本文整理匯總了VB.NET中System.Collections.Concurrent.Partitioner<TSource>類的典型用法代碼示例。如果您正苦於以下問題:VB.NET Partitioner<TSource>類的具體用法?VB.NET Partitioner<TSource>怎麽用?VB.NET Partitioner<TSource>使用的例子?那麽, 這裏精選的類代碼示例或許可以為您提供幫助。
在下文中一共展示了Partitioner<TSource>類的1個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的VB.NET代碼示例。
示例1: PartitionerDemo
' 導入命名空間
Imports System.Collections.Concurrent
Imports System.Threading
Imports System.Threading.Tasks
Module PartitionerDemo
' Simple partitioner that will extract one item at a time, in a thread-safe fashion,
' from the underlying collection.
Class SingleElementPartitioner(Of T)
Inherits Partitioner(Of T)
' The collection being wrapped by this Partitioner
Private m_referenceEnumerable As IEnumerable(Of T)
' Internal class that serves as a shared enumerable for the
' underlying collection.
Private Class InternalEnumerable
Implements IEnumerable(Of T)
Implements IDisposable
Private m_reader As IEnumerator(Of T)
Private m_disposed As Boolean = False
' These two are used to implement Dispose() when static partitioning is being performed
Private m_activeEnumerators As Integer
Private m_downcountEnumerators As Boolean
' "downcountEnumerators" will be true for static partitioning, false for
' dynamic partitioning.
Public Sub New(ByVal reader As IEnumerator(Of T), ByVal downcountEnumerators As Boolean)
m_reader = reader
m_activeEnumerators = 0
m_downcountEnumerators = downcountEnumerators
End Sub
Public Function GetEnumerator() As IEnumerator(Of T) Implements IEnumerable(Of T).GetEnumerator
If m_disposed Then
Throw New ObjectDisposedException("InternalEnumerable: Can't call GetEnumerator() after disposing")
End If
' For static partitioning, keep track of the number of active enumerators.
If m_downcountEnumerators Then
Interlocked.Increment(m_activeEnumerators)
End If
Return New InternalEnumerator(m_reader, Me)
End Function
Private Function GetEnumerator2() As IEnumerator Implements IEnumerable.GetEnumerator
Return DirectCast(Me, IEnumerable(Of T)).GetEnumerator()
End Function
Public Sub Dispose() Implements IDisposable.Dispose
If Not m_disposed Then
' Only dispose the source enumerator if you are doing dynamic partitioning
If Not m_downcountEnumerators Then
m_reader.Dispose()
End If
m_disposed = True
End If
End Sub
' Called from Dispose() method of spawned InternalEnumerator. During
' static partitioning, the source enumerator will be automatically
' disposed once all requested InternalEnumerators have been disposed.
Public Sub DisposeEnumerator()
If m_downcountEnumerators Then
If Interlocked.Decrement(m_activeEnumerators) = 0 Then
m_reader.Dispose()
End If
End If
End Sub
End Class
' Internal class that serves as a shared enumerator for
' the underlying collection.
Private Class InternalEnumerator
Implements IEnumerator(Of T)
Private m_current As T
Private m_source As IEnumerator(Of T)
Private m_controllingEnumerable As InternalEnumerable
Private m_disposed As Boolean = False
Public Sub New(ByVal source As IEnumerator(Of T), ByVal controllingEnumerable As InternalEnumerable)
m_source = source
m_current = Nothing
m_controllingEnumerable = controllingEnumerable
End Sub
Private ReadOnly Property Current2() As Object Implements IEnumerator.Current
Get
Return m_current
End Get
End Property
Private ReadOnly Property Current() As T Implements IEnumerator(Of T).Current
Get
Return m_current
End Get
End Property
Private Sub Reset() Implements IEnumerator.Reset
Throw New NotSupportedException("Reset() not supported")
End Sub
' This method is the crux of this class. Under lock, it calls
' MoveNext() on the underlying enumerator and grabs Current.
Private Function MoveNext() As Boolean Implements IEnumerator.MoveNext
Dim rval As Boolean = False
SyncLock m_source
rval = m_source.MoveNext()
m_current = If(rval, m_source.Current, Nothing)
End SyncLock
Return rval
End Function
Private Sub Dispose() Implements IDisposable.Dispose
If Not m_disposed Then
' Delegate to parent enumerable's DisposeEnumerator() method
m_controllingEnumerable.DisposeEnumerator()
m_disposed = True
End If
End Sub
End Class
' Constructor just grabs the collection to wrap
Public Sub New(ByVal enumerable As IEnumerable(Of T))
' Verify that the source IEnumerable is not null
If enumerable Is Nothing Then
Throw New ArgumentNullException("enumerable")
End If
m_referenceEnumerable = enumerable
End Sub
' Produces a list of "numPartitions" IEnumerators that can each be
' used to traverse the underlying collection in a thread-safe manner.
' This will return a static number of enumerators, as opposed to
' GetDynamicPartitions(), the result of which can be used to produce
' any number of enumerators.
Public Overloads Overrides Function GetPartitions(ByVal numPartitions As Integer) As IList(Of IEnumerator(Of T))
If numPartitions < 1 Then
Throw New ArgumentOutOfRangeException("NumPartitions")
End If
Dim list As New List(Of IEnumerator(Of T))(numPartitions)
' Since we are doing static partitioning, create an InternalEnumerable with reference
' counting of spawned InternalEnumerators turned on. Once all of the spawned enumerators
' are disposed, dynamicPartitions will be disposed.
Dim dynamicPartitions = New InternalEnumerable(m_referenceEnumerable.GetEnumerator(), True)
For i As Integer = 0 To numPartitions - 1
list.Add(dynamicPartitions.GetEnumerator())
Next
Return list
End Function
' Returns an instance of our internal Enumerable class. GetEnumerator()
' can then be called on that (multiple times) to produce shared enumerators.
Public Overloads Overrides Function GetDynamicPartitions() As IEnumerable(Of T)
' Since we are doing dynamic partitioning, create an InternalEnumerable with reference
' counting of spawned InternalEnumerators turned off. This returned InternalEnumerable
' will need to be explicitly disposed.
Return New InternalEnumerable(m_referenceEnumerable.GetEnumerator(), False)
End Function
' Must be set to true if GetDynamicPartitions() is supported.
Public Overloads Overrides ReadOnly Property SupportsDynamicPartitions() As Boolean
Get
Return True
End Get
End Property
End Class
Class Program
' Test our SingleElementPartitioner(T) class
Shared Sub Main()
' Our sample collection
Dim collection As String() = New String() {"red", "orange", "yellow", "green", "blue", "indigo", _
"violet", "black", "white", "grey"}
' Instantiate a partitioner for our collection
Dim myPart As New SingleElementPartitioner(Of String)(Collection)
'
' Simple test with ForEach
'
Console.WriteLine("Testing with Parallel.ForEach")
Parallel.ForEach(myPart,
Sub(item)
Console.WriteLine(" item = {0}, thread id = {1}", item, Thread.CurrentThread.ManagedThreadId)
End Sub)
'
'
' Demonstrate the use of static partitioning, which really means
' "using a static number of partitioners". The partitioners themselves
' may still be "dynamic" in the sense that their outputs may not be
' deterministic.
'
'
' Perform static partitioning of collection
Dim staticPartitions = myPart.GetPartitions(2)
Dim index As Integer = 0
Console.WriteLine("Static Partitioning, 2 partitions, 2 tasks:")
' Action will consume from static partitions
Dim staticAction As Action =
Sub()
Dim myIndex As Integer = Interlocked.Increment(index) - 1
' compute your index
Dim myItems = staticPartitions(myIndex)
' grab your static partition
Dim id As Integer = Thread.CurrentThread.ManagedThreadId
' cache your thread id
' Enumerate through your static partition
While myItems.MoveNext()
Thread.Sleep(50)
' guarantees that multiple threads have a chance to run
Console.WriteLine(" item = {0}, thread id = {1}", myItems.Current, Thread.CurrentThread.ManagedThreadId)
End While
myItems.Dispose()
End Sub
' Spawn off 2 actions to consume 2 static partitions
Parallel.Invoke(staticAction, staticAction)
'
'
' Demonstrate the use of dynamic partitioning
'
'
' Grab an IEnumerable which can then be used to generate multiple
' shared IEnumerables.
Dim dynamicPartitions = myPart.GetDynamicPartitions()
Console.WriteLine("Dynamic Partitioning, 3 tasks:")
' Action will consume from dynamic partitions
Dim dynamicAction As Action =
Sub()
' Grab an enumerator from the dynamic partitioner
Dim enumerator = dynamicPartitions.GetEnumerator()
Dim id As Integer = Thread.CurrentThread.ManagedThreadId
' cache our thread id
' Enumerate through your dynamic enumerator
While enumerator.MoveNext()
Thread.Sleep(50)
' guarantees that multiple threads will have a chance to run
Console.WriteLine(" item = {0}, thread id = {1}", enumerator.Current, id)
End While
enumerator.Dispose()
End Sub
' Spawn 3 concurrent actions to consume the dynamic partitions
Parallel.Invoke(dynamicAction, dynamicAction, dynamicAction)
' Clean up
If TypeOf dynamicPartitions Is IDisposable Then
DirectCast(dynamicPartitions, IDisposable).Dispose()
End If
End Sub
End Class
End Module