I'm writing an application for scientific data analysis and I'm wondering what's the best way to structure the code to avoid (or address) the circular import problem. Currently I'm using a mix of OO and procedural programming.
Other questions address this issue but in a more abstract way. Here I'm looking for a solution that is optimal in a more specific context.
I have a class
Container defined in
DataLib.py whose data consist in lists and/or arrays. With all methods and supporting functions
DataLib.py is quite large (~1000 lines).
I have a second module
SelectionLib.py (~400 lines) that contains only functions to "filter" the data in
Container according to different criteria. These functions return new
Container objects (with filtered data) and thus
SelectionLib.py needs to import
DataLib.py. Note that, logically, these functions are "methods" for "Container", they are just implemented using python functions.
Now, I want to add some high level method to
Container so that a complex analysis can be performed with a single function of method call. And by "complex analysis" I mean an arbitrary number of
Container methods call, local function (defined in DataLib.py) and filter functions (defined in
So the problem is that
DataLib.py needs to import
SelectionLib.py to use the filter functions, but
SelectionLib.py already imports
Right know my hackish solution is to run the two files with run -i ... from IPython so it is like having a big single file and I avoid the circular import. But at the same time this scripts are difficult to integrate for example in a GUI.
How do you suggest to solve this problem:
use pure OO and inheritance and split the object in 3:
Restructuring the code (everything in one file?)
Some sort of Import trickery (put imports at the end)
Any feedback is appreciated!