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I am developing a Python package for dealing with some scientific data. There are multiple frequently-used classes and functions from other modules and packages, including numpy, that I need in virtually every function defined in any module of the package.

What would be the Pythonic way to deal with them? I have considered multiple variants, but every has its own drawbacks.

  • Import the classes at module-level with from foreignmodule import Class1, Class2, function1, function2
    Then the imported functions and classes are easily accessible from every function. On the other hand, they pollute the module namespace making dir(package.module) and help(package.module) cluttered with imported functions

  • Import the classes at function-level with from foreignmodule import Class1, Class2, function1, function2
    The functions and classes are easily accessible and do not pollute the module, but imports from up to a dozen modules in every function look as a lot of duplicate code.

  • Import the modules at module-level with import foreignmodule
    Not too much pollution is compensated by the need to prepend the module name to every function or class call.

  • Use some artificial workaround like using a function body for all these manipulations and returning only the objects to be exported... like this

    def _export():
        from foreignmodule import Class1, Class2, function1, function2
        def myfunc(x):
            return function1(x, function2(x))
        return myfunc
    myfunc = _export()
    del _export
    

    This manages to solve both problems, module namespace pollution and ease of use for functions... but it seems to be not Pythonic at all.

So what solution is the most Pythonic? Is there another good solution I overlooked?

share|improve this question
    
If you're that concerned about namespace pollution, your best pythonic method would probably be good ol' fashioned import foreignmodule. – Manny D Sep 14 '11 at 23:04
    
    
@chown: why did you write your answer as an answer, only to convert it to a comment? It doesn't belong in the comments if it answers the question. If there is a lot of discussion your comment may get hidden and become irrelevant. – Bryan Oakley Sep 14 '11 at 23:13
    
@bryan I didn't want to distract from answers that had more explanation since mine was just copy/paste – chown Sep 14 '11 at 23:17
up vote 11 down vote accepted

Go ahead and do your usual from W import X, Y, Z and then use the __all__ special symbol to define what actual symbols you intend people to import from your module:

__all__ = ('MyClass1', 'MyClass2', 'myvar1', …)

This defines the symbols that will be imported into a user's module if they import * from your module.

In general, Python programmers should not be using dir() to figure out how to use your module, and if they are doing so it might indicate a problem somewhere else. They should be reading your documentation or typing help(yourmodule) to figure out how to use your library. Or they could browse the source code yourself, in which case (a) the difference between things you import and things you define is quite clear, and (b) they will see the __all__ declaration and know which toys they should be playing with.

If you try to support dir() in a situation like this for a task for which it was not designed, you will have to place annoying limitations on your own code, as I hope is clear from the other answers here. My advice: don't do it! Take a look at the Standard Library for guidance: it does from … import … whenever code clarity and conciseness require it, and provides (1) informative docstrings, (2) full documentation, and (3) readable code, so that no one ever has to run dir() on a module and try to tell the imports apart from the stuff actually defined in the module.

share|improve this answer
1  
Actually I didn't know that all is important not only for from module import *, but also for help() output... now everything is much more clear. – Tanriol Sep 15 '11 at 0:16
    
dir() is great for a quick reminder as to what is there when using the REPL, and __all__ goes hand in hand with dir(), as well as help(), and many (most?) third party introspection packages also play well with __all__. What do you think dir() is for? – Ethan Furman Sep 15 '11 at 2:56
    
I use dir() to inspect objects, because usually everything on an object is somehow “useful” — in the sense that it belongs to either that particular object instance, or its class. I find dir() of much less utility on a module, because usually my question is not “what symbols are defined in this module?” — because that includes 3rd party things imported in — but “what does this module provide?” So I use help() or the docs or the source. :) – Brandon Rhodes Sep 15 '11 at 3:10
1  
Sounds reasonable. However, much like Python becoming more Object Oriented than it was in the early '90s, __all__ now does double duty -- even if you don't want your users doing from ... import *, a well defined module will still define __all__ for the purpose of defining the public API, and in so doing dir() becomes useful even on modules. docs.python.org/reference/… – Ethan Furman Sep 15 '11 at 3:59
    
But dir() shows everything in a module, not just __all__ — or am I misunderstanding you? – Brandon Rhodes Sep 15 '11 at 4:09

Import the modile as a whole: import foreignmodule. What you claim as a drawback is actually a benefit. Namely, prepending tne module name makes your code easier to maintain and makes it more self-documenting.

Six months from now when you look at a line of code like foo = Bar(baz) you may ask yourself which module Bar came from, but with foo = cleverlib.Bar it is much less of a mystery.

Of course, the fewer imports you have, the less of a problem this is. For small programs with few dependencies it really doesn't matter all that much.

When you find yourself asking questions like this, ask yourself what makes the code easier to understand, rather than what makes the code easier to write. You write it once but you read it a lot.

share|improve this answer
1  
Thanks, this position seems very well-thought... unfortunately now I'm writing the code and huge multi-line expressions with several functions from multiple imports are not much fun to write. However, planning for the future seems to be the right way. – Tanriol Sep 14 '11 at 23:24
    
@Tanriol If you're accessing an import many, many times inside a loop and you've found the attribute access is actually a performance problem, you can always rebind it to the local scope, either in a function body or as a default argument in the function definition if you only want to do it once. – agf Sep 14 '11 at 23:26
    
No, performance is not currently the problem. – Tanriol Sep 14 '11 at 23:30
    
@Tanriol At least in Python3 (no idea about 2.x) you can use import urllib.request as insert_something_here - which combines the advantages (and disadvantages) of both solutions. If you go overboard it makes reading your code more complex for others, but with the right balance you can get something that's informative and not too much to type ;) – Voo Sep 15 '11 at 0:04
    
When using as, you can often find nicely mnemonic abbreviations that remove most of the verbosity, yet keep most of the benefit. Such as: import numpy as np, import matplotlib as mpl, import django as dj, and so on. – Lutz Prechelt Mar 30 '15 at 10:38

For this situation I would go with an all_imports.py file which had all the

from foreignmodule import .....
from another module import .....

and then in your working modules

import all_imports as fgn # or whatever you want to prepend
...
something = fgn.Class1()

Another thing to be aware of

__all__ = ['func1', 'func2', 'this', 'that']

Now, any functions/classes/variables/etc that are in your module, but not in your modules's __all__ will not show up in help(), and won't be imported by from mymodule import * See Making python imports more structured? for more info.

share|improve this answer
    
Thanks, that's one more good solution. The idea of using __all__ is only partially usable due to having the same problem in the package, as for packages it has different semantics. – Tanriol Sep 14 '11 at 23:19
    
This can hurt readability, since a programmer reading your code now has to step through two (at least) modules to see where a symbol is coming from and how it is defined. – Brandon Rhodes Sep 14 '11 at 23:59

One technique I've seen used, including in the standard library, is to use import module as _module or from module import var as _var, i.e. assigning imported modules/variables to names starting with an underscore.

The effect is that other code, following the usual Python convention, treats those members as private. This applies even for code that doesn't look at __all__, such as IPython's autocomplete function.

An example from Python 3.3's random module:

from warnings import warn as _warn
from types import MethodType as _MethodType, BuiltinMethodType as _BuiltinMethodType
from math import log as _log, exp as _exp, pi as _pi, e as _e, ceil as _ceil
from math import sqrt as _sqrt, acos as _acos, cos as _cos, sin as _sin
from os import urandom as _urandom
from collections.abc import Set as _Set, Sequence as _Sequence
from hashlib import sha512 as _sha512

Another technique is to perform imports in function scope, so that they become local variables:

"""Some module"""
# imports conventionally go here
def some_function(arg):
    "Do something with arg."
    import re  # Regular expressions solve everything
    ...

The main rationale for doing this is that it is effectively lazy, delaying the importing of a module's dependencies until they are actually used. Suppose one function in the module depends on a particular huge library. Importing the library at the top of the file would mean that importing the module would load the entire library. This way, importing the module can be quick, and only client code that actually calls that function incurs the cost of loading the library. Further, if the dependency library is not available, client code that doesn't need the dependent feature can still import the module and call the other functions. The disadvantage is that using function-level imports obscures what your code's dependencies are.

Example from Python 3.3's os.py:

def get_exec_path(env=None):
    """[...]"""
    # Use a local import instead of a global import to limit the number of
    # modules loaded at startup: the os module is always loaded at startup by
    # Python. It may also avoid a bootstrap issue.
    import warnings
share|improve this answer
    
this is really the best answer, +1 – gg349 Jul 25 '14 at 20:26

I would compromise and just pick a short alias for the foreign module:

import foreignmodule as fm

It saves you completely from the pollution (probably the bigger issue) and at least reduces the prepending burden.

share|improve this answer
    
Not completely - the alias is still there - but yes, that's a good solution with seemingly no major drawbacks. – Tanriol Sep 14 '11 at 23:28

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