Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Lets say we have an object that can be accessed by multiple threads and a global singleton handing out the object's reference, also accessible by multiple threads.

class Book {
    private string title;
    public Book(string title) {
        this.title = title;

    public string Title { get { return title; } }

class BookstoreSingleton {

    public BookstoreSingleton Instance { ... }

    public Book Book { get { return this.book; } }

Am I correct in thinking that both, the Book.Title and BookstoreSingleton.Book both need thread-safe code?

share|improve this question
up vote 3 down vote accepted

Your class seems immutable and thread safe. You don't need to synchronize access to those properties as they can only be read, just make sure that you initialize your singleton only once (the Instance property) and that you cannot assign it a value a second time.

share|improve this answer
Can't multiple threads have the reference to same book object and at the same time try to access that book's Title property, thus referencing the same memory simultaneously? Wouldn't this cause a problem? – randomguy Aug 29 '10 at 13:39
@randomguy, no, because they would be only reading this memory. Problems start to arise when multiple threads read and write the same shared memory location. – Darin Dimitrov Aug 29 '10 at 13:40
@randomguy: why do you believe that simultaneous anything causes an access violation? Access violations are caused by reading pages that are marked as unreadable, not by two threads reading the same readable page. And why do you believe that reading "locks" memory? You seem to have a bunch of ideas about how memory access works that are nothing at all like how memory access actually works on any chipset I'm familiar with. Can you explain the origins of these beliefs? – Eric Lippert Aug 29 '10 at 14:59
Sure, that's how memory works but I assure you it is way more complicated than that. Start by reading up on how modern processors store recently used memory blocks on the (several) processor caches if you want to understand how this works at a low level. – Eric Lippert Aug 29 '10 at 21:13
Also, it will help greatly to have a correct understanding of single processor multithreading vs multiple processor multithreading. In single proc multithreading, two threads don't run at the same time. One is suspended, its state is saved, and then a different thread takes over the processor. But with two processors there actually can be two threads running at the same time. Since processors make copies of memory in their caches that means that each processor can have inconsistent views of memory. It gets real complicated real fast. – Eric Lippert Aug 30 '10 at 6:33

The only thing that really needs synchronization is the Instance function in the singleton class, and only then if you create your instance lazily. The rest should be fine, since the book is immutable.

share|improve this answer
no he doesn't need to synchronize the access to Instance as if this is a real singleton it should be initialized only once and so it is also immutable during the lifetime of the application. – Darin Dimitrov Aug 29 '10 at 13:36
@Darin: If the initialization is done lazily, as is quite common, then the Instance method creates the object if it's not already created. Two threads therefore need to be prevented from running Instance at the exact same time, or two singletons could be created. – cHao Aug 29 '10 at 13:46
that's correct, but if the singleton pattern is implemented correctly (yoda.arachsys.com/csharp/singleton.html), this cannot happen. Two threads could read the Instance property at the same time (which is not problematic), but only a single one will assign it (and this before any others had the chance to read it). – Darin Dimitrov Aug 29 '10 at 15:29
@Darin: I'd argue that that page's version of "correctly" is language/platform trickery. The Singleton pattern doesn't require (or even hint at) inner classes and all that, and they work because of how the CLR does static initialization -- which people who want to get stuff done shouldn't have to know in depth just to make a singleton. The most straightforward way to initialize lazily yet with thread safety is the second one in that page. It's not the best performing, but then, i also don't have to worry about how to translate it to, say, PHP, C++ or Java. And it's easy to explain. – cHao Aug 29 '10 at 15:52
cHao, totally agree with you. The second example is thread safe and if you are not worried about performance perfectly valid and understandable. But usually when you pick a platform/framework is because it offers benefits that others might not, thus the fifth version. – Darin Dimitrov Aug 29 '10 at 15:55

I agree with cHao.

The classic way to do it is to include

public class BookstoreSingleton {

    private static readonly BookstoreSingleton instance = new BookstoreSingleton()
    public BookstoreSingleton Instance { return instance; }

    public Book Book { get { return this.book; } }

as member of the BookstoreSingleton class. Not a lazy as we would be if Instance is the only static member, it will do the job perfectly and is perfectly thread safe as specified by the c# specs (static initializer are executed only once). The readonly ensure that this is the only time the instance member will be set.

That's for the singleton part but now where do you set the BookstoreSingleton's Book member. You probably need thread safety there except if you put it in the private BookstoreSingleton constructor only called once by the static initializer.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.