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For a project I am working on I'm implementing a class as a singularity. The class is responsible for detecting what stage (Dev, Test, Production, etc.) the system is running in, and returning certain values accordingly so our dev team won't have to worry about handling staging settings every time they use those values. In addition, it allows us to override what the stage is currently, for the purpose of pretending to be in a different stage.

My concern has to deal with how the singularity will behave when multi-threading is involved. The code below outlines the basic setup that will be used.

My question is, if program & program2 could be running on different threads at the same time, will the OverrideStage() function (which changes a private variable in the instance) interfere with the other program's expected behavior?


1) Program starts, sets stage to DEV

2) On another thread, Program2 starts, sets stage to PRODUCTION

3) Back in Program, try to get a value, will the value be in DEV or PRODUCTION?

namespace TESTING

class Program
    static void Run()

        Staging stage = Staging.Instance;

            SqlConnection connDev = new SqlConnection(stage.ConnectionString("example")); // Connection to development database
            // Do Stuff
            SqlConnection connBackToAuto = new SqlConnection(stage.ConnectionString("example")); // Connection to detected stage database

class Program2
    static void Run()
        Staging s = Staging.Instance;
            SqlConnection connDev = new SqlConnection(s.ConnectionString("example")); // Connection to production database
            // Do stuff

} // End namespace

I guess the question can be simplified to:

Are s and stage the same instance of Staging?

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the answer depends on the implementation of Staging.Instance property which you didn't include –  Tar Nov 8 '12 at 21:54

1 Answer 1

up vote 1 down vote accepted

I don't believe your application can have two main entry points... what you're describing is not feasible, unless you specify multiple entry points.

Now, if it were feasible (i.e. you specified multiple entry points), then

Your attempt to change the Staging mode will result in updating the mode for both program instances.

So let's look at your example:

1) Program starts, sets stage to DEV    
2) On another thread, Program2 starts, sets stage to PRODUCTION
3) Back in Program, try to get a value, will the value be in DEV or PRODUCTION?

The value will most likely be PRODUCTION, however it may not be the case depending on how the threads started. It can get complicated, because if both threads are started relatively quickly one after the other, then the stage might be DEV or PRODUCTION depending on when the context switch happened between the two threads.

Update 1.0

Since strike out the multiple entry points because you've substituted Main methods with Run methods.

Update 2.0

To Singleton or not to Singleton

The situation you're describing is very confusing, mainly because a Program usually contains the Main entry point for your application. Under normal circumstances, one would expect that the program either runs in DEV or PRODUCTION mode. Running multiple program instances in separate threads and in different modes is very confusing!!! I can't think of a realistic example where anybody would want to do that.

Let's suppose there was such an obscure example tho: your best bet is to provide each program with its own internal staging state, rather than a global (Singleton) staging state. This guarantees that you can start multiple instances of your program in multiple threads and each one would run independently of each-other. You generally want to share as little between threads as possible- some people refer to it as shared nothing architecture.

What's the staging mode?

If you take the Singleton approach, then this question becomes very difficult to answer.

  • If you have a way to guarantee that the thread running Program2 waits for Program to get initialized (via some sort of thread signalling mechanism), then you're guaranteed that the mode will be PRODUCTION.
  • If you don't have a thread signalling mechanism, then the mode might either be DEV or PRODUCTION depending on many issues.

You can, indeed, create a separate Staging classes in different namespaces and each one is used depending on the mode you're utilizing. However, that is no different than maintaining two separate Staging classes i.e. DevStaging and ProductionStaging. You generally want to avoid coding the same thing twice, so this option is starting to look less and less desirable.

In general, the issue of knowing which staging mode you're currently in is actually not so much to do with threading, the problem is just magnified when threading is involved. The reason why your Staging mode will change is because both programs use the same staging instance, which is provided to them by the Staging (singleton) instance.

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Sorry about the main() confusion, I switched it to Run(), assume Run() is called to start the code there. –  Andrew Hagner Nov 8 '12 at 20:36
Then @Lirik told you exactly what may happen ans s and stage will be the same instances (assuming it's a thread safe singleton) but you can never know which thread will set it first and which one will set the stage second. –  Nikola Davidovic Nov 8 '12 at 20:38
@Lirik That makes sense, however is it because they are within the same namespace? If so, my choices would be either to not use singularity pattern or move each program to its own namespace correct? If not, I'll just scrap the singularity pattern. –  Andrew Hagner Nov 8 '12 at 20:39
You're giving us a bit of an odd example. You're implying that your entire application will be run from two separate threads in two different modes. You should either start your application in DEV mode or PRODUCTION mode, I don't understand why you need to run the same application in multiple modes at the same time. –  Lirik Nov 8 '12 at 20:41
@AndrewHagner - The whole point of the singleton pattern is that all consumers of this type get a reference to the same, single instance. If that is not the desired behavior, why make it a singleton? –  mbeckish Nov 8 '12 at 20:42

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