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Is it common practice to couple threading logic with business logic? I'm asking with test-driven development in mind, wondering if there are benefits/drawbacks to testing business intelligence that is tied to the threading logic. Consider the following,

class Thread { ... }
class FooThread : public Thread {
  /* business intelligence coupled to threading */
}

or,

class Thread { ... }
class Foo {
  ...
  /* once again coupled */
  Thread th;
}

These approaches seem to go somewhat against trying to abstract away dependencies when testing classes. Would it be possible/acceptable to instead design a class that can be instantiated completely decoupled from the threading, perhaps possibly using templates?

template<class SomeFooClass>
class Thread { ... }

class Foo { 
  /* this class can be tested separately */
}

typedef Thread<Foo> FooThread;

Would there be any benefits/drawbacks to this? Could this same approach be used to decouple business logic from other common design patterns?

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1 Answer 1

up vote 1 down vote accepted

Threads and other computational effects tend to give unit test authors a headache. If you can, keep the thread management encapsulated away from your business logic under test.

If you're looking for ideas about how to do that, consider making a type representing the work that a thread might do (this type could be a Functor, full-blown class or perhaps just a function pointer.)

Place your "pure" business logic within an instance of this "runnable" type, and test it at this interface. You could then implement a reusable thread pool that (say) accepts these runnables in a queue and executes each. Many variations on this pattern are possible; I suggest looking in the boost libraries to find existing implementations.

What this separation will generally not save you from is the burden of synchronization, which is typically a cross-cutting concern. Locks have a way of slipping into otherwise-clean business logic. You can either attempt to deal with them by mocking them out, or try to eliminate locking altogether (on a case-by-case basis) by serializing access e.g. with a dedicated "broker" thread and a queue of runnables.

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Wouldn't the point of separating threading from business logic to test the pure business logic? Why test the "runnable" interface, or how is this different from a class coupled to its underlying threading? –  jwalk Mar 29 '13 at 1:12
    
The runnable interface would plain/pure code. You're certainly free to test underneath that if you like. If you're trying to prove that a worker thread is doing the correct sequence of steps (as opposed to proving that the objects it manipulates are themselves correct) then the runnable acts as a clean container for the actions that worker would take. –  phs Mar 29 '13 at 1:15
    
So the Runnable would basically be a common interface for types that can be passed into and executed by a separate thread object? –  jwalk Mar 29 '13 at 1:22
    
Yup. This isn't a new idea; as I said, take a look in boost to see what they have for you. –  phs Mar 29 '13 at 1:23
1  
@jwalk a runnable class doesn't have to be run in a thread. Imagine collecting updates to be run later in a single threaded situation, ie the observer/listener pattern. –  Yakk Mar 29 '13 at 1:52

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