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Is there a standard terminology that distinguishes between objects that are safe to use in a multi-threaded environment with locking (my object has no unprotected static members) and objects that are safe to use concurrently in a MT environment (maybe because I put locks around all the public methods)?

Let me add a little more explanation: I have a C++ library that is overall safe to use in a multithreaded environment but is not thread safe. The library contains an exception class inherited from std::exception. The what() method returns a char*. Since I'm stuck with the signature defined in the parent, I have to return memory internal to the class rendering this particular method even more unsafe than the rest of the library. I'm looking for some standard terminology to use when documenting this method.

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You mean, other than "thread-safe"? –  Steven Sudit Aug 19 '10 at 14:57
Yes, because I want to distinguish between safe in an MT environment and safe to use concurrently. –  John Gordon Aug 19 '10 at 14:58
What is the difference between using an object concurrently and using the object on multiple threads? –  Kirk Woll Aug 19 '10 at 15:02
For objects containing a static member not protected by a lock, it's not safe to access different instances of an object from different threads. For objects that are safe in an MT-environment, like STL containers, it's OK as long as you don't access the same instance of an object concurrently. –  John Gordon Aug 19 '10 at 15:05
Well, neither type is thread-safe, but the former is even less safe than usual because its instances depend on non-safe statics. –  Steven Sudit Aug 19 '10 at 15:16

1 Answer 1

Static methods that can be used in a multi-threaded environment are called "thread safe".

Instance objects that can be used by multiple threads simultaniously are usually called "immutable", since that is the most common mechanism for ensuring thread safety.

If you define "thread safe" in a broad sense to encompass not only the avoidance of data corruption but also the impossibility of a deadlock, then a mutable instance can rarely be made thread safe, since thread safety ultimately depends on how the object is used.

If you define "thread safe" narrowly to mean that the object is always left in a consistant state, then I don't know of any special terminology for such a thing.

It's usually better to define "thread safe" as a property of a whole system rather than an class.

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Does this mean that you would define the STL containers to be "immutable" but not thread safe? –  John Gordon Aug 19 '10 at 15:23
Immutability does lead to thread safety, but thread safety can be from other mechanisms than immutability. Therefore, I find this confusing and misleading. –  Steven Sudit Aug 19 '10 at 15:27
Also, it's not at all hard to make a mutable object thread-safe without deadlocks. –  Steven Sudit Aug 19 '10 at 15:27
@John Gordon - The STL containers are not immutable, and I would say that they are not at all thread safe. –  Jeffrey L Whitledge Aug 19 '10 at 15:30
@Steven Sudit - My point is that focusing on protecting the internals of an object rather than how the object is used is not a good approach to creating a multi-threaded program. It often leads to the appearance of safety but not the actual fact. For example, a "thread-safe" container object cannot have a Count property, because such a property would be utterly useless. –  Jeffrey L Whitledge Aug 19 '10 at 15:38

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