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Como: Criar um Pool de objetos usando um ConcurrentBag

Este exemplo mostra como usar uma sacola simultânea para implementar um pool de objetos. Pools de objeto podem melhorar o desempenho do aplicativo em situações onde você precisar de várias instâncias de uma classe e a classe é cara para criar ou destruir. Quando um programa cliente solicita um novo objeto, o pool de objetos primeiro tenta fornecer um que já tenha sido criado e retornado ao pool. Se nenhum estiver disponível, só então um novo objeto é criado.

ConcurrentBag<T>é usado para armazenar os objetos porque ele oferece suporte a rápida inserção e remoção, especialmente quando o mesmo thread está adicionando e removendo itens. Este exemplo poderia ser ainda mais aumentado para ser criado em torno de um IProducerConsumerCollection<T>, que implementa a estrutura de dados do conjunto de propriedades, como ConcurrentQueue<T> e ConcurrentStack<T>.

Exemplo

Imports System
Imports System.Collections.Concurrent
Imports System.Threading
Imports System.Threading.Tasks

Module ObjectPoolExample


    Public Class ObjectPool(Of T)
        Private _objects As ConcurrentBag(Of T)
        Private _objectGenerator As Func(Of T)

        Public Sub New(ByVal objectGenerator As Func(Of T))
            If objectGenerator Is Nothing Then Throw New ArgumentNullException("objectGenerator")
            _objects = New ConcurrentBag(Of T)()
            _objectGenerator = objectGenerator
        End Sub

        Public Function GetObject() As T
            Dim item As T
            If _objects.TryTake(item) Then Return item
            Return _objectGenerator()
        End Function

        Public Sub PutObject(ByVal item As T)
            _objects.Add(item)
        End Sub
    End Class


    Sub Main()

        Dim cts As CancellationTokenSource = New CancellationTokenSource()

        ' Create an opportunity for the user to cancel.
        Task.Factory.StartNew(Sub()
                                  If Console.ReadKey().KeyChar = "c"c Or Console.ReadKey().KeyChar = "C"c Then
                                      cts.Cancel()
                                  End If
                              End Sub)
        Dim pool As ObjectPool(Of TestClass) = New ObjectPool(Of TestClass)(Function() New TestClass())

        ' Create a high demand for TestClass objects.
        Parallel.For(0, 1000000, Sub(i, loopState)

                                     Dim mc As TestClass = pool.GetObject()
                                     Console.CursorLeft = 0
                                     ' This is the bottleneck in our application. All threads in this loop
                                     ' must serialize their access to the static Console class.
                                     Console.WriteLine("{0:####.####}", mc.GetValue(i))

                                     pool.PutObject(mc)
                                     If cts.Token.IsCancellationRequested Then
                                         loopState.Stop()

                                     End If
                                 End Sub)

        Console.WriteLine("Press the Enter key to exit.")
        Console.ReadLine()


    End Sub

    ' A toy class that requires some resources to create.
    ' You can experiment here to measure the performance of the
    ' object pool vs. ordinary instantiation.
    Class TestClass

        Public Nums() As Integer

        Public Function GetValue(ByVal i As Long) As Double
            Return Math.Sqrt(Nums(i))
        End Function

        Public Sub New()

            Nums = New Integer(10000000) {}
            '   ReDim Nums(1000000)
            Dim rand As Random = New Random()
            For i As Integer = 0 To Nums.Length - 1
                Nums(i) = rand.Next()
            Next
        End Sub
    End Class

End Module
using System;
using System.Collections.Concurrent;
using System.Threading;
using System.Threading.Tasks;


namespace ObjectPoolExample
{
    public class ObjectPool<T>
    {
        private ConcurrentBag<T> _objects;
        private Func<T> _objectGenerator;

        public ObjectPool(Func<T> objectGenerator)
        {
            if (objectGenerator == null) throw new ArgumentNullException("objectGenerator");
            _objects = new ConcurrentBag<T>();
            _objectGenerator = objectGenerator;
        }

        public T GetObject()
        {
            T item;
            if (_objects.TryTake(out item)) return item;
            return _objectGenerator();
        }

        public void PutObject(T item)
        {
            _objects.Add(item);
        }
    }

    class Program
    {
       static void Main(string[] args)
        {
            CancellationTokenSource cts = new CancellationTokenSource();

            // Create an opportunity for the user to cancel.
            Task.Factory.StartNew(() =>
                {
                    if (Console.ReadKey().KeyChar == 'c' || Console.ReadKey().KeyChar == 'C')
                        cts.Cancel();
                });

            ObjectPool<MyClass> pool = new ObjectPool<MyClass> (() => new MyClass());            

            // Create a high demand for MyClass objects.
            Parallel.For(0, 1000000, (i, loopState) =>
                {
                    MyClass mc = pool.GetObject();
                    Console.CursorLeft = 0;
                    // This is the bottleneck in our application. All threads in this loop
                    // must serialize their access to the static Console class.
                    Console.WriteLine("{0:####.####}", mc.GetValue(i));                 

                    pool.PutObject(mc);
                    if (cts.Token.IsCancellationRequested)
                        loopState.Stop();                 

                });
            Console.WriteLine("Press the Enter key to exit.");
            Console.ReadLine();
        }

    }

    // A toy class that requires some resources to create.
    // You can experiment here to measure the performance of the
    // object pool vs. ordinary instantiation.
    class MyClass
    {
        public int[] Nums {get; set;}
        public double GetValue(long i)
        {
            return Math.Sqrt(Nums[i]);
        }
        public MyClass()
        {
            Nums = new int[1000000];
            Random rand = new Random();
            for (int i = 0; i < Nums.Length; i++)
                Nums[i] = rand.Next();
        }
    }   
}

Consulte também

Conceitos

Coleções de thread-Safe.