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I have the following example setup:

class Feet:
   def __init__ (self, value = 0.0):
      self.value = value
      self.units = "f"

   def feet(self):
      return  self.value


class Meters:
   def __init__(self, value = 0.0):
      self.value = value
      self.units = "m"

   def feet(self):
      # This is probably not an accurate conversion.
      return  self.value * 2.54 * 10 


class Distance (Feet, Meters):
   def __init__(self, type = Feet()):
      Feet.__init__(self)
      Meters.__init__(self)
      print type.feet()   -- Prints 254.0
      self = type
      print self.feet()   -- Prints 254.0

dist = Distance(Meters(10.0))

print dist.units   -- Prints = "m"
print dist.value   -- Prints = 0.0
print dist.feet()  -- Prints = 0.0

I can't seem to understand why when I initialize the class to a Meters Class type, and assign it 10.0, I don't keep the 10.0. However the Units seem to have stayed correct. Am I missing something about how this is being setup?

My understanding is that I'm creating an "instance" of Meters, and assigning it to the "self" variable of Distance. If the self value couldn't be modified I could understand if my units was "f", but my units is "m" so it's obviously assigning the Meters class to self, but it's not taking the instantiated values, which I find quite odd.

To be honest I don't even know what I would google in this case, so I apologize I haven't done a whole lot of googling, most of what I found didn't apply at all to this type of problem.

Additionally, my plan was to basically "cast" it to the same type no matter what you passed in, for example for feet I would return the self instance for the Feet class, and in the Meters class I would return Feet(self.Value * 2.54 * 10) so I would always have my distance in Feet.

so for Feet feet becomes

def feet(self):
   return self

for Meters feet becomes

def feet(self):
  return Feet(self.value * 2.54 * 10)

To Recap, is there a reason that I'm able to pass in 1 of 2 classes as part of initialization, but it doesn't take my initialization parameters for that class?

It's really unclear to me why I can assign "self" in the distance class, and before it returns it appears to have the right initialization but upon returning it doesn't work right.

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You are redefining all the methods. Your first two classes have the same methods. You are inheriting from both, so the second class's methods are overriding the first class's method –  Paco Sep 24 '13 at 14:19

4 Answers 4

up vote 2 down vote accepted

The thing is that you are inheriting from 2 classes Feet and Meters. Both classes have the same methods. In your Distance.__init__() method, you are overriding Feet's methods with Meters' methods when doing this:

  Feet.__init__(self)
  Meters.__init__(self)

What I would have done differently:

class Distance(object):
    def __init__(self, meters=None, feet=None):
        self.feet = feet
        self.meters = meters

Then you can do something like:

distance = Distance(meters=Meters(12))
print distance.meters.value
print distance.meters.type
# Here do whatever you want with them

You can pass in the two objects at the same time. And do some other stuff with the two objects if the are both different than None.

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When I remove both cases, I then have no "attribute" units, so how do I "init" the classes if that makes sense? I just tried type.__init__(self) but then when I print "type.feet()" it comes out as unsuported operand type for * instance and float, but .value should be a float, not an instance. –  onaclov2000 Sep 24 '13 at 14:24
    
You shouldn't inherit from 2 classes in that case, I'll edit my answer with another of doing it –  Paco Sep 24 '13 at 14:25

There's absolutely no reason to inherit from either Feet or Meters here, let alone both. This is a classic case of composition, rather than inheritance, especially since you are passing the units class as a parameter. Remove that subclassing, and in __init__ you can do self.type = type.

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Other answers cover the problems you have with inheriting, but haven't covered your rebinding of self.

Inside a method (such as __init__), self is simply a local name bound to the instance. You are perfectly at liberty to rebind the name, but that simply makes self refer to something else. It doesn't affect the instance.

In this case, when __init__ returns the self name goes out of scope, but the original instance is assigned to dist just as though you hadn't rebound the name self.

Note that __init__ is an initializer, not a constructor. Python does also allow you to define a custom constructor for a class (__new__), and the constructor can change the object that is returned. However you don't need to use it here.

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This line:

self = type

doesn't do what you think it does. You think this is an assignment statement, in which the object refered to by self takes on the attributes of type, a la C++.

Python doesn't have assignments in the same sense that other languages have.

What that line does is to bind the local name self to the object to which type is currently bound. It has absolutely no effect outside of Distance.__init__(), and virtually no effect on the object to which self was previously bound.

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