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I understand that ".pyc" files are compiled versions of the plain-text ".py" files, created at runtime to make programs run faster. However I have observed a few things:

  1. Upon modification of "py" files, program behavior changes. This indicates that the "py" files are compiled or at least go though some sort of hashing process or compare time stamps in order to tell whether or not they should be re-compiled.
  2. Upon deleting all ".pyc" files (rm *.pyc) sometimes program behavior will change. Which would indicate that they are not being compiled on update of ".py"s.

Questions:

  • How do they decide when to be compiled?
  • Is there a way to ensure that they have stricter checking during development?
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  • 16
    Beware of deleting .pyc files with rm *.pyc. This will not delete .pyc files in nested folders. Use find . -name '*.pyc' -delete instead
    – Zags
    Oct 7, 2014 at 19:53
  • 6
    Perhaps one note on your question: A program doesn't run any faster when it is read from a ‘.pyc’ or ‘.pyo’ file than when it is read from a ‘.py’ file; the only thing that's faster about ‘.pyc’ or ‘.pyo’ files is the speed with which they are loaded. link
    – maggie
    Oct 7, 2015 at 6:24
  • @maggie what's the difference between loading and execution time?
    – user5306470
    Dec 6, 2016 at 18:50
  • 3
    @Dani loading is the time it takes to read and then compile the program. Execution time is when the program is actually being run which happens after loading. If you want to be technical, the time types are load time, compile time, link time, and execution time. Making a .pyc eliminates the compile time part.
    – Eric Klien
    May 23, 2017 at 3:49
  • @EricKlien thanks man
    – user5306470
    May 23, 2017 at 4:03

2 Answers 2

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The .pyc files are created (and possibly overwritten) only when that python file is imported by some other script. If the import is called, Python checks to see if the .pyc file's internal timestamp is not older than the corresponding .py file. If it is, it loads the .pyc; if it isn't or if the .pyc does not yet exist, Python compiles the .py file into a .pyc and loads it.

What do you mean by "stricter checking"?

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    I am able to fix problems with rm *.pyc. I know that if I force all the files to be recreated then some issues are fixed, indicating that the files are not being re-compiled by themselves. I suppose that if they do use the timestamps then there is no way to make this behavior stricter, but the problem still persists. Apr 5, 2013 at 17:34
  • 17
    This is not quite correct. The timestamps don't need to match (and they usually don't). The .pyc's timestamp must be older than the corresponding .py's timestamp to trigger a recompilation. Apr 5, 2013 at 17:35
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    @Aaron, Are you possibly changing the .py files, and in the process making them older (e.g. by copying them in from another dir, using an operation which preserves 'modification time')?
    – greggo
    Apr 5, 2013 at 18:07
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    @greggo, I'm using git and updating from a repository, so yes in a way I am. That could do it. Thanks. Apr 5, 2013 at 18:47
  • 1
    Good to know. How about correcting your answer then? Sep 6, 2017 at 12:33
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.pyc files generated whenever the corresponding code elements are imported, and updated if the corresponding code files have been updated. If the .pyc files are deleted, they will be automatically regenerated. However, they are not automatically deleted when the corresponding code files are deleted.

This can cause some really fun bugs during file-level refactors.

First of all, you can end up pushing code that only works on your machine and on no one else's. If you have dangling references to files you deleted, these will still work locally if you don't manually delete the relevant .pyc files because .pyc files can be used in imports. This is compounded with the fact that a properly configured version control system will only push .py files to the central repository, not .pyc files, meaning that your code can pass the "import test" (does everything import okay) just fine and not work on anyone else's computer.

Second, you can have some pretty terrible bugs if you turn packages into modules. When you convert a package (a folder with an __init__.py file) into a module (a .py file), the .pyc files that once represented that package remain. In particular, the __init__.pyc remains. So, if you have the package foo with some code that doesn't matter, then later delete that package and create a file foo.py with some function def bar(): pass and run:

from foo import bar

you get:

ImportError: cannot import name bar

because python is still using the old .pyc files from the foo package, none of which define bar. This can be especially problematic on a web server, where totally functioning code can break because of .pyc files.

As a result of both of these reasons (and possibly others), your deployment code and testing code should delete .pyc files, such as with the following line of bash:

find . -name '*.pyc' -delete

Also, as of python 2.6, you can run python with the -B flag to not use .pyc files. See How to avoid .pyc files? for more details.

See also: How do I remove all .pyc files from a project?

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  • "When you convert a module (a folder with an __init__.py file)...". That would be a package, not a module.
    – bgrant
    Sep 1, 2015 at 18:11
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    In particular, the __init__.pyc remains. – How come? As a package is a directory deleting a package means deleting directory thus there are no files left… Sep 6, 2017 at 12:30
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    @PiotrDobrogost Properly managed source control involves not checking your pyc files into source. So while you may delete the folder, including pyc files, in your local copy, it will not be deleted for someone else who does a git pull. This can crash your server if your deployment involves a git pull as well.
    – Zags
    Sep 6, 2017 at 15:11
  • There are many reasons to not trust your dev environment to be representative of where your code will be deployed. This .pyc issue is one reason, also: hidden dependencies on OS and utility patch levels, .so files, config files, other Python libs (if you're not running in a virtual env), obscure env vars ... the list goes on. To be thorough and find all such issues, you need to make a clean copy of your code in a git repo or publish as a package to a PyPi style server, and do a full clone or setup on a fresh VM. Some of those potential problems make this .pyc issue pale in comparison. Sep 29, 2017 at 2:58

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