Google's Style Guide advises against it
I'm not claiming that Google styleguides are the ultimate truth, but the rationale in the "Threading" section gives some insight (highlight is mine):
Do not rely on the atomicity of built-in types.
While Python’s built-in data types such as dictionaries appear to have atomic operations, there are corner cases where they aren’t atomic (e.g. if
__eq__ are implemented as Python methods) and their atomicity should not be relied upon. Neither should you rely on atomic variable assignment (since this in turn depends on dictionaries).
Queue module's Queue data type as the preferred way to communicate data between threads. Otherwise, use the threading module and its locking primitives. Learn about the proper use of condition variables so you can use
threading.Condition instead of using lower-level locks.
So my interpretation is that in Python everything is dict-like and when you do
a = b in the backend somewhere
globals['a'] = b is happening, which is bad since dicts are not necessarily thread safe.
For a single variable,
Queue is not ideal however since we want it to hold just one element, and I could not find a perfect pre-existing container in the stdlib that automatically synchronizes a
.set() method. So for now I'm doing just:
myvar = 0
myvar_lock = threading.Lock()
myvar = 1
myvar = 2
It is interesting that Martelli does not seem to mind that Google style guide recommendation :-) (he works at Google)
I wonder if the CPython GIL has implications to this question: What is the global interpreter lock (GIL) in CPython?
This thread also suggests that CPython dicts are thread safe, including the following glossary quote that explicitly mentions it https://docs.python.org/3/glossary.html#term-global-interpreter-lock
This simplifies the CPython implementation by making the object model (including critical built-in types such as dict) implicitly safe against concurrent access.