Functions in a module are equivalent to static methods in a class. The issue of thread safety arises when multiple threads may be modifying shared data, or even one thread may be modifying such data while others are reading it; it's best avoided by making data be owned by ONE module (accessed via Queue.Queue from others), but when that's not feasible you have to resort to locking and other, more complex, synchronization primitives.
This applies whether the access to shared data happens in module functions, static methods, or instance methods -- and the shared data is such whether it's instance variables, class ones, or global ones (scoping and thread safety are essentially disjoint, except that function-local data is, to a pont, intrinsically thread-safe -- no other thread will ever see the data inside a function instance, until and unless the function deliberately "shares" it through shared containers).
If you use the
multiprocessing module in Python's standard library, instead of the
threading module, you may in fact not have to care about "thread safety" -- essentially because NO data is shared among processes... well, unless you go out of your way to change that, e.g. via