Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I started to write python programs for some time, but I am not so good at it, at present I meet a problem, it seems very strange, at least for me.

Assume we have two source files, called A.py and B.py, their contents are as below:

A.py

import B

__global__ = 'not set yet'

class Data:
    __var__ = 'not set yet'

def init():
    global __global__
    __global__ = 'value set for global'
    Data.__var__ = 'value set for class var'

if __name__ == '__main__':
    init()

    t = B.Test()
    t.display()

    print '============================'
    print 'global(in A):    ' + __global__
    print 'class var(in A): ' + Data.__var__

B.py

import A

class Test:
    def __init__(self):
        self.glo = A.__global__
        self.var = A.Data.__var__

    def display(self):
        print 'global:          ' + self.glo
        print 'class var:       ' + self.var
        print '============================'
        print 'global(in B):    ' + A.__global__
        print 'class var(in B): ' + A.Data.__var__

then I ran python A.py, the output is as following:

global:          not set yet
class var:       not set yet
============================
global(in B):    not set yet
class var(in B): not set yet
============================
global(in A):    value set for global
class var(in A): value set for class var

In my opinion, the first 4 outputs should coincide with the last 2 outputs, but the fact is not, seems the value is set during class and method definition and cannot be changed. It is very different from many other languages, such as Java. So, could any one help explain this, or paste me some links to help understand it? And is there any workaround to solve this?

Thanks in advance,

Kelvin

==============edit==============

Thanks @icktoofay, @hop and @RocketDonkey, after I tried the code below, I do find the root cause:

import sys
import A
import __main__

__global__ = 'not set yet'

class Data:
    __var__ = 'not set yet'

def init():
    global __global__
    __global__ = 'value set for global'
    Data.__var__ = 'value set for class var'

if __name__ == '__main__':
    init()

    for key in sys.modules.keys():
        if key in ['__main__', 'A']:
            print key + ' : ' + sys.modules[key].__file__
    print '===================='
    print 'A: ' + A.__global__
    print 'A: ' + A.Data.__var__
    print '===================='
    print __main__.__global__
    print __main__.Data.__var__

the output is:

__main__ : A.py
A : D:\test\python\A.py
====================
A: not set yet
A: not set yet
====================
value set for global
value set for class var

It is because file A.py was imported twice, one is named __main__ and another is named A, the values were changed in module __main__, but for module B, the value is got from module A, so the value is not changed.

I do need to dive deeper for module importing of python. :-D

share|improve this question
1  
do not use circular imports –  hop Jan 8 '13 at 2:48
    
@hop yes, I do know this is not a good programming habit, but currently I just want to know the 'why', and I will modify my code and remove the circular import. –  Kelvin Hu Jan 8 '13 at 2:53
    
Your str(sys.modules[key]) might be okay for debugging, but it's much better to instead just use sys.modules[key].__file__. –  icktoofay Jan 8 '13 at 3:22
    
@icktoofay yeah, I used str() just for testing, I have updated the code as you advised, thanks. –  Kelvin Hu Jan 8 '13 at 4:12

2 Answers 2

up vote 3 down vote accepted

The circular imports (A imports B, B imports A) in combination with one of the modules being the main script is the problem.

How Python imports modules

When you ask Python to import a module, it first looks through sys.modules to see if a module by that name is already there. If so, it just uses that module. If there is no module by that name, it makes a new module object, places it in sys.modules, and runs the appropriate Python code in that module.

Main scripts

There's a popular idiom that's used in Python scripts: the ubiquitous

if __name__ == '__main__':

When Python wants to run the main script, it imports that module with the name __main__.

That's perfectly fine when your main script just does stuff with other modules, but when other modules want to do things to the main module again, you run into trouble: The script importing the main module again is probably importing it by a normal name (like in this case, A). Unfortunately, the already-loaded module is not named A; it's named __main__.

Solutions

A very simple solution would simply be to remove the other modules' dependencies on the main module. Then you will not encounter this unintuitive behavior. One way you might do this is have the main script just be a stub that calls out to another module's main function or something.

A different solution would be to have the main script alter sys.modules manually to put itself under another name. This is a little hacky, but it works:

sys.modules['A'] = sys.modules[__name__]

Now you know.

share|improve this answer
    
@icktoofay Thanks for your answer, just now I tested with some code, and did find the root cause, I will paste my code after my question. –  Kelvin Hu Jan 8 '13 at 3:05
    
@icktoofay: yes, we are talking about the same thing. that's why i didn't even wanted to bother beyond "don't do it!" i deleted my stuff to not add to the confusion. –  hop Jan 8 '13 at 3:11

+1 to @icktoofay - I would put more stock in that answer than mine, so take this one with a grain of salt as it is my admittedly inexperienced understanding of the process:

As mentioned by others, your main issue is circular imports. Others will comment more intelligently, but the gist of what is happening is:

  1. import B - this happens as soon as you run A.py`, so you then go to B.py and immediately come across import A.
  2. As A has a different name in the current namespace, it gets imported again (to verify this, add print __name__ above import B in A.py - you'll see two different names appear).
  3. When A gets imported into B, it brings the __global__ = 'not seen yet' declaration with it, so when you say self.glo = A.__global__, you are getting that variable (and not the modified one because that particular code doesn't get executed in this version of A).
  4. Same with A.Data.__var__ - you haven't run init in this module (because it isn't your 'main' A), so nothing has been modified yet.
  5. Per the above, you can see why A.__global__ and A.Data.__var__ will also show 'not seen yet' - they haven't been modified and are the same as the variables above.
  6. Your code in A in the __main__ section executes as normal because it is operating on that version of the module, which does go through all of the initializations you specify.
share|improve this answer
    
yes, thanks for your answer, I did find the root cause just now. :-D –  Kelvin Hu Jan 8 '13 at 3:24
    
@KelvinHu Awesome, good to hear :) –  RocketDonkey Jan 8 '13 at 3:49

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.