9

I have a codebase where I'm cleaning up some messy decisions by the previous developer. Frequently, he has done something like:

from scipy import *
from numpy import *

...This, of course, pollutes the name space and makes it difficult to tell where an attribute in the module is originally from.

Is there any way to have Python analyze and fix this for me? Has anyone made a utility for this? If not, how might a utility like this be made?

3

I think PurityLake's and Martijn Pieters's assisted-manual solutions are probably the best way to go. But it's not impossible to do this programmatically.

First, you need to get a list of all names that existing in the module's dictionary that might be used in the code. I'm assuming your code isn't directly calling any dunder functions, etc.

Then, you need to iterate through them, using inspect.getmodule() to find out which module each object was originally defined in. And I'm assuming that you're not using anything that's been doubly from foo import *-ed. Make a list of all of the names that were defined in the numpy and scipy modules.

Now you can take that output and just replace each foo with numpy.foo.

So, putting it together, something like this:

for modname in sys.argv[1:]:
    with open(modname + '.py') as srcfile:
        src = srcfile.read()
    src = src.replace('from numpy import *', 'import numpy')
    src = src.replace('from scipy import *', 'import scipy')
    mod = __import__(modname)
    for name in dir(mod):
        original_mod = inspect.getmodule(getattr(mod, name))
        if original_mod.__name__ == 'numpy':
            src = src.replace(name, 'numpy.'+name)
        elif original_mod.__name__ == 'scipy':
            src = src.replace(name, 'scipy.'+name)
    with open(modname + '.tmp') as dstfile:
        dstfile.write(src)
    os.rename(modname + '.py', modname + '.bak')
    os.rename(modname + '.tmp', modname + '.py')

If either of the assumptions is wrong, it's not hard to change the code. Also, you might want to use tempfile.NamedTemporaryFile and other improvements to make sure you don't accidentally overwrite things with temporary files. (I just didn't want to deal with the headache of writing something cross-platform; if you're not running on Windows, it's easy.) And add in some error handling, obviously, and probably some reporting.

  • I don't think that will quite work. What about variables named my_foo. All of a sudden you get my_numpy.foo. Oops. Of course, given a proper parser (I'm thinking ast), you could probably do that. – mgilson Mar 7 '13 at 19:00
  • This is probably more what I'm looking for. The guy occasionally had modules where five different wildcard imports were made. It's insanity. The search and replace here is a bit dangerous, as it makes some assumptions, but this idea puts me in the right direction. – Kelketek Mar 7 '13 at 19:00
  • Ultimately though, this is a reasonable start to a tool which could be useful for the entire community. I also wonder how this sort of thing would interact with __all__. To get it actually right, you'd probably want to filter out the stuff that isn't in module.__all__ if it exists. – mgilson Mar 7 '13 at 19:02
  • @mgilson: You're right, and if you have both my_foo and foo, there's no way to fix one without breaking the other. You don't even really need a proper parser here, just a lexer, which is a lot simpler. But you're right, we already have a proper parser in ast, so maybe that's the way to go. – abarnert Mar 7 '13 at 19:02
  • 1
    @mgilson: My original thought was that I wouldn't do it this way—I'd rely on a linter and unit tests and manual editing, as in Martijn Pieters's answer. But now that you mention it, if someone were to take this and polish it up, it could be a useful general-purpose tool. – abarnert Mar 7 '13 at 19:03
3

Yes. Remove the imports and run a linter on the module.

I recommend using flake8, although it may also create a lot of noise about style errors.

Merely removing the imports and trying to run the code is probably not going to be enough, as many name errors won't be raised until you run just the right line of code with just the right input. A linter will instead analyze the code by parsing and will detect potential NameErrors without having to run the code.

This all presumes that there are no reliable unit tests, or that the tests do not provide enough coverage.

In this case, where there are multiple from module import * lines, it gets a little more painful in that you need to figure out for each and every missing name what module supplied that name. That will require manual work, but you can simply import the module in a python interpreter and test if the missing name is defined on that module:

>>> import scipy, numpy
>>> 'loadtxt' in dir(numpy)
True

You do need to take into account that in this specific case, that there is overlap between the numpy and scipy modules; for any name defined in both modules, the module imported last wins.

Note that leaving any from module import * line in place means the linter will not be able to detect what names might raise NameErrors!

  • If I remove the imports, how will this tell me which module the names are from? Wouldn't it just nameerror on all the attributes that are now unlisted? – Kelketek Mar 7 '13 at 18:50
  • @Kelketek: Yes, and you'll have to figure out for each one what module it is supposed to come from. That is not that hard, luckly. – Martijn Pieters Mar 7 '13 at 18:51
  • If you remove them one at a time, this is presumably easier. – Wooble Mar 7 '13 at 18:53
  • Presumably, I should run the linter first to get any general problems it might find, resolve them, remove one import line, run it again to see which names pop up as name errors, and then add them to a 'from' import, and then repeat the process with each wildcard import? – Kelketek Mar 7 '13 at 18:54
  • @MartijnPieters: This can actually be surprisingly painful. To take OP's example of from scipy import * and from numpy import *, the semantics of a few functions, such as log10 would depend on which import came last (they exist in both modules but don't behave the same). See stackoverflow.com/questions/6200910/… – NPE Mar 7 '13 at 18:54
0

I've now made a small utility for doing this which I call 'dedazzler'. It will find lines that are 'from module import *', and then expand the 'dir' of the target modules, replacing the lines.

After running it, you still need to run a linter. Here's the particularly interesting part of the code:

import re

star_match = re.compile('from\s(?P<module>[\.\w]+)\simport\s[*]')
now = str(time.time())
error = lambda x: sys.stderr.write(x + '\n')

def replace_imports(lines):
    """
    Iterates through lines in a Python file, looks for 'from module import *'
    statements, and attempts to fix them.
    """
    for line_num, line in enumerate(lines):
        match = star_match.search(line)
        if match:
            newline = import_generator(match.groupdict()['module'])
            if newline:
                lines[line_num] = newline
    return lines

def import_generator(modulename):
    try:
        prop_depth = modulename.split('.')[1:]
        namespace = __import__(modulename)
        for prop in prop_depth:
            namespace = getattr(namespace, prop)
    except ImportError:
        error("Couldn't import module '%s'!" % modulename)
        return
    directory = [ name for name in dir(namespace) if not name.startswith('_') ]
    return "from %s import %s\n"% (modulename, ', '.join(directory))

I'm maintaining this in a more useful stand-alone utility form here:

https://github.com/USGM/dedazzler/

-1

ok, this is what i think you could do, break the program. remove the imports and notice the errors that are made. Then import only the modules that you want, this may take a while but this is the only way I know of doing this, I will be happily surprised if someone does know of a tool to help

EDIT: ah yes, a linter, I hadn't thought of that.

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