When using multiprocessing.Pool in python with the following code, there is some bizarre behavior.
from multiprocessing import Pool
p = Pool(3)
def f(x): return x
threads = [p.apply_async(f, [i]) for i in range(20)]
for t in threads:
try: print(t.get(timeout=1))
except Exception: pass
I get the following error three times (one for each thread in the pool), and it prints "3" through "19":
AttributeError: 'module' object has no attribute 'f'
The first three apply_async calls never return.
Meanwhile, if I try:
from multiprocessing import Pool
p = Pool(3)
def f(x): print(x)
p.map(f, range(20))
I get the AttributeError 3 times, the shell prints "6" through "19", and then hangs and cannot be killed by [Ctrl] + [C]
The multiprocessing docs have the following to say:
Functionality within this package requires that the main module be
importable by the children.
What does this mean?
To clarify, I'm running code in the terminal to test functionality, but ultimately I want to be able to put this into modules of a web server. How do you properly use multiprocessing.Pool in the python terminal and in code modules?
Best Answer
What this means is that pools must be initialized after the definitions of functions to be run on them. Using pools within
if __name__ == "__main__":blocks works if you are writing a standalone script, but this isn't possible in either larger code bases or server code (such as a Django or Flask project). So, if you're trying to use Pools in one of these, make sure to follow these guidelines, which are explained in the sections below:Alternatively, if you only need better parallelism on I/O (like database accesses or network calls), you can save yourself all this headache and use pools of threads instead of pools of processes. This involves the completely undocumented:
It's interface is exactly the same as that of Pool, but since it uses threads and not processes, it comes with none of the caveats that using process pools do, with the only downside being you don't get true parallelism of code execution, just parallelism in blocking I/O.
Pools must be initialized after the definitions of functions to be run on them
The inscrutable text from the python docs means that at the time the pool is defined, the surrounding module is imported by the threads in the pool. In the case of the python terminal, this means all and only code you have run so far.
So, any functions you want to use in the pool must be defined before the pool is initialized. This is true both of code in a module and code in the terminal. The following modifications of the code in the question will work fine:
Or
By fine, I mean fine on Unix. Windows has it's own problems, that I'm not going into here.
Caveats to using pools in modules
But wait, there's more (to using pools in modules that you want to import elsewhere)!
If you define a pool inside a function, you have no problems. But if you are using a Pool object as a global variable in a module, it must be defined at the bottom of the page, not the top. Though this goes against most good code style, it is necessary for functionality. The way to use a pool declared at the top of a page is to only use it with functions imported from other modules, like so:
Importing a pre-configured pool from another module is pretty horrific, as the import must come after whatever you want to run on it, like so:
And second, if you run anything on the pool in the global scope of a module that you are importing, the system hangs. i.e. this doesn't work:
This, however, does work, as long as nothing imports module2:
Now, the reasons behind this are only more bizarre, and likely related to the reason that the code in the question only spits an Attribute Error once each and after that appear to execute code properly. It also appears that pool threads (at least with some reliability) reload the code in module after executing.