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Normal way

class A:
     self.a.b.c = 10

      self.a.b.c = self.a.b.c * 10

Aliased approach

class A:
     self.a.b.c = 10         
     alias self.aliased = self.a.b.c # Creates an alias 

      self.aliased = self.aliased * 10 # Updates value of self.a.b.c

How does one accomplish aliasing in Python? The reason I want to do is to reduce cluttering due to long variable names. It's a multi threaded environment. so simply copying to a local variable will not work.

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what are your variables really called? Maybe we can suggest some shorter names for you :) –  Carl Winder Jun 15 '12 at 11:37
Your code is not valid Python code at all, and I don't understand the semantics of the notation you use. As an example, what is self.a.b.c.d.e = 10 supposed to do? What is self.a supposed to be after running this line? –  Sven Marnach Jun 15 '12 at 11:37
Why do you have (too) long variable names in the first place? And if you are really doing nested attribute access deeper than two levels, there is something serious wrong with your design. –  schlamar Jun 15 '12 at 11:48

3 Answers 3

up vote 8 down vote accepted

The solution to this is to use getter and setter methods - fortunately Python has the property() builtin to hide the ugliness of this.

class A:
    def __init__():
     self.a.b.c = 10

    def aliased(self):
        return self.a.b.c

    def aliased(self, value):
         self.a.b.c = value

    def anotherMethod():
      self.aliased *= 10 # Updates value of self.a.b.c

As others have noted, generally this is a sign of bad design - you generally don't want classes to have to know about objects that are 3 relationships away - it means that changes to a given item can cause problems throughout your code base. It's a better idea to try and make each class deal with the classes around it, and no further.

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A property like this also adds indirection which really hurts performance. It's like orders of magnitude slower than just setting the attribute directly. –  nosklo Jul 9 '12 at 10:35
@nosklo Obviously there is overhead, but that really doesn't matter in most cases. –  Latty Jul 9 '12 at 12:21

You're confused. Python doesn't copy anything implicity, it only stores references so it will work no matter which environment you're in.

# this creates a list and stores a *reference* to it:
really_really_long_variable_name = [] 
# this creates another new reference to the *same list*. There's no copy.
alias = really_really_long_variable_name

print really_really_long_variable_name

You'll get ['AIB']

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the problem is alias = ['BIB'] will not update really_really_long_variable_name –  ie. Jun 15 '12 at 11:41
Agreed, this doesn't solve the problem of updating the value unless you use a mutable container as a hack. –  Latty Jun 15 '12 at 12:14
@ie. of course, you don't update variables. You update the mutable object. If you use the chars [] then you're creating another object... –  nosklo Jul 9 '12 at 10:34

You can get the behavior you want with descriptors, but only for member variables.

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