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I'm experimenting with disassembling Python modules into bytecodes.

Must I import a Python module statically or dynamically in order to disassemble or inspect it? If not, what are the (pythonic, portable) ways to do it?

I'd like to:

  1. Load an available Python module's binary data into memory at runtime:
    1. Without it appearing as an available module in sys.modules.
    2. I don't want to execute any of the module's __init__ code, or have it added to any namespace.
    3. There should be no other side effects of loading the module. As far as the interpreter's concerned, it should just be a blob of data to be inspected.
  2. Disassemble or otherwise inspect the module's classes, functions or data.
  3. Unload the module when desired.

I've searched, and I see a number of methods of dynamic module importation (which has the side effect of executing module __init__ code or other inline code, and insertion into sys.modules). But I'd rather not deal with those side effects.

Is this possible? If so, what approaches are most portable/Pythonic?

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What would it mean to "load a module" without allowing it to execute its init.py file? It seems like a contradiction to me. –  John Zwinck Mar 5 '13 at 2:33
Load the binary data in memory in a form that can be accessed by code, but not executed. I've updated the question to reflect your feedback –  Inactivist Mar 5 '13 at 4:53
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2 Answers 2

I looked into this a bit and one possible solution is usage of the pyclbr module. The inspection of it looks at basic information about classes and functions, loading it into a dictionary for easy access. Here is a sample run:

>>> import pyclbr
>>> import sys
>>> info = pyclbr.readmodule_ex('inspect')
>>> info
{'formatargvalues': <pyclbr.Function object at 0x5083e28e50>, 'walktree': <pyclbr.Function object at 0x5083e28b50>, 'getinnerframes': <pyclbr.Function object at 0x5083e29050>, 'indentsize': <pyclbr.Function object at 0x5083e28710>, 'getmodulename': <pyclbr.Function object at 0x5083e28850>, 'formatannotation': <pyclbr.Function object at 0x5083e28d50>, 'ismemberdescriptor': <pyclbr.Function object at 0x5083e283d0>, 'iscode': <pyclbr.Function object at 0x5083e28550>, 'getsource': <pyclbr.Function object at 0x5083e28b10>, 'formatargspec': <pyclbr.Function object at 0x5083e28dd0>, 'getabsfile': <pyclbr.Function object at 0x5083e288d0>, 'getsourcelines': <pyclbr.Function object at 0x5083e28ad0>, '_getfullargs': <pyclbr.Function object at 0x5083e28c10>, 'isabstract': <pyclbr.Function object at 0x5083e28610>, 'isbuiltin': <pyclbr.Function object at 0x5083e28590>, 'getlineno': <pyclbr.Function object at 0x5083e28f10>, 'getcomments': <pyclbr.Function object at 0x5083e28990>, 'getgeneratorstate': <pyclbr.Function object at 0x5083e293d0>, 'getattr_static': <pyclbr.Function object at 0x5083e29390>, 'getframeinfo': <pyclbr.Function object at 0x5083e28ed0>, 'isgenerator': <pyclbr.Function object at 0x5083e28490>, '_static_getmro': <pyclbr.Function object at 0x5083e29190>, 'isframe': <pyclbr.Function object at 0x5083e28510>, 'getouterframes': <pyclbr.Function object at 0x5083e28f90>, 'getclasstree': <pyclbr.Function object at 0x5083e28b90>, 'getfile': <pyclbr.Function object at 0x5083e287d0>, '_shadowed_dict': <pyclbr.Function object at 0x5083e29310>, 'getargvalues': <pyclbr.Function object at 0x5083e28d10>, 'getmembers': <pyclbr.Function object at 0x5083e28650>, 'BlockFinder': <pyclbr.Class object at 0x5083e28a10>, 'isfunction': <pyclbr.Function object at 0x5083e28390>, 'getargspec': <pyclbr.Function object at 0x5083e28c50>, 'currentframe': <pyclbr.Function object at 0x5083e29090>, 'namedtuple': <pyclbr.Function object at 0x5083e1b150>, 'getmoduleinfo': <pyclbr.Function object at 0x5083e28810>, 'trace': <pyclbr.Function object at 0x5083e29110>, 'isclass': <pyclbr.Function object at 0x5083db8950>, '_is_type': <pyclbr.Function object at 0x5083e29290>, 'getcallargs': <pyclbr.Function object at 0x5083e28e90>, 'ismethoddescriptor': <pyclbr.Function object at 0x5083e28310>, 'isgeneratorfunction': <pyclbr.Function object at 0x5083e28450>, 'isroutine': <pyclbr.Function object at 0x5083e285d0>, 'getfullargspec': <pyclbr.Function object at 0x5083e28cd0>, 'getmro': <pyclbr.Function object at 0x5083e286d0>, 'getargs': <pyclbr.Function object at 0x5083e28bd0>, 'stack': <pyclbr.Function object at 0x5083e290d0>, 'getdoc': <pyclbr.Function object at 0x5083e28750>, 'findsource': <pyclbr.Function object at 0x5083e28950>, 'cleandoc': <pyclbr.Function object at 0x5083e28790>, '_check_class': <pyclbr.Function object at 0x5083e29250>, '_check_instance': <pyclbr.Function object at 0x5083e29210>, 'classify_class_attrs': <pyclbr.Function object at 0x5083e28690>, 'ismodule': <pyclbr.Function object at 0x5083db8910>, 'EndOfBlock': <pyclbr.Class object at 0x5083e289d0>, 'isdatadescriptor': <pyclbr.Function object at 0x5083e28350>, 'getmodule': <pyclbr.Function object at 0x5083e28910>, 'formatannotationrelativeto': <pyclbr.Function object at 0x5083e28d90>, 'getsourcefile': <pyclbr.Function object at 0x5083e28890>, 'ismethod': <pyclbr.Function object at 0x5083e282d0>, 'isgetsetdescriptor': <pyclbr.Function object at 0x5083e28410>, 'istraceback': <pyclbr.Function object at 0x5083e284d0>, 'getblock': <pyclbr.Function object at 0x5083e28a50>}
>>> sys.modules['inspect']
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
KeyError: 'inspect'

Anything more advanced and you would have to start looking into accessing the abstract syntax tree through the ast module.

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That helps, because I do need class browser functionality but the exposed interface doesn't help me with the core requirement. I will code dive into pyclbr to see if the implementation provides additional clues, so +1 for your answer! –  Inactivist Mar 5 '13 at 5:12
@Inactivist can you expand a little more on the requirements? What kind of analysis are you expecting? Much of the more lower level interaction is handled by the Python Language Services modules. –  cwgem Mar 5 '13 at 5:36
Mainly I want to get bytecode data from a module's methods (and other attributes) at runtime, but I don't want to import the module for execution. It seems that the built-in services assume you want to or have imported the module (but I'm still searching and learning.) I've updated my original question to help clarify. –  Inactivist Mar 5 '13 at 14:59
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I found uncompyle2 for Python 2.7, which contains functions to load a source file and compile it to bytecodes and load a module and compile it to bytecodes without importing the module.

So at a minimum it appears it is doable but may involve invoking compile() on source, or, if working with a pyc file, may not be portable (uncompyle2 supports Python 2.7 only with pyc files.)

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