## module M1.py
a = 'First Message'
def printer(): print 'Hello from M1:', a
>>> import M1
>>> M1pr = M1.printer
>>> M1pr()
Hello from M1: First Message
>>> # Change printer and message ...
>>> reload(M1)
<module 'M1' from 'M1.py'>
>>> M1pr() # still using old printer
Hello from M1: Second Message # surprise message is changed
>>> M1pr = M1.printer
>>> M1pr()
Hello from second printer: Second Message # as expected
>>> M1.a = 'Third Message'
>>> M1pr()
Hello from second printer: Third MessageThe surprise here is that we didn't expect any changes after the reload, because we are still using the old M1pr(). The reason we get a new message in this case is that the old printer(), which is defined in module M1, implicitly uses M1.a as its message, and M1.a is updated with a reload of M1. To say this in another way, when printer() is defined in module M1, it points to the name a in the M1 dictionary, not to an object in memory. When M1.a is redefined, the old printer function gets the new message. The third test above makes this clear.
http://www2.engr.arizona.edu/~edatools/Python/Reload.htm
// заебался вчера искать, почему один дочерний класс не видит изменений переменной класса родителя, сделанных другим дочерним класом; оказалось, что после релоада они начинают ссылаться на разные классы с одинаковым названием
