Book Image

Multithreading with C# Cookbook, Second Edition - Second Edition

By : Evgenii Agafonov
Book Image

Multithreading with C# Cookbook, Second Edition - Second Edition

By: Evgenii Agafonov

Overview of this book

Multi-core processors are synonymous with computing speed and power in today’s world, which is why multithreading has become a key concern for C# developers. Multithreaded code helps you create effective, scalable, and responsive applications. This is an easy-to-follow guide that will show you difficult programming problems in context. You will learn how to solve them with practical, hands-on, recipes. With these recipes, you’ll be able to start creating your own scalable and reliable multithreaded applications. Starting from learning what a thread is, we guide you through the basics and then move on to more advanced concepts such as task parallel libraries, C# asynchronous functions, and much more. Rewritten to the latest C# specification, C# 6, and updated with new and modern recipes to help you make the most of the hardware you have available, this book will help you push the boundaries of what you thought possible in C#.
Table of Contents (18 chapters)
Multithreading with C# Cookbook Second Edition
Credits
About the Author
About the Reviewers
www.PacktPub.com
Preface
Index

Passing parameters to a thread


This recipe will describe how to provide code that we run in another thread with the required data. We will go through the different ways to fulfill this task and review common mistakes.

Getting ready

To work through this recipe, you will need Visual Studio 2015. There are no other prerequisites. The source code for this recipe can be found at BookSamples\Chapter1\Recipe8.

How to do it...

To understand how to pass parameters to a thread, perform the following steps:

  1. Start Visual Studio 2015. Create a new C# console application project.

  2. In the Program.cs file, add the following using directives:

    using System;
    using System.Threading;
    using static System.Console;
    using static System.Threading.Thread;
  3. Add the following code snippet below the Main method:

    static void Count(object iterations)
    {
      CountNumbers((int)iterations);
    }
    
    static void CountNumbers(int iterations)
    {
      for (int i = 1; i <= iterations; i++)
      {
        Sleep(TimeSpan.FromSeconds(0.5));
        WriteLine($"{CurrentThread.Name} prints {i}");
      }
    }
    
    static void PrintNumber(int number)
    {
      WriteLine(number);
    }
    
    class ThreadSample
    {
      private readonly int _iterations;
    
      public ThreadSample(int iterations)
      {
        _iterations = iterations;
      }
      public void CountNumbers()
      {
        for (int i = 1; i <= _iterations; i++)
        {
          Sleep(TimeSpan.FromSeconds(0.5));
                WriteLine($"{CurrentThread.Name} prints {i}");
        }
      }
    }
  4. Add the following code snippet inside the Main method:

    var sample = new ThreadSample(10);
    
    var threadOne = new Thread(sample.CountNumbers);
    threadOne.Name = "ThreadOne";
    threadOne.Start();
    threadOne.Join();
    
    WriteLine("--------------------------");
    
    var threadTwo = new Thread(Count);
    threadTwo.Name = "ThreadTwo";
    threadTwo.Start(8);
    threadTwo.Join();
    
    WriteLine("--------------------------");
    
    var threadThree = new Thread(() => CountNumbers(12));
    threadThree.Name = "ThreadThree";
    threadThree.Start();
    threadThree.Join();
    WriteLine("--------------------------");
    
    int i = 10;
    var threadFour = new Thread(() => PrintNumber(i));
    i = 20;
    var threadFive = new Thread(() => PrintNumber(i));
    threadFour.Start(); 
    threadFive.Start();
  5. Run the program.

How it works...

When the main program starts, it first creates an object of the ThreadSample class, providing it with a number of iterations. Then, we start a thread with the object's CountNumbers method. This method runs in another thread, but it uses the number 10, which is the value that we passed to the object's constructor. Therefore, we just passed this number of iterations to another thread in the same indirect way.

There's more…

Another way to pass data is to use the Thread.Start method by accepting an object that can be passed to another thread. To work this way, a method that we started in another thread must accept one single parameter of the type object. This option is illustrated by creating a threadTwo thread. We pass 8 as an object to the Count method, where it is cast to an integer type.

The next option involves the use of lambda expressions. A lambda expression defines a method that does not belong to any class. We create such a method that invokes another method with the arguments needed and start it in another thread. When we start the threadThree thread, it prints out 12 numbers, which are exactly the numbers we passed to it via the lambda expression.

The use of lambda expressions involves another C# construct named closure. When we use any local variable in a lambda expression, C# generates a class and makes this variable a property of this class. So, actually, we do the same thing as in the threadOne thread, but we do not define the class ourselves; the C# compiler does this automatically.

This could lead to several problems; for example, if we use the same variable from several lambdas, they will actually share this variable value. This is illustrated by the previous example where, when we start threadFour and threadFive, they both print 20 because the variable was changed to hold the value 20 before both threads were started.