3

I know this has been asked a couple of times, but I couldn't quite understand the previous answers and/or I don't think the solution quite represents what I'm shooting for. I'm still pretty new to Python, so I'm having a tough time figuring this out.

I have a main class that has a TON of different functions in it. It's getting hard to manage. I'd like to be able to separate those functions into a separate file, but I'm finding it hard to come up with a good way to do so.

Here's what I've done so far:

main.py

import separate

class MainClass(object):
    self.global_var_1 = ...
    self.global_var_2 = ...

    def func_1(self, x, y):
        ...
    def func_2(self, z):
        ...
    # tons of similar functions, and then the ones I moved out:

    def long_func_1(self, a, b):
        return separate.long_func_1(self, a, b)

separate.py

def long_func_1(obj, a, b):
    if obj.global_var_1:
        ...
    obj.func_2(z)
    ...
    return ...
# Lots of other similar functions that use info from MainClass

I do this because if I do:

obj_1 = MainClass()

I want to be able to do:

obj_1.long_func_1(a, b)

instead of:

separate.long_func_1(obj_1, a, b)

I know this seems kind of nit-picky, but I want just about all of the code to start with obj_1. so there isn't confusion.

Is there a better solution that what I'm currently doing? The only issues that I have with my current setup are:

  1. I have to change arguments for both instances of the function
  2. It seems needlessly repetitive
  • 5
    If you are new to Python, just stick to the conventions and keep all methods for a class in the same file. – Martijn Pieters Nov 29 '17 at 21:09
  • 1
    If you must group your methods into separate modules, use inheritance; create a base class in one module, import it and subclass it in the other. – Martijn Pieters Nov 29 '17 at 21:11
  • @MartijnPieters I know I could do that, but none of the functions within the class are finalized, so I find myself scrolling a lot to find the appropriate one, which takes more time than I'd like simply because there's so many. – user7729352 Nov 29 '17 at 21:11
  • 1
    That's not a problem to be solved by changing the code; that's a problem to be solved by using an IDE which allows you to jump to the location of a function. (Or use your text editor's "find" functionality.) – David Z Nov 29 '17 at 21:31
  • If a file is not enough for all the methods, then likely you have a problem with the design. The class is too heavy and probably splitting it into two or three classes (and files) is the solution. – trinchet Nov 29 '17 at 21:33
10

I'm actually surprised this isn't a duplicate. I saw some similar questions and I think there is nowhere a concise answer, so here is how I do it:

  1. Class (or group of) is actually a full module. You don't have to do it this way, but if you're splitting a class on multiple files I think this is 'cleanest' (opinion).
  2. The definition is in __init__.py, methods are split into files by a meaningful grouping.
  3. A method file is just a regular python file with functions, except you can't forget 'self' as a first argument. You can have auxiliary methods here, both taking self and not.
  4. Methods are imported directly into the class definition.

Suppose my class is some fitting gui (this is actually what I did this for first time). So my file hierarchy may look something like

mymodule/
     __init__.py
     _plotstuff.py
     _fitstuff.py
     _datastuff.py

So plot stuff will have plotting methods, fit stuff contains fitting methods, and data stuff contains methods for loading and handling of data - you get the point. By convention I mark the files with a _ to indicate these really aren't meant to be imported directly anywhere outside the module. So _plotsuff.py for example may look like:

def plot(self,x,y):
     #body
def clear(self):
     #body

etc. Now the important thing is __init__.py:

class Fitter(object):
     def __init__(self,whatever):
         self.field1 = 0
         self.field2 = whatever

     #Imported methods
     from ._plotstuff import plot, clear
     from ._fitstuff  import fit
     from ._datastuff import load

     #Some more small functions
     def printHi(self):
         print("Hello world")

     #I think static methods have to be here
     @staticmethod
     def something(argumentIsNotSelf):
         print('yay')

Tom Sawyer mentions PEP-8 recommends putting all imports at the top, so you may wish to put them before __init__, but I prefer it this way.

Note the from ... import ... is particularly useful to hide some 'helper' functions to your methods you don't want accessible through objects of the class. I usually also place the custom exceptions for the class in the different files, but import them directly so they can be accessed as Fitter.myexception.

If this module is in your path then you can access your class with

from mymodule import Fitter
f = Fitter()
f.load('somefile') #Imported method
f.plot()           #Imported method

Not completely intuitive, but not to difficult either. The short version for your specific problem was your were close - just move the import into the class, and use

from separate import long_func_1

and don't forget yourself!

  • Are the private imports occur in __init__ or outside of it? (Hint: check your indentation...) – cowbert Nov 29 '17 at 21:54
  • 1
    @cowbert Outside, see tabbing. I'll add some example code to make it clear. You only need it to compile once with the class, not every object. – kabanus Nov 29 '17 at 21:55
  • 1
    I'd like to add as a general comment that sometimes it doesn't make sense to split a class into sub-classes, and refactoring long class code is something you may run into even in Python. – kabanus Nov 29 '17 at 22:02
  • 1
    Splitting a "class" into multiple files is also common ECMAScript pattern (using the var PseudoClass = PseudoClass || {} idiom), so if you are doing some fullstack development with Python middleware, it might make sense to split a Python class for various reasons. – cowbert Nov 29 '17 at 22:44
  • using import in middle of the file is bad practice – TomSawyer Apr 12 at 19:11
0

Here is an implementation of @Martijn Pieters♦'s comment to use subclasses:

main.py:

from separate import BaseClass

class MainClass(BaseClass):
    def long_func_1(self, a, b):
        if self.global_var_1:
            ...
        self.func_2(z)
        ...
        return ...
    # Lots of other similar functions that use info from BaseClass

separate.py:

class BaseClass(object):

    # You almost always want to initialize instance variables in the `__init__` method.
    def __init__(self):
        self.global_var_1 = ...
        self.global_var_2 = ...

    def func_1(self, x, y):
        ...
    def func_2(self, z):
        ...
    # tons of similar functions, and then the ones I moved out:
    #
    # Why are there "tons" of _similar_ functions?
    # Remember that functions can be defined to take a
    # variable number of/optional arguments, lists/tuples
    # as arguments, dicts as arguments, etc.

from main import MainClass
m = MainClass()
m.func_1(1, 2)
....

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