Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The reason I want to this is I want to use the tool pyobfuscate to obfuscate my python code. Butpyobfuscate can only obfuscate one file.

share|improve this question
The big question here is: Why? pyobfuscate isn't a very good obfuscater. And obfuscation isn't a very useful thing to do with Python. You can already just ship the .pyc bytecode files. To read them usefully, someone has to decompile them into source—source which looks very much like the result of running an obfuscater on the original source. –  abarnert Aug 13 '13 at 2:18

3 Answers 3

up vote 0 down vote accepted

I've answered your direct question separately, but let me offer a different solution to what I suspect you're actually trying to do:

Instead of shipping obfuscated source, just ship bytecode files. These are the .pyc files that get created, cached, and used automatically, but you can also create them manually by just using the compileall module in the standard library.

A .pyc file with its .py file missing can be imported just fine. It's not human-readable as-is. It can of course be decompiled into Python source, but the result is… basically the same result you get from running an obfuscater on the original source. So, it's slightly better than what you're trying to do, and a whole lot easier.

You can't compile your top-level script this way, but that's easy to work around. Just write a one-liner wrapper script that does nothing but import the real top-level script. If you have if __name__ == '__main__': code in there, you'll also need to move that to a function, and the wrapper becomes a two-liner that imports the module and calls the function… but that's as hard as it gets.) Alternatively, you could run pyobfuscator on just the top-level script, but really, there's no reason to do that.

In fact, many of the packager tools can optionally do all of this work for you automatically, except for writing the trivial top-level wrapper. For example, a default py2app build will stick compiled versions of your own modules, along with stdlib and site-packages modules you depend on, into a pythonXY.zip file in the app bundle, and set up the embedded interpreter to use that zipfile as its stdlib.

share|improve this answer
By using decompyle2, we can convert a .pyc back to the original source code, including original variable names, comments, docstrings @abarnert ! So keeping a .pyc is not an obfuscation method at all ! –  Basj Jan 6 '14 at 21:27
@Basj: That's not true; comments aren't even stored in the .pyc file, so no decompiler could possibly restore them. I can't actually test decompyle2 since it only works up to Python 2.2, but it's trivial to verify that none of the more modern ones do the impossible. More importantly, as I already explained, obfuscation is generally not a useful thing to do to Python code in the first place. If you're just trying to stop casual browsing of your source, shipping .pyc files is sufficient; if you're trying to slow down real reverse engineering, pyobfuscate is nowhere near sufficient. –  abarnert Jan 6 '14 at 21:55
decompyle2 worked for me with Python 2.7 @abarnert. And I recovered the original sourcecode (including docstrings, original variable names, etc.) from a .pyc. pyobfuscate IS much better : the sourcecode is very very more difficult to read, because variable names are changed, etc. –  Basj Jan 7 '14 at 13:00
@Basj: You really recovered the comments? I don't believe you. Give me some sample code to prove it. –  abarnert Jan 7 '14 at 19:46

I think you can try using the find command with -exec option.

you can execute all python scripts in a directory with the following command.

find . -name "*.py" -exec python {} ';'

Wish this helps.


OH sorry I overlooked that if you obfuscate files seperately they may not run properly, because it renames function names to different names in different files.

share|improve this answer

There are a definitely ways to turn a tree of modules into a single module. But it's not going to be trivial. The simplest thing I can think of is this:

First, you need a list of modules. This is easy to gather with the find command or a simple Python script that does an os.walk.

Then you need to use grep or Python re to get all of the import statements in each file, and use that to topologically sort the modules. If you only do absolute flat import foo statements at the top level, this is a trivial regex. If you also do absolute package imports, or from foo import bar (or from foo import *), or import at other levels, it's not much trickier. Relative package imports are a bit harder, but not that big of a deal. Of course if you do any dynamic importing, use the imp module, install import hooks, etc., you're out of luck here, but hopefully you don't.

Next you need to replace the actual import statements. With the same assumptions as above, this can be done with a simple sed or re.sub, something like import\s+(\w+) with \1 = sys.modules['\1'].

Now, for the hard part: you need to transform each module into something that creates an equivalent module object dynamically. This is the hard part. I think what you want to do is to escape the entire module code so that it can put into a triple-quoted string, then do this:

import types
mod_globals = {}
# escaped version of original module source goes here
''', mod_globals)
mod = types.ModuleType(module_name)
sys.modules[module_name] = mod

Now just concatenate all of those transformed modules together. The result will be almost equivalent to your original code, except that it's doing the equivalent of import foo; del foo for all of your modules (in dependency order) right at the start, so the startup time could be a little slower.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.