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I am trying to get an overview of the thread safety theory behind the collections in C#.

Why are there no concurrent collections as there are in Java? (java docs). Some collections appear thread safe but it is not clear to me what the position is for example with regard to:

  • compound operations,
  • safety of using iterators,
  • write operations

I do not want to reinvent the wheel! (I am not a multi-threading guru and am definitely not underestimating how hard this would be anyway).

I hope the community can help.

share|improve this question
Great response - I will leave this 'unanswered' for a short while longer to keep it on the radar. If anyone has any further links to articles on either pre or post .Net 4.0 state of play on this subject then please include. Thank you everyone. – Andrew Dec 22 '09 at 18:17
up vote 26 down vote accepted

.NET has had relatively "low level" concurrency support until now - but .NET 4.0 introduces the System.Collections.Concurrent namespace which contains various collections which are safe and useful.

Andrew's answer is entirely correct in terms of how to deal with collections before .NET 4.0 of course - and for most uses I'd just lock appropriately when accessing a "normal" shared collection. The concurrent collections, however, make it easy to use a producer/consumer queue, etc.

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+1 thanks Jon. I guess that way .net does not lull people into a false sense of securty. I will check out the .Net 4.0 goodies. – Andrew – Andrew Dec 22 '09 at 14:11
+1 Nice, forgot all about that :) – Andrew Hare Dec 22 '09 at 14:24

C# offers several ways to work with collections across multiple threads. For a good write-up of these techniques I would recommend that you start with Collections and Synchronization (Thread Safety):

By default, Collections classes are generally not thread safe. Multiple readers can read the collection with confidence; however, any modification to the collection produces undefined results for all threads that access the collection, including the reader threads.

Collections classes can be made thread safe using any of the following methods:

  • Create a thread-safe wrapper using the Synchronized method, and access the collection exclusively through that wrapper.
  • If the class does not have a Synchronized method, derive from the class and implement a Synchronized method using the SyncRoot property.
  • Use a locking mechanism, such as the lock statement in C# (SyncLock in Visual Basic), on the SyncRoot property when accessing the collection.
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+1 that was fast! - that looks a little like the Collections.synchronizedList from Java. I will check out that link. Thanks – Andrew Dec 22 '09 at 14:03
And see also here:… where Eric Lippert discusses immutable collections in some depth, specifically with regard to concurrent access. – Jeremy McGee Dec 22 '09 at 14:11
Thanks Jeremy had not come accross this blog (now subscribed) there is some excellent material under the immutability tag. – Andrew Dec 22 '09 at 14:47

As Jon Skeet mentioned, there are now "thread safe" collections in the System.Collections.Concurrent namespace in .NET 4.

One of the reason that no concurrent collections exist (at least my guess) in prior .NET Framework versions is that it is very hard to guarantee thread safety, even with a concurrent collection.

(This is not entirely true as some collections offer a Synchronized method to return a thread safe collection from a non-thread safe collection so there are some thread safe collections...)

For example assume one has a thread safe Dictionary - if one only want to to an insert if the Key does not exist one would first query the collection to see if the Key exists, then one would do an insert if the key does not exist. These two operation are not thread safe though, between the query of ContainsKey and the Add operation another thread could have done an insert of that key so there is a race condition.

Inother words the operations of the collection are thread safe - but the usage of it is not necessarily. In this case one would need to transition back to traditional locking techniques (mutex/monitor/semaphore...) to achieve thread safety so the concurrent collection has bought you nothing in terms of multi-threaded safety (but is probably worse for performance).

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I was thinking along the same lines. The Put-if-absent issue where you could end up with 2 objects in your collection where there was none before. Thanks +1. – Andrew Dec 22 '09 at 14:34
@saret: How hard is it really, though, to provide the functions that are needed for true thread-safe usage? I would think if the dictionary didn't need to hold "Nothing" values, everything could be done with an enumerator, a Long change-count property, and a method that worked analogous to Threading.Interlocked.CompareExchange. Adding "Nothing" values creates a little more complexity, but not too much. – supercat Oct 26 '10 at 20:26
@supercat, a possibly better way is to offer methods on the collection itself that do work within a lock (such as execute action/func within lock), or offer functionality such as InsertIfNotExists – saret Dec 13 '10 at 9:10
@saret: Allowing exec within lock creates the possibility of deadlock if the supplied routine hangs. If "nothing" is used to mean "item does not/should not exist", operations like AddIfNotExists could be synthesized from the operations I listed. That's not to say having more primitives wouldn't be helpful, but I would think a collection with the listed functions could, with wrappers, do essentially everything one could want with a thread-safe collection provided contention wasn't too high (CompareExchange-based operations can starve). – supercat Dec 13 '10 at 16:09
@supercat- if the supplied routine hangs you've got bigger problems on your hand - however as long as the lock used is consistent and supports recursive acquisition (in the event further lock methods are called) you wouldn't deadlock yourself (assuming the supplied func works). I agree that your route might be a good way to go, the real problem though is that framework designers like those on the .Net BCL team need to build general case code that have to support requirements that might not be suited to this route - a "dictionary didn't need to hold "Nothing" values" is not a safe assumption – saret Dec 14 '10 at 13:14

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