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Jep and the GIL
If you're looking at Jep as a Java developer, you might not be very familiar with CPython's GIL. The GIL is the Global Interpreter Lock and exists for a variety of reasons. Note that Jython and IronPython do not have a GIL, but if you're looking at Jep it may be because you want to use CPython extensions. Attempts have been made to remove the GIL from CPython but all attempts have failed to elegantly remove it while maintaining compatibility and meeting requirements. So for now and the foreseeable future, the GIL is part of CPython.
The GIL must be acquired when interpreting Python code and manipulating Python objects, therefore Python programs running in the CPython interpreter cannot truly be multithreaded. However, once you dive into CPython extensions, it gets more complex and can potentially be multithreaded. An excellent example is numpy, which aggressively releases the GIL when executing computations in C, enabling simultaneous thread execution. For more information, consult the Python wiki on the GIL.
Jep must acquire the GIL to run code in the CPython interpreter. When Jep crosses natively into C and uses the CPython API, it acquires the GIL. However, like numpy, Jep strategically releases the GIL when appropriate. Specifically, every time a Java method (including constructors) is invoked from the embedded interpreter, Jep will release the GIL, because Jep has no idea how long that Java method may take to execute, and Jep is not manipulating CPython objects during the Java code execution. After the method call returns, Jep must reacquire the GIL to resume interpreting Python.
The GIL is truly global in that it is a singleton across the entire process. Therefore multiple Jep instances/sub-interpreters may compete for the GIL and block until they acquire it, reducing throughput of computations.
It depends on the specific scenario.
- If you're running with a single Jep instance or a single-threaded application, the GIL will be unnoticeable.
- If you're running a lot of Java Jep threads with long running Python code that is not invoking Java methods from Python and not using smart CPython extensions like numpy that release the GIL, you may suffer performance degradation.
- If you're somewhere in the middle (like most), you will hopefully not notice the GIL affecting performance, but it is something to keep in mind if performance becomes an issue.
There's a lot of ways to approach this problem depending on the scenario.
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Verify CPython extensions release the GIL. If you're using a CPython extension, verify in the extension's code that any C libraries or methods which are not using the CPython API are releasing the GIL. (This is presuming the extension is safely written for multithreading). If the extension is not releasing the GIL and could be, consider contributing to open source by notifying the developers of the extension or submitting code to them.
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Port some Python code to Java. If some of the code does not need to be in Python, you can port it to Java, call the new Java method from Python, and get boosted performance. This has two benefits. The first is that the GIL will be released when the Java method is invoked from Python, the second is that Java's JIT compiler can easily outperform Python on operations such as
forloops. -
Try porting some of the code to Cython. Cython can speed up Python code noticeably, and you can even write Cython code that releases and reacquires the GIL appropriately. Since Cython compiles to C code compatible with CPython, it should work with Jep. Disclaimer: Not aware of anyone trying this yet.
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Port some Python code to C. Python has plenty of convenient hooks for calling into C, and in the C code you can release and reacquire the GIL as necessary. That said, if you're resorting to writing C, maybe you should just call the C code through JNI and skip Jep and Python.