# Attribute or Method?

I am writing a python script which calculates various quantities based on two parameters, the long radius and short radius of a spheroid. It occurred to me that I could write a spheroid class to do this. However, I'm new to object oriented design and wonder if you more experienced chaps can help me.

An instance is instantiated with parameters a and b for the long radius and short radius respectively, so I've designed the class as follows:

``````class Spheroid:
def __init__(self,a,b):
self.longax  = a
self.shortax = b
``````

One of the quantities I want to calculate is the volume. The volume of a spheroid is 4*pi/3 * a * b * b.

My question is, do I define a method or an attribute for this in my class?

e.g. I could define a method:

``````def Volume(self):
return 4*pi/3 * self.longax * self.shortax * self.shortax
``````

or I could just use an attribute:

``````self.volume = 4*pi/3 * self.longax * self.shortax * self.shortax
``````

I could also just include it in the init method:

``````class Spheroid:
def __init__(self,a,b):
self.longax  = a
self.shortax = b
self.volume = 4*pi/3 * a * b * b.
``````

Which is better to use and why? In general, when would I use a method and when would I use an attribute? I wouldn't normally care but I have a whole load of these to implement and I'd like to have an idea about OO design for future reference.

Thanks

EDIT:

After implementing properties as per Martijn's suggestion, I ended up with something like this:

``````class Spheroid(object):
def __init__(self,a,b):
self.shortax = a
self.longax  = b
self.alpha=self.longax/self.shortax

@property
def volume(self):
return (4*np.pi/3) * self.shortax * self.shortax * self.longax

@property
def epsilon(self):
return np.sqrt(1-self.alpha**(-2))

@property
def geometricaspect(self):
return 0.5 + np.arcsin(self.epsilon)*0.5*self.alpha/self.epsilon

@property
def surfacearea(self):
return 4*np.pi*self.shortax**2*self.geometricaspect
``````

I instantiated an instance s = Spheroid() but whenever I try something like s.volume or s.epsilon I get an AttributeError:

AttributeError: 'Spheroid' object has no attribute 'volume'

What am I doing wrong here?

Also, in my init method I used self.alpha = self.longax/self.shortax instead of a/b, does this make any difference? Is one way preferable?

-
Excellent question. Note this the tradeoffs are language dependent. One answer might be obvious in C++ with a different answer in Python. –  Robᵩ Mar 20 at 18:31

You have a 3rd option: make it both an attribute and a method, by using a property:

``````class Spheroid(object):
def __init__(self, a, b):
self.long  = a
self.short = b

@property
def volume(self):
return 4 * pi / 3 * self.long * self.short * self.short
``````

You access `.volume` like an attribute:

``````>>> s = Spheroid(2, 3)
>>> s.volume
75.39822368615503
``````

In order for the `property` descriptor to work correctly, in Python 2 you need to make sure your class inherits from `object`; in Python 3 the baseclass can be safely omitted.

In this case, the calculation of the volume is cheap enough, but a property lets you postpone having to calculate the volume until you actually need it.

The above example creates a read-only property; only a getter is defined:

``````>>> s.volume = None
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
AttributeError: can't set attribute
``````

You could easily cache the result of the property calculation:

``````class Spheroid(object):
_volume = None

def __init__(self, a, b):
self.long  = a
self.short = b

@property
def volume(self):
if self._volume is None:
self._volume = 4 * pi / 3 * self.long * self.short * self.short
return self._volume
``````

so that you only have to calculate it once per `Spheroid` instance.

What you use depends on many factors; how easy does your API need to be to use, how often will the volume be calculated, how many Spheroid instances will be created, etc. If you create a million of these in a loop but only ever need the volume for a handfull of them, it makes sense to use a property instead of setting the volume in the `__init__`.

If, however, your class could adjust itself based on the volume; say, by adjusting one of the radii automatically, then a `@property` makes more sense still:

``````class Spheroid(object):
def __init__(self, a, b):
self.long  = a
self.short = b

@property
def volume(self):
return 4 * pi / 3 * self.long * self.short * self.short

@volume.setter
def volume(self, newvolume):
self.short = sqrt(newvolume / (4 * pi / 3 * self.long))
``````

Now you have a spheroid which naturally adjusts it's short attribute as you adjust the volume:

``````>>> s = Spheroid(2, 1)
>>> s.volume
8.377580409572781
>>> s.volume = 75.39822368615503
>>> s.long, s.short
(2, 3.0)
``````
-
damnit beat me to it. –  Jonathan Vanasco Mar 20 at 18:32
You might want to mention that another benefit of this is that `volume` is "read-only" as well. –  mgilson Mar 20 at 18:32
i included caching with my answer though... –  Jonathan Vanasco Mar 20 at 18:33
@JonathanVanasco: That is the next step; it is not a requirement :-) –  Martijn Pieters Mar 20 at 18:36
Hi Martijn, thanks for your post. Can you explain why defining a property is better than just using a method? With a method, I would also delay the calculation of the volume until I call the method, no? –  user1654183 Mar 20 at 21:10

will you always use this data?

if not, you could use a property and then lazily compute it...

``````class Spheroid(object):
def __init__(self,a,b):
self.longax  = a
self.shortax = b
self._volume = None

@property
def volume(self):
if self._volume is None :
self._volume = 4*pi/3 * self.longax * self.shortax * self.shortax
return self._volume
``````
-
If you change `self._volume = ...` to `self.volume = ...`, then you avoid subsequent function calls. –  Robᵩ Mar 20 at 18:37
@Robᵩ In Python2.7, which I use, it raises an AttributeError. [ and I've wished so often that I could do that ] –  Jonathan Vanasco Mar 20 at 18:40
@Robᵩ: No, you cannot. Data descriptors (like a property) are first looked up on the class and cannot be replaced by a instance attribute. –  Martijn Pieters Mar 20 at 18:43
You are both correct, I was wrong. I tested with old-style classes, which test wasn't valid. Thanks. –  Robᵩ Mar 20 at 18:47