
' object after creation. You must lock the object before accessing it,
' unless the type is thread safe. (LargeObject is not thread safe.)
SyncLock large
large.Data(0) = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("Initialized by thread {0}; last used by thread {1}.", _
large.InitializedBy, large.Data(0))
End SyncLock
Catch aex As ApplicationException
Console.WriteLine("Exception: {0}", aex.Message)
End Try
クラスの LargeObject コンストラクターでは、コードの 3 番目のキー セクションでは、インスタンスが初めて作成されるときに LargeObject 例外がスローされますが、その後はインスタンスの作成が可能になります。
static int instanceCount = 0;
public LargeObject()
{
if (1 == Interlocked.Increment(ref instanceCount))
{
throw new ApplicationException("Throw only ONCE.");
}
initBy = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("LargeObject was created on thread id {0}.", initBy);
}
type LargeObject() =
static let mutable instanceCount = 0
let initBy = Thread.CurrentThread.ManagedThreadId
do
if 1 = Interlocked.Increment &instanceCount then
raise (ApplicationException "Throw only ONCE.")
printfn $"LargeObject was created on thread id {initBy}."
Private Shared instanceCount As Integer = 0
Public Sub New()
If 1 = Interlocked.Increment(instanceCount) Then
Throw New ApplicationException("Throw only ONCE.")
End If
initBy = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("LargeObject was created on thread id {0}.", initBy)
End Sub
この例を実行すると、インスタンスの作成を試みる最初の LargeObject スレッドが失敗し、例外がキャッチされます。 次のスレッドでインスタンスが正常に作成されると予想される場合がありますが Lazy<T> 、オブジェクトによって例外がキャッシュされています。 このため、3 つのスレッドはすべて例外をスローします。
注意
簡略化のために、この例では Lazy<T> のグローバル インスタンスを使用して、すべてのメソッドは static (Visual Basic の Shared) です。 これらは、遅延初期化を使用するための要件ではありません。
using System;
using System.Threading;
class Program
{
static Lazy<LargeObject> lazyLargeObject = null;
static LargeObject InitLargeObject()
{
return new LargeObject();
}
static void Main()
{
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
lazyLargeObject = new Lazy<LargeObject>(InitLargeObject);
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, true);
//lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, LazyThreadSafetyMode.ExecutionAndPublication);
Console.WriteLine(
"\r\nLargeObject is not created until you access the Value property of the lazy" +
"\r\ninitializer. Press Enter to create LargeObject.");
Console.ReadLine();
// Create and start 3 threads, each of which tries to use LargeObject.
Thread[] threads = { new Thread(ThreadProc), new Thread(ThreadProc), new Thread(ThreadProc) };
foreach (Thread t in threads)
{
t.Start();
}
// Wait for all 3 threads to finish. (The order doesn't matter.)
foreach (Thread t in threads)
{
t.Join();
}
Console.WriteLine("\r\nPress Enter to end the program");
Console.ReadLine();
}
static void ThreadProc(object state)
{
try
{
LargeObject large = lazyLargeObject.Value;
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock(large)
{
large.Data[0] = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("Initialized by thread {0}; last used by thread {1}.",
large.InitializedBy, large.Data[0]);
}
}
catch (ApplicationException aex)
{
Console.WriteLine("Exception: {0}", aex.Message);
}
}
}
class LargeObject
{
int initBy = 0;
public int InitializedBy { get { return initBy; } }
static int instanceCount = 0;
public LargeObject()
{
if (1 == Interlocked.Increment(ref instanceCount))
{
throw new ApplicationException("Throw only ONCE.");
}
initBy = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("LargeObject was created on thread id {0}.", initBy);
}
public long[] Data = new long[100000000];
}
/* This example produces output similar to the following:
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject.
Exception: Throw only ONCE.
Exception: Throw only ONCE.
Exception: Throw only ONCE.
Press Enter to end the program
*/
open System
open System.Threading
type LargeObject() =
static let mutable instanceCount = 0
let initBy = Thread.CurrentThread.ManagedThreadId
do
if 1 = Interlocked.Increment &instanceCount then
raise (ApplicationException "Throw only ONCE.")
printfn $"LargeObject was created on thread id {initBy}."
member _.InitializedBy = initBy
member val Data = Array.zeroCreate<int64> 100000000
let initLargeObject () =
LargeObject()
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
let lazyLargeObject = Lazy<LargeObject> initLargeObject
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(initLargeObject, true)
// let lazyLargeObject = Lazy<LargeObject>(initLargeObject, LazyThreadSafetyMode.ExecutionAndPublication)
let threadProc _ =
try
let large = lazyLargeObject.Value
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock large (fun () ->
large.Data[0] <- Thread.CurrentThread.ManagedThreadId
printfn $"Initialized by thread {large.InitializedBy} last used by thread {large.Data[0]}.")
with :? ApplicationException as aex ->
printfn $"Exception: {aex.Message}"
printfn """
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject."""
stdin.ReadLine () |> ignore
// Create and start 3 threads, each of which tries to use LargeObject.
let threads =
[| Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc) |]
for t in threads do
t.Start()
// Wait for all 3 threads to finish. (The order doesn't matter.)
for t in threads do
t.Join()
printfn "\nPress Enter to end the program"
stdin.ReadLine() |> ignore
// This example produces output similar to the following:
// LargeObject is not created until you access the Value property of the lazy
// initializer. Press Enter to create LargeObject.
//
// Exception: Throw only ONCE.
// Exception: Throw only ONCE.
// Exception: Throw only ONCE.
//
// Press Enter to end the program
Imports System.Threading
Friend Class Program
Private Shared lazyLargeObject As Lazy(Of LargeObject) = Nothing
Private Shared Function InitLargeObject() As LargeObject
Return New LargeObject()
End Function
Shared Sub Main()
' The lazy initializer is created here. LargeObject is not created until the
' ThreadProc method executes.
lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject)
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, True)
'lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, LazyThreadSafetyMode.ExecutionAndPublication)
Console.WriteLine(vbCrLf _
& "LargeObject is not created until you access the Value property of the lazy" _
& vbCrLf & "initializer. Press Enter to create LargeObject.")
Console.ReadLine()
' Create and start 3 threads, each of which tries to use LargeObject.
Dim threads() As Thread = { New Thread(AddressOf ThreadProc), _
New Thread(AddressOf ThreadProc), New Thread(AddressOf ThreadProc) }
For Each t As Thread In threads
t.Start()
Next t
' Wait for all 3 threads to finish. (The order doesn't matter.)
For Each t As Thread In threads
t.Join()
Next t
Console.WriteLine(vbCrLf & "Press Enter to end the program")
Console.ReadLine()
End Sub
Private Shared Sub ThreadProc(ByVal state As Object)
Try
Dim large As LargeObject = lazyLargeObject.Value
' IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
' object after creation. You must lock the object before accessing it,
' unless the type is thread safe. (LargeObject is not thread safe.)
SyncLock large
large.Data(0) = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("Initialized by thread {0}; last used by thread {1}.", _
large.InitializedBy, large.Data(0))
End SyncLock
Catch aex As ApplicationException
Console.WriteLine("Exception: {0}", aex.Message)
End Try
End Sub
End Class
Friend Class LargeObject
Private initBy As Integer = 0
Public ReadOnly Property InitializedBy() As Integer
Get
Return initBy
End Get
End Property
Private Shared instanceCount As Integer = 0
Public Sub New()
If 1 = Interlocked.Increment(instanceCount) Then
Throw New ApplicationException("Throw only ONCE.")
End If
initBy = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("LargeObject was created on thread id {0}.", initBy)
End Sub
Public Data(99999999) As Long
End Class
' This example produces output similar to the following:
'
'LargeObject is not created until you access the Value property of the lazy
'initializer. Press Enter to create LargeObject.
'
'Exception: Throw only ONCE.
'Exception: Throw only ONCE.
'Exception: Throw only ONCE.
'
'Press Enter to end the program
'
注釈
このコンストラクターで作成されたインスタンスは、複数のスレッドから同時に使用できます。
このコンストラクターで初期化されるインスタンスの Lazy<T> スレッド セーフ モードは、次のようになります LazyThreadSafetyMode.ExecutionAndPublication。 スレッド セーフ モードでは、複数のスレッドがインスタンスを初期化しようとしたときの動作が Lazy<T> 記述されます。
スロー valueFactory される例外はキャッシュされます。 詳細については、Lazy<T> クラスまたは System.Threading.LazyThreadSafetyMode 列挙体の解説を参照してください。
こちらもご覧ください
適用対象
Lazy<T>(LazyThreadSafetyMode)
T のパラメーターなしのコンストラクターと指定されたスレッド セーフ モードを使用する Lazy<T> クラスの新しいインスタンスを初期化します。
public:
Lazy(System::Threading::LazyThreadSafetyMode mode);public Lazy (System.Threading.LazyThreadSafetyMode mode);new Lazy<'T> : System.Threading.LazyThreadSafetyMode -> Lazy<'T>Public Sub New (mode As LazyThreadSafetyMode)パラメーター
- mode
- LazyThreadSafetyMode
スレッド セーフ モードを指定する列挙値の 1 つ。
例外
mode に無効な値が含まれています。
例
次の例では、このコンストラクターを使用して、複数のスレッドがオブジェクトの遅延作成を競合できるようにする遅延初期化子を作成する方法を示します。 複数のスレッドがインスタンスの作成に成功する可能性がありますが、すべてのスレッドで最初に作成されたインスタンスが使用されます。
注意
シングル スレッド シナリオ (指定対象) でこのコンストラクターを使用する方法を示す例については、コンストラクターをLazyThreadSafetyMode.NonemodeLazy<T>(Boolean)参照してください。 マルチスレッド シナリオで競合状態ではなくロックを提供するためにこのコンストラクターを使用する方法を示す例については、コンストラクターをLazyThreadSafetyMode.ExecutionAndPublicationmodeLazy<T>()参照してください。
この例では、複数の LargeObject スレッドのいずれかによって遅延的に初期化されるクラスを定義します。 コードの 3 つの主要なセクションは、初期化子の作成、実際の初期化、クラスのコンストラクターとファイナライザーを LargeObject 示しています。 この例では、メソッドの Main 先頭に、次のオブジェクトの Lazy<T> 遅延初期化を実行するオブジェクトを LargeObject作成します。
lazyLargeObject = new Lazy<LargeObject>(LazyThreadSafetyMode.PublicationOnly);
let lazyLargeObject = Lazy<LargeObject> LazyThreadSafetyMode.PublicationOnly
lazyLargeObject = New Lazy(Of LargeObject)(LazyThreadSafetyMode.PublicationOnly)
この例では、オブジェクトでブロックする 3 つのスレッドを ManualResetEvent 作成して開始します。この例では、スレッドをすべて一度に解放できます。 ThreadProc 3 つのスレッドすべてで使用されるメソッドで、プロパティをValue呼び出すとインスタンスがLargeObject作成されます。
LargeObject large = lazyLargeObject.Value;
let large = lazyLargeObject.Value
Dim large As LargeObject = lazyLargeObject.Value
指定されたLazyThreadSafetyMode.PublicationOnlyインスタンスのLazy<T>コンストラクターにより、3 つのスレッドすべてがインスタンスの作成LargeObjectを許可されます。 この例では、コンストラクターとクラスのファイナライザー LargeObject にコンソール メッセージを表示します。
public LargeObject()
{
initBy = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy);
}
~LargeObject()
{
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy);
}
type LargeObject() =
let initBy = Thread.CurrentThread.ManagedThreadId
do
printfn $"Constructor: Instance initializing on thread {initBy}"
override _.Finalize() =
printfn $"Finalizer: Instance was initialized on {initBy}"
Public Sub New()
initBy = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy)
End Sub
Protected Overrides Sub Finalize()
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy)
End Sub
ただし、オブジェクトは Lazy<T> 、すべてのスレッドで 1 つのインスタンスのみが使用されるようにします。 この例の出力は、3 つのスレッドすべてが同じインスタンスを使用し、他の 2 つのインスタンスをガベージ コレクションで再利用できることを示しています。
注意
簡略化のために、この例では Lazy<T> のグローバル インスタンスを使用して、すべてのメソッドは static (Visual Basic の Shared) です。 これらは、遅延初期化を使用するための要件ではありません。
using System;
using System.Threading;
class Program
{
static Lazy<LargeObject> lazyLargeObject = null;
static void Main()
{
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
lazyLargeObject = new Lazy<LargeObject>(LazyThreadSafetyMode.PublicationOnly);
// Create and start 3 threads, passing the same blocking event to all of them.
ManualResetEvent startingGate = new ManualResetEvent(false);
Thread[] threads = { new Thread(ThreadProc), new Thread(ThreadProc), new Thread(ThreadProc) };
foreach (Thread t in threads)
{
t.Start(startingGate);
}
// Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep(50);
startingGate.Set();
// Wait for all 3 threads to finish. (The order doesn't matter.)
foreach (Thread t in threads)
{
t.Join();
}
Console.WriteLine(
"\r\nThreads are complete. Running GC.Collect() to reclaim the extra instances.");
GC.Collect();
// Allow time for garbage collection, which happens asynchronously.
Thread.Sleep(100);
Console.WriteLine(
"\r\nNote that all three threads used the instance that was not collected.");
Console.WriteLine("Press Enter to end the program");
Console.ReadLine();
}
static void ThreadProc(object state)
{
// Wait for the signal.
ManualResetEvent waitForStart = (ManualResetEvent) state;
waitForStart.WaitOne();
LargeObject large = lazyLargeObject.Value;
// The following line introduces an artificial delay, to exaggerate the race
// condition.
Thread.Sleep(5);
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock(large)
{
large.Data[0] = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("LargeObject was initialized by thread {0}; last used by thread {1}.",
large.InitializedBy, large.Data[0]);
}
}
}
class LargeObject
{
int initBy = -1;
public int InitializedBy { get { return initBy; } }
public LargeObject()
{
initBy = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy);
}
~LargeObject()
{
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy);
}
public long[] Data = new long[100000000];
}
/* This example produces output similar to the following:
Constructor: Instance initializing on thread 4
Constructor: Instance initializing on thread 3
Constructor: Instance initializing on thread 5
LargeObject was initialized by thread 4; last used by thread 4.
LargeObject was initialized by thread 4; last used by thread 5.
LargeObject was initialized by thread 4; last used by thread 3.
Threads are complete. Running GC.Collect() to reclaim the extra instances.
Finalizer: Instance was initialized on 3
Finalizer: Instance was initialized on 5
Note that all three threads used the instance that was not collected.
Press Enter to end the program
Instance finalizing; initialized on 4
*/
open System
open System.Threading
type LargeObject() =
let initBy = Thread.CurrentThread.ManagedThreadId
do
printfn $"Constructor: Instance initializing on thread {initBy}"
override _.Finalize() =
printfn $"Finalizer: Instance was initialized on {initBy}"
member _.InitializedBy = initBy
member val Data = Array.zeroCreate<int64> 100000000
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
let lazyLargeObject = Lazy<LargeObject> LazyThreadSafetyMode.PublicationOnly
let threadProc (state: obj) =
// Wait for the signal.
let waitForStart = state :?> ManualResetEvent
waitForStart.WaitOne() |> ignore
let large = lazyLargeObject.Value
// The following line introduces an artificial delay, to exaggerate the race
// condition.
Thread.Sleep 5
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock large (fun () ->
large.Data[0] <- Thread.CurrentThread.ManagedThreadId
printfn $"LargeObject was initialized by thread {large.InitializedBy} last used by thread {large.Data[0]}.")
// Create and start 3 threads, passing the same blocking event to all of them.
let startingGate = new ManualResetEvent false
let threads =
[| Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc) |]
for t in threads do
t.Start startingGate
// Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep 50
startingGate.Set() |> ignore
// Wait for all 3 threads to finish. (The order doesn't matter.)
for t in threads do
t.Join()
printfn "\nThreads are complete. Running GC.Collect() to reclaim the extra instances."
GC.Collect()
// Allow time for garbage collection, which happens asynchronously.
Thread.Sleep 100
printfn "\nNote that all three threads used the instance that was not collected."
printfn "Press Enter to end the program"
stdin.ReadLine() |> ignore
// This example produces output similar to the following:
// Constructor: Instance initializing on thread 4
// Constructor: Instance initializing on thread 3
// Constructor: Instance initializing on thread 5
// LargeObject was initialized by thread 4 last used by thread 4.
// LargeObject was initialized by thread 4 last used by thread 5.
// LargeObject was initialized by thread 4 last used by thread 3.
//
// Threads are complete. Running GC.Collect() to reclaim the extra instances.
// Finalizer: Instance was initialized on 3
// Finalizer: Instance was initialized on 5
//
// Note that all three threads used the instance that was not collected.
// Press Enter to end the program
//
// Instance finalizing initialized on 4
Imports System.Threading
Friend Class Program
Private Shared lazyLargeObject As Lazy(Of LargeObject) = Nothing
Shared Sub Main()
' The lazy initializer is created here. LargeObject is not created until the
' ThreadProc method executes.
lazyLargeObject = New Lazy(Of LargeObject)(LazyThreadSafetyMode.PublicationOnly)
' Create and start 3 threads, passing the same blocking event to all of them.
Dim startingGate As New ManualResetEvent(False)
Dim threads() As Thread = { _
New Thread(AddressOf ThreadProc), _
New Thread(AddressOf ThreadProc), _
New Thread(AddressOf ThreadProc) _
}
For Each t As Thread In threads
t.Start(startingGate)
Next t
' Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep(50)
startingGate.Set()
' Wait for all 3 threads to finish. (The order doesn't matter.)
For Each t As Thread In threads
t.Join()
Next t
Console.WriteLine(vbCrLf & _
"Threads are complete. Running GC.Collect() to reclaim the extra instances.")
GC.Collect()
' Allow time for garbage collection, which happens asynchronously.
Thread.Sleep(100)
Console.WriteLine(vbCrLf & _
"Note that all three threads used the instance that was not collected.")
Console.WriteLine("Press Enter to end the program")
Console.ReadLine()
End Sub
Private Shared Sub ThreadProc(ByVal state As Object)
' Wait for the signal.
Dim waitForStart As ManualResetEvent = CType(state, ManualResetEvent)
waitForStart.WaitOne()
Dim large As LargeObject = lazyLargeObject.Value
' The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5)
' IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
' object after creation. You must lock the object before accessing it,
' unless the type is thread safe. (LargeObject is not thread safe.)
SyncLock large
large.Data(0) = Thread.CurrentThread.ManagedThreadId
Console.WriteLine( _
"LargeObject was initialized by thread {0}; last used by thread {1}.", _
large.InitializedBy, large.Data(0))
End SyncLock
End Sub
End Class
Friend Class LargeObject
Private initBy As Integer = -1
Public ReadOnly Property InitializedBy() As Integer
Get
Return initBy
End Get
End Property
Public Sub New()
initBy = Thread.CurrentThread.ManagedThreadId
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy)
End Sub
Protected Overrides Sub Finalize()
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy)
End Sub
Public Data(100000000) As Long
End Class
' This example produces output similar to the following:
'
'Constructor: Instance initializing on thread 3
'Constructor: Instance initializing on thread 5
'Constructor: Instance initializing on thread 4
'LargeObject was initialized by thread 3; last used by thread 4.
'LargeObject was initialized by thread 3; last used by thread 3.
'LargeObject was initialized by thread 3; last used by thread 5.
'
'Threads are complete. Running GC.Collect() to reclaim the extra instances.
'Finalizer: Instance was initialized on 5
'Finalizer: Instance was initialized on 4
'
'Note that all three threads used the instance that was not collected.
'Press Enter to end the program
'
'Finalizer: Instance was initialized on 3
'
注釈
インスタンスのスレッド セーフ モードでは、 Lazy<T> 複数のスレッドがインスタンスを初期化しようとしたときの動作が Lazy<T> 記述されます。
Lazy<T>このコンストラクターを使用して作成されたインスタンスは、例外をキャッシュしません。 詳細については、Lazy<T> クラスまたは System.Threading.LazyThreadSafetyMode 列挙体の解説を参照してください。
こちらもご覧ください
適用対象
Lazy<T>(T)
事前に初期化され、指定された値を使用する Lazy<T> クラスの新しいインスタンスを初期化します。
public:
Lazy(T value);public Lazy (T value);new Lazy<'T> : 'T -> Lazy<'T>Public Sub New (value As T)パラメーター
- value
- T
使用される、事前に初期化された値。
注釈
このコンストラクターで作成されたインスタンスは、複数のスレッドで同時に使用できます。
適用対象
Lazy<T>(Func<T>, Boolean)
Lazy<T> クラスの新しいインスタンスを初期化します。 遅延初期化が発生すると、指定された初期化関数と初期化モードが使用されます。
public:
Lazy(Func<T> ^ valueFactory, bool isThreadSafe);public Lazy (Func<T> valueFactory, bool isThreadSafe);new Lazy<'T> : Func<'T> * bool -> Lazy<'T>Public Sub New (valueFactory As Func(Of T), isThreadSafe As Boolean)パラメーター
- valueFactory
- Func<T>
必要に応じて、遅延初期化の値を生成するために呼び出されるデリゲート。
- isThreadSafe
- Boolean
同時に複数のスレッドでこのインスタンスを使用できるようにする場合には true、このインスタンスを一度に 1 つのスレッドのみで使用できるようにする場合は false。
例外
valueFactory が nullです。
例
次の例では、このコンストラクターを使用して、単一のスレッドを使用するシナリオで、例外キャッシュを使用して遅延初期化を提供する方法を示します。 また、コンストラクターのLazy<T>使用方法も示します (指定対象LazyThreadSafetyMode.Nonemode)。 そのコンストラクターに切り替えるには、コメントアウトするコンストラクターを変更するだけです。
注意
マルチスレッド シナリオ (指定対象) でこのコンストラクターを使用する方法をtrue``isThreadSafe示すコードについては、コンストラクターの例をLazy<T>(Func<T>)参照してください。
この例では、複数あるスレッドのうちの 1 つによって遅れて初期化される LargeObject クラスを定義します。 コードの 3 つの主要なセクションは、初期化子の作成、実際の初期化、および例外キャッシュを LargeObject 示すクラスのコンストラクターを示しています。 Main メソッドの開始時に、この例では LargeObject のスレッドセーフな遅延初期化子が作成されます。
lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, false);
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, LazyThreadSafetyMode.None);
let lazyLargeObject = Lazy<LargeObject>(initLargeObject, false)
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(initLargeObject, LazyThreadSafetyMode.None)
lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, False)
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, LazyThreadSafetyMode.None)
コンストラクターの呼び出しでは、 isThreadSafe パラメーターは false、 Lazy<T> スレッド セーフではありません。 スレッド セーフではないので、この例では、同じスレッドでプロパティを Value 3 回呼び出します。
for (int i = 0; i < 3; i++)
{
try
{
LargeObject large = lazyLargeObject.Value;
large.Data[11] = 89;
}
catch (ApplicationException aex)
{
Console.WriteLine("Exception: {0}", aex.Message);
}
}
for _ = 0 to 2 do
try
let large = lazyLargeObject.Value
large.Data[11] <- 89
with :? ApplicationException as aex ->
printfn $"Exception: {aex.Message}"
For i As Integer = 0 To 2
Try
Dim large As LargeObject = lazyLargeObject.Value
large.Data(11) = 89
Catch aex As ApplicationException
Console.WriteLine("Exception: {0}", aex.Message)
End Try
Next i
クラスの LargeObject コンストラクターでは、コードの 3 番目のキー セクションでは、インスタンスが初めて作成されるときに LargeObject 例外がスローされますが、その後はインスタンスの作成が可能になります。
static bool pleaseThrow = true;
public LargeObject()
{
if (pleaseThrow)
{
pleaseThrow = false;
throw new ApplicationException("Throw only ONCE.");
}
Console.WriteLine("LargeObject was created on thread id {0}.",
Thread.CurrentThread.ManagedThreadId);
}
type LargeObject() =
static let mutable pleaseThrow = true
do
if pleaseThrow then
pleaseThrow <- false
raise (ApplicationException "Throw only ONCE.")
printfn $"LargeObject was created on thread id {Thread.CurrentThread.ManagedThreadId}."
Private Shared pleaseThrow As Boolean = True
Public Sub New()
If pleaseThrow Then
pleaseThrow = False
Throw New ApplicationException("Throw only ONCE.")
End If
Console.WriteLine("LargeObject was created on thread id {0}.", _
Thread.CurrentThread.ManagedThreadId)
End Sub
この例を実行すると、最初にインスタンスを LargeObject 作成しようとすると失敗し、例外がキャッチされます。 次の試行は成功する可能性がありますが Lazy<T> 、オブジェクトによって例外がキャッシュされています。 このため、3 回の試行はすべて例外をスローします。
注意
簡略化のために、この例では Lazy<T> のグローバル インスタンスを使用して、すべてのメソッドは static (Visual Basic の Shared) です。 これらは、遅延初期化を使用するための要件ではありません。
using System;
using System.Threading;
class Program
{
static Lazy<LargeObject> lazyLargeObject = null;
static LargeObject InitLargeObject()
{
return new LargeObject();
}
static void Main()
{
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, false);
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
//lazyLargeObject = new Lazy<LargeObject>(InitLargeObject, LazyThreadSafetyMode.None);
Console.WriteLine(
"\r\nLargeObject is not created until you access the Value property of the lazy" +
"\r\ninitializer. Press Enter to create LargeObject (three tries).");
Console.ReadLine();
for (int i = 0; i < 3; i++)
{
try
{
LargeObject large = lazyLargeObject.Value;
large.Data[11] = 89;
}
catch (ApplicationException aex)
{
Console.WriteLine("Exception: {0}", aex.Message);
}
}
Console.WriteLine("\r\nPress Enter to end the program");
Console.ReadLine();
}
}
class LargeObject
{
static bool pleaseThrow = true;
public LargeObject()
{
if (pleaseThrow)
{
pleaseThrow = false;
throw new ApplicationException("Throw only ONCE.");
}
Console.WriteLine("LargeObject was created on thread id {0}.",
Thread.CurrentThread.ManagedThreadId);
}
public long[] Data = new long[100000000];
}
/* This example produces output similar to the following:
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject (three tries).
Exception: Throw only ONCE.
Exception: Throw only ONCE.
Exception: Throw only ONCE.
Press Enter to end the program
*/
open System
open System.Threading
type LargeObject() =
static let mutable pleaseThrow = true
do
if pleaseThrow then
pleaseThrow <- false
raise (ApplicationException "Throw only ONCE.")
printfn $"LargeObject was created on thread id {Thread.CurrentThread.ManagedThreadId}."
member val Data = Array.zeroCreate<int64> 100000000
let initLargeObject () =
LargeObject()
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
let lazyLargeObject = Lazy<LargeObject>(initLargeObject, false)
// The following lines show how to use other constructors to achieve exactly the
// same result as the previous line:
// let lazyLargeObject = Lazy<LargeObject>(initLargeObject, LazyThreadSafetyMode.None)
printfn """
LargeObject is not created until you access the Value property of the lazy
initializer. Press Enter to create LargeObject (three tries)."""
stdin.ReadLine() |> ignore
for _ = 0 to 2 do
try
let large = lazyLargeObject.Value
large.Data[11] <- 89
with :? ApplicationException as aex ->
printfn $"Exception: {aex.Message}"
printfn "\nPress Enter to end the program"
stdin.ReadLine() |> ignore
// This example produces output similar to the following:
// LargeObject is not created until you access the Value property of the lazy
// initializer. Press Enter to create LargeObject (three tries).
//
// Exception: Throw only ONCE.
// Exception: Throw only ONCE.
// Exception: Throw only ONCE.
//
// Press Enter to end the program
Imports System.Threading
Friend Class Program
Private Shared lazyLargeObject As Lazy(Of LargeObject) = Nothing
Private Shared Function InitLargeObject() As LargeObject
Return New LargeObject()
End Function
Shared Sub Main()
' The lazy initializer is created here. LargeObject is not created until the
' ThreadProc method executes.
lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, False)
' The following lines show how to use other constructors to achieve exactly the
' same result as the previous line:
'lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, LazyThreadSafetyMode.None)
Console.WriteLine(vbCrLf _
& "LargeObject is not created until you access the Value property of the lazy" _
& vbCrLf & "initializer. Press Enter to create LargeObject (three tries).")
Console.ReadLine()
For i As Integer = 0 To 2
Try
Dim large As LargeObject = lazyLargeObject.Value
large.Data(11) = 89
Catch aex As ApplicationException
Console.WriteLine("Exception: {0}", aex.Message)
End Try
Next i
Console.WriteLine(vbCrLf & "Press Enter to end the program")
Console.ReadLine()
End Sub
End Class
Friend Class LargeObject
Private Shared pleaseThrow As Boolean = True
Public Sub New()
If pleaseThrow Then
pleaseThrow = False
Throw New ApplicationException("Throw only ONCE.")
End If
Console.WriteLine("LargeObject was created on thread id {0}.", _
Thread.CurrentThread.ManagedThreadId)
End Sub
Public Data(100000000) As Long
End Class
' This example produces output similar to the following:
'
'LargeObject is not created until you access the Value property of the lazy
'initializer. Press Enter to create LargeObject (three tries).
'
'Exception: Throw only ONCE.
'Exception: Throw only ONCE.
'Exception: Throw only ONCE.
'
'Press Enter to end the program
'
注釈
このコンストラクターで初期化されるインスタンスのLazy<T>スレッド セーフ モードは if isThreadSafe trueですLazyThreadSafetyMode.ExecutionAndPublication。それ以外の場合、モードは LazyThreadSafetyMode.None. スレッド セーフ モードでは、複数のスレッドがインスタンスを初期化しようとしたときの動作が Lazy<T> 記述されます。
モードをLazyThreadSafetyMode.PublicationOnly指定するには、またはLazy<T>(LazyThreadSafetyMode)コンストラクターをLazy<T>(Func<T>, LazyThreadSafetyMode)使用します。
スロー valueFactory される例外はキャッシュされます。 詳細については、Lazy<T> クラスまたは System.Threading.LazyThreadSafetyMode 列挙体の解説を参照してください。
こちらもご覧ください
適用対象
Lazy<T>(Func<T>, LazyThreadSafetyMode)
指定された初期化関数とスレッド セーフ モードを使用する Lazy<T> クラスの新しいインスタンスを初期化します。
public:
Lazy(Func<T> ^ valueFactory, System::Threading::LazyThreadSafetyMode mode);public Lazy (Func<T> valueFactory, System.Threading.LazyThreadSafetyMode mode);new Lazy<'T> : Func<'T> * System.Threading.LazyThreadSafetyMode -> Lazy<'T>Public Sub New (valueFactory As Func(Of T), mode As LazyThreadSafetyMode)パラメーター
- valueFactory
- Func<T>
必要に応じて、遅延初期化の値を生成するために呼び出されるデリゲート。
- mode
- LazyThreadSafetyMode
スレッド セーフ モードを指定する列挙値の 1 つ。
例外
mode に無効な値が含まれています。
valueFactory が nullです。
例
次の例では、このコンストラクターを使用して、複数のスレッドが遅延してオブジェクトを作成する競合を可能にする遅延初期化子を作成します。 複数のスレッドがインスタンスの作成に成功する可能性がありますが、すべてのスレッドが最初に作成されたインスタンスを使用します。 さらに、この例では、遅延作成型のパラメーターなしのコンストラクターではなく関数によって初期化が実行された場合でも、指定 LazyThreadSafetyMode.PublicationOnlyした場合に例外がキャッシュされないことを示しています。
注意
シングル スレッド シナリオ (指定対象) でこのコンストラクターを使用する方法を示す例については、コンストラクターをLazyThreadSafetyMode.NonemodeLazy<T>(Boolean)参照してください。 このコンストラクターを使用して、マルチスレッド シナリオで競合状態の代わりにロックを提供する方法を示す例 (指定対象mode) については、コンストラクターをLazyThreadSafetyMode.ExecutionAndPublicationLazy<T>()参照してください。
この例では、複数の LargeObject スレッドのいずれかによって遅延的に初期化されるクラスを定義します。 コードの 4 つの主要なセクションは、初期化子の作成、実際の初期化、初期化関数、およびクラスのコンストラクターとファイナライザーを LargeObject 示しています。 メソッドの Main 先頭に、次のオブジェクトの Lazy<T> 遅延初期化を実行するオブジェクトを LargeObject作成します。
lazyLargeObject = new Lazy<LargeObject>(InitLargeObject,
LazyThreadSafetyMode.PublicationOnly);
let lazyLargeObject = Lazy<LargeObject>(initLargeObject, LazyThreadSafetyMode.PublicationOnly)
lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, _
LazyThreadSafetyMode.PublicationOnly)
遅延初期化子は、関数を使用して初期化を実行します。 この場合、クラスのパラメーターなしのコンストラクターがないため、関数が LargeObject 必要です。
この例では、オブジェクトをブロックする 3 つのスレッドを ManualResetEvent 作成して開始します。この例では、スレッドをすべて一度に解放できます。 ThreadProc 3 つのスレッドすべてで使用されるメソッドで、プロパティをValue呼び出すと、インスタンスがLargeObject作成されます。
LargeObject large = null;
try
{
large = lazyLargeObject.Value;
// The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5);
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock(large)
{
large.Data[0] = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("LargeObject was initialized by thread {0}; last used by thread {1}.",
large.InitializedBy, large.Data[0]);
}
}
catch (ApplicationException ex)
{
Console.WriteLine("ApplicationException: {0}", ex.Message);
}
try
let large = lazyLargeObject.Value
// The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep 5
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock large (fun () ->
large.Data[0] <- Thread.CurrentThread.ManagedThreadId
printfn $"LargeObject was initialized by thread {large.InitializedBy} last used by thread {large.Data[0]}.")
with :? ApplicationException as ex ->
printfn $"ApplicationException: {ex.Message}"
Dim large As LargeObject = Nothing
Try
large = lazyLargeObject.Value
' The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5)
' IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
' object after creation. You must lock the object before accessing it,
' unless the type is thread safe. (LargeObject is not thread safe.)
SyncLock large
large.Data(0) = Thread.CurrentThread.ManagedThreadId
Console.WriteLine( _
"LargeObject was initialized by thread {0}; last used by thread {1}.", _
large.InitializedBy, large.Data(0))
End SyncLock
Catch ex As ApplicationException
Console.WriteLine("ApplicationException: {0}", ex.Message)
End Try
コードの 3 番目のキー セクションでは、インスタンスを作成するために遅延初期化関数が LargeObject 呼び出されます。 この関数は、初めて呼び出されると例外をスローします。
static int instanceCount = 0;
static LargeObject InitLargeObject()
{
if (1 == Interlocked.Increment(ref instanceCount))
{
throw new ApplicationException(
String.Format("Lazy initialization function failed on thread {0}.",
Thread.CurrentThread.ManagedThreadId));
}
return new LargeObject(Thread.CurrentThread.ManagedThreadId);
}
let mutable instanceCount = 0
let initLargeObject () =
if 1 = Interlocked.Increment &instanceCount then
raise (ApplicationException $"Lazy initialization function failed on thread {Thread.CurrentThread.ManagedThreadId}.")
LargeObject Thread.CurrentThread.ManagedThreadId
Private Shared instanceCount As Integer = 0
Private Shared Function InitLargeObject() As LargeObject
If 1 = Interlocked.Increment(instanceCount) Then
Throw New ApplicationException( _
"Lazy initialization function failed on thread " & _
Thread.CurrentThread.ManagedThreadId & ".")
End If
Return New LargeObject(Thread.CurrentThread.ManagedThreadId)
End Function
その他の LazyThreadSafetyMode 設定では、初期化関数の未処理の例外がキャッシュされます。 ただし、 LazyThreadSafetyMode.PublicationOnly 例外キャッシュは抑制されます。 この例の出力は、オブジェクトを初期化する後続の試行が成功したことを示しています。
注意
例外メッセージは通常、他のスレッドがオブジェクトを正常に初期化したことを示すメッセージの後に表示されます。 これは、例外をスローしてキャッチすることによって発生する遅延が原因です。
インスタンスのコンストラクターが Lazy<T> 指定 LazyThreadSafetyMode.PublicationOnlyされているため、3 つのスレッドはすべてインスタンスの作成 LargeObject を許可されます。 この例では、コンストラクターとクラスのファイナライザー LargeObject にコンソール メッセージを表示します。
public LargeObject(int initializedBy)
{
initBy = initializedBy;
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy);
}
~LargeObject()
{
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy);
}
type LargeObject(initBy) =
do
printfn $"Constructor: Instance initializing on thread {initBy}"
override _.Finalize() =
printfn $"Finalizer: Instance was initialized on {initBy}"
Public Sub New(ByVal initializedBy As Integer)
initBy = initializedBy
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy)
End Sub
Protected Overrides Sub Finalize()
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy)
End Sub
このオブジェクトは Lazy<T> 、すべてのスレッドで使用されるインスタンスが 1 つだけであることを保証します (初期化関数が例外をスローするスレッドを除く)。 この例からの出力は、これを示しています。
注意
簡略化のために、この例では Lazy<T> のグローバル インスタンスを使用して、すべてのメソッドは static (Visual Basic の Shared) です。 これらは、遅延初期化を使用するための要件ではありません。
using System;
using System.Threading;
class Program
{
static Lazy<LargeObject> lazyLargeObject = null;
// Factory function for lazy initialization.
static int instanceCount = 0;
static LargeObject InitLargeObject()
{
if (1 == Interlocked.Increment(ref instanceCount))
{
throw new ApplicationException(
String.Format("Lazy initialization function failed on thread {0}.",
Thread.CurrentThread.ManagedThreadId));
}
return new LargeObject(Thread.CurrentThread.ManagedThreadId);
}
static void Main()
{
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
lazyLargeObject = new Lazy<LargeObject>(InitLargeObject,
LazyThreadSafetyMode.PublicationOnly);
// Create and start 3 threads, passing the same blocking event to all of them.
ManualResetEvent startingGate = new ManualResetEvent(false);
Thread[] threads = { new Thread(ThreadProc), new Thread(ThreadProc), new Thread(ThreadProc) };
foreach (Thread t in threads)
{
t.Start(startingGate);
}
// Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep(50);
startingGate.Set();
// Wait for all 3 threads to finish. (The order doesn't matter.)
foreach (Thread t in threads)
{
t.Join();
}
Console.WriteLine(
"\r\nThreads are complete. Running GC.Collect() to reclaim extra instances.");
GC.Collect();
// Allow time for garbage collection, which happens asynchronously.
Thread.Sleep(100);
Console.WriteLine("\r\nNote that only one instance of LargeObject was used.");
Console.WriteLine("Press Enter to end the program");
Console.ReadLine();
}
static void ThreadProc(object state)
{
// Wait for the signal.
ManualResetEvent waitForStart = (ManualResetEvent) state;
waitForStart.WaitOne();
LargeObject large = null;
try
{
large = lazyLargeObject.Value;
// The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5);
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock(large)
{
large.Data[0] = Thread.CurrentThread.ManagedThreadId;
Console.WriteLine("LargeObject was initialized by thread {0}; last used by thread {1}.",
large.InitializedBy, large.Data[0]);
}
}
catch (ApplicationException ex)
{
Console.WriteLine("ApplicationException: {0}", ex.Message);
}
}
}
class LargeObject
{
int initBy = -1;
public int InitializedBy { get { return initBy; } }
public LargeObject(int initializedBy)
{
initBy = initializedBy;
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy);
}
~LargeObject()
{
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy);
}
public long[] Data = new long[100000000];
}
/* This example produces output similar to the following:
Constructor: Instance initializing on thread 5
Constructor: Instance initializing on thread 4
ApplicationException: Lazy initialization function failed on thread 3.
LargeObject was initialized by thread 5; last used by thread 5.
LargeObject was initialized by thread 5; last used by thread 4.
Threads are complete. Running GC.Collect() to reclaim extra instances.
Finalizer: Instance was initialized on 4
Note that only one instance of LargeObject was used.
Press Enter to end the program
Finalizer: Instance was initialized on 5
*/
open System
open System.Threading
type LargeObject(initBy) =
do
printfn $"Constructor: Instance initializing on thread {initBy}"
override _.Finalize() =
printfn $"Finalizer: Instance was initialized on {initBy}"
member _.InitializedBy = initBy
member val Data = Array.zeroCreate<int64> 100000000 with get
// Factory function for lazy initialization.
let mutable instanceCount = 0
let initLargeObject () =
if 1 = Interlocked.Increment &instanceCount then
raise (ApplicationException $"Lazy initialization function failed on thread {Thread.CurrentThread.ManagedThreadId}.")
LargeObject Thread.CurrentThread.ManagedThreadId
// The lazy initializer is created here. LargeObject is not created until the
// ThreadProc method executes.
let lazyLargeObject = Lazy<LargeObject>(initLargeObject, LazyThreadSafetyMode.PublicationOnly)
let threadProc (state: obj) =
// Wait for the signal.
let waitForStart = state :?> ManualResetEvent
waitForStart.WaitOne() |> ignore
try
let large = lazyLargeObject.Value
// The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep 5
// IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
// object after creation. You must lock the object before accessing it,
// unless the type is thread safe. (LargeObject is not thread safe.)
lock large (fun () ->
large.Data[0] <- Thread.CurrentThread.ManagedThreadId
printfn $"LargeObject was initialized by thread {large.InitializedBy} last used by thread {large.Data[0]}.")
with :? ApplicationException as ex ->
printfn $"ApplicationException: {ex.Message}"
// Create and start 3 threads, passing the same blocking event to all of them.
let startingGate = new ManualResetEvent false
let threads =
[| Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc); Thread(ParameterizedThreadStart threadProc) |]
for t in threads do
t.Start startingGate
// Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep 50
startingGate.Set() |> ignore
// Wait for all 3 threads to finish. (The order doesn't matter.)
for t in threads do
t.Join()
printfn "\nThreads are complete. Running GC.Collect() to reclaim extra instances."
GC.Collect()
// Allow time for garbage collection, which happens asynchronously.
Thread.Sleep 100
printfn "\nNote that only one instance of LargeObject was used."
printfn "Press Enter to end the program"
stdin.ReadLine() |> ignore
// This example produces output similar to the following:
// Constructor: Instance initializing on thread 5
// Constructor: Instance initializing on thread 4
// ApplicationException: Lazy initialization function failed on thread 3.
// LargeObject was initialized by thread 5 last used by thread 5.
// LargeObject was initialized by thread 5 last used by thread 4.
//
// Threads are complete. Running GC.Collect() to reclaim extra instances.
// Finalizer: Instance was initialized on 4
//
// Note that only one instance of LargeObject was used.
// Press Enter to end the program
//
// Finalizer: Instance was initialized on 5
Imports System.Threading
Friend Class Program
Private Shared lazyLargeObject As Lazy(Of LargeObject) = Nothing
' Factory function for lazy initialization.
Private Shared instanceCount As Integer = 0
Private Shared Function InitLargeObject() As LargeObject
If 1 = Interlocked.Increment(instanceCount) Then
Throw New ApplicationException( _
"Lazy initialization function failed on thread " & _
Thread.CurrentThread.ManagedThreadId & ".")
End If
Return New LargeObject(Thread.CurrentThread.ManagedThreadId)
End Function
Shared Sub Main()
' The lazy initializer is created here. LargeObject is not created until the
' ThreadProc method executes.
lazyLargeObject = New Lazy(Of LargeObject)(AddressOf InitLargeObject, _
LazyThreadSafetyMode.PublicationOnly)
' Create and start 3 threads, passing the same blocking event to all of them.
Dim startingGate As New ManualResetEvent(False)
Dim threads() As Thread = { _
New Thread(AddressOf ThreadProc), _
New Thread(AddressOf ThreadProc), _
New Thread(AddressOf ThreadProc) _
}
For Each t As Thread In threads
t.Start(startingGate)
Next t
' Give all 3 threads time to start and wait, then release them all at once.
Thread.Sleep(50)
startingGate.Set()
' Wait for all 3 threads to finish. (The order doesn't matter.)
For Each t As Thread In threads
t.Join()
Next t
Console.WriteLine(vbCrLf & _
"Threads are complete. Running GC.Collect() to reclaim extra instances.")
GC.Collect()
' Allow time for garbage collection, which happens asynchronously.
Thread.Sleep(100)
Console.WriteLine(vbCrLf & "Note that only one instance of LargeObject was used.")
Console.WriteLine("Press Enter to end the program")
Console.ReadLine()
End Sub
Private Shared Sub ThreadProc(ByVal state As Object)
' Wait for the signal.
Dim waitForStart As ManualResetEvent = CType(state, ManualResetEvent)
waitForStart.WaitOne()
Dim large As LargeObject = Nothing
Try
large = lazyLargeObject.Value
' The following line introduces an artificial delay to exaggerate the race condition.
Thread.Sleep(5)
' IMPORTANT: Lazy initialization is thread-safe, but it doesn't protect the
' object after creation. You must lock the object before accessing it,
' unless the type is thread safe. (LargeObject is not thread safe.)
SyncLock large
large.Data(0) = Thread.CurrentThread.ManagedThreadId
Console.WriteLine( _
"LargeObject was initialized by thread {0}; last used by thread {1}.", _
large.InitializedBy, large.Data(0))
End SyncLock
Catch ex As ApplicationException
Console.WriteLine("ApplicationException: {0}", ex.Message)
End Try
End Sub
End Class
Friend Class LargeObject
Private initBy As Integer = -1
Public ReadOnly Property InitializedBy() As Integer
Get
Return initBy
End Get
End Property
Public Sub New(ByVal initializedBy As Integer)
initBy = initializedBy
Console.WriteLine("Constructor: Instance initializing on thread {0}", initBy)
End Sub
Protected Overrides Sub Finalize()
Console.WriteLine("Finalizer: Instance was initialized on {0}", initBy)
End Sub
Public Data(99999999) As Long
End Class
' This example produces output similar to the following:
'
'Constructor: Instance initializing on thread 4
'ApplicationException: Lazy initialization function failed on thread 3.
'Constructor: Instance initializing on thread 5
'LargeObject was initialized by thread 4; last used by thread 4.
'LargeObject was initialized by thread 4; last used by thread 5.
'
'Threads are complete. Running GC.Collect() to reclaim extra instances.
'Finalizer: Instance was initialized on 5
'
'Note that only one instance of LargeObject was used.
'Press Enter to end the program
'
'Finalizer: Instance was initialized on 4
'
注釈
インスタンスのスレッド セーフ モードでは、 Lazy<T> 複数のスレッドがインスタンスを初期化しようとしたときの動作が Lazy<T> 記述されます。
例外がスローされるvalueFactory場合を除きmodeLazyThreadSafetyMode.PublicationOnly、キャッシュされます。 詳細については、Lazy<T> クラスまたは System.Threading.LazyThreadSafetyMode 列挙体の解説を参照してください。