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Does c# have its own version of the java "synchronized" keyword?

I.e. in java it can be specified either to a function, an object or a block of code, like so:

public synchronized void doImportantStuff() {
   // dangerous code goes here.
}

or

public void doImportantStuff() {
   // trivial stuff

   synchronized {
      // dangerous code goes here.
   }
}
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2  
The block form requires a reference to lock. In the method form the lock object is implicitly this (or the Class [this.class, not getClass()] for static methods, but don't lock on Classes). –  Tom Hawtin - tackline Feb 12 '09 at 13:45
1  
Still not protected ? I always come here because I can't remember that [MethodImpl(MethodImplOptions.Synchronized)] line. –  Bitterblue Mar 17 at 13:00

5 Answers 5

up vote 195 down vote accepted

First - most classes will never need to be thread-safe. Use YAGNI: only apply thread-safety when you know you actually are going to use it (and test it).

For the method-level stuff, there is [MethodImpl]:

[MethodImpl(MethodImplOptions.Synchronized)]
public void SomeMethod() {/* code */}

This can also be used on accessors (properties and events):

private int i;
public int SomeProperty
{
    [MethodImpl(MethodImplOptions.Synchronized)]
    get { return i; }
    [MethodImpl(MethodImplOptions.Synchronized)]
    set { i = value; }
}

Note that field-like events are synchronized by default, while auto-implemented properties are not:

public int SomeProperty {get;set;} // not synchronized
public event EventHandler SomeEvent; // synchronized

Personally, I don't like the implementation of MethodImpl as it locks this or typeof(Foo) - which is against best practice. The preferred option is to use your own locks:

private readonly object syncLock = new object();
public void SomeMethod() {
    lock(syncLock) { /* code */ }
}

Note that for field-like events, the locking implementation is dependent on the compiler; in older Microsoft compilers it is a lock(this) / lock(Type) - however, in more recent compilers it uses Interlocked updates - so thread-safe without the nasty parts.

This allows more granular usage, and allows use of Monitor.Wait/Monitor.Pulse etc to communicate between threads.

A related blog entry (later revisited).

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@earcam and your question is? That statement is true. The vast majority of classes have no requirement to be thread-safe, will not be tested for thread-safety, and having thread-safety will impact performance. The number of types that genuinely need to worry about threads is very small - intentionally synchronized collections, multiplexers, etc. –  Marc Gravell Nov 8 '11 at 9:02
    
Sorry @Marc, I deleted the comment shortly afterwards (as without explanation it served no purpose but to smell like a troll). I'll repeat here: ""most classes will never need to be thread-safe" eh?" The reason for my "eh?" is that's quite a sweeping statement. I still disagree but perhaps it's just the way you stated it - in my mind you should always be aware of the context your classes will be used in (frameworks etc). Quite agree the number is small, but here critical. Diff design can remove locks completely; immutable classes and guarding shared state through sync'd collections etc. –  earcam Nov 8 '11 at 10:17
    
@earcam indeed I'm very familiar with deeply threaded code... but that is the exception, not the norm - and even then, not all classes involved need to get involved –  Marc Gravell Nov 8 '11 at 10:21
2  
I think I should have simply stated; "most classes will never need to be thread-safe" but "all developers must concurrency aware". In retrospect I agree the number is very small (and definitely something you want to get right once in one place, allowing the majority of classes to interact oblivious to their multi-threaded surroundings). Wish I'd deleted the comment quicker =) –  earcam Nov 8 '11 at 10:34
1  
Marc's linked blog post has a March 2010 follow-up saying that in .NET 4.0, MethodImpl and field-like events now generate good synchronization code, and it is no longer necessary to use your own locks. –  Rory O'Kane Jun 3 '13 at 19:47

Does c# have its own version of the java "synchronized" keyword?

No. In C#, you explicitly lock resources that you want to work on synchronously across asynchronous threads. lock opens a block; it doesn't work on method level.

However, the underlying mechanism is similar since lock works by invoking Monitor.Enter (and subsequently Monitor.Exit) on the runtime. Java works the same way, according to the Sun documentation.

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1  
It doesn't have an equivalent "keyword", but as Marc Gravell's answer above shows, you can synchronize at the method level using the [MethodImpl(MethodImplOptions.Synchronized)] annotation. –  MindJuice Jan 3 '13 at 19:28
static object Lock = new object();

lock (Lock) 
{
// do stuff
}
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1  
Are you sure you want to declare your lock object as static..? –  serg10 Feb 12 '09 at 20:13
13  
Sure, so every Thread can easily access it without passing references around. –  Jan Gressmann Feb 12 '09 at 21:27
6  
If we are in the context of the asker's question, then we are talking about instance methods. Using static means that if thread 1 calls instance1.DoSomething() and thread 2 calls instance2.DoSomething, the second call will block even though it is a completely different object. thread2's call shouldn't block unless someone is calling DoSomething on the same object. Not saying you are wrong, but saying it is important to understand the effect of using static here, because it may cause poor performance by blocking globally instead of on a per instance basis. –  AaronLS Apr 15 '13 at 7:03
    
@AaronLS The static lock if very useful when your object performs actions on a bigger scope than itself. Always happens with web-services for example. –  thibaultd Apr 19 '13 at 12:59
    
@JanGressmann Thank you for that answer that's exactly what I was looking for when searching that question. –  thibaultd Apr 19 '13 at 12:59

You can use the lock statement instead. I think this can only replace the second version. Also, remember that both synchronized and lock need to operate on an object.

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Take note, with full paths the line: [MethodImpl(MethodImplOptions.Synchronized)] should look like

[System.Runtime.CompilerServices.MethodImpl(System.Runtime.CompilerServices.MethodImplOptions.Synchronized)]

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