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I am interested in how to use @properties in Python. I've read the python docs and the example there, in my opinion, is just a toy code:

class C(object):
    def __init__(self):
        self._x = None

    def x(self):
        """I'm the 'x' property."""
        return self._x

    def x(self, value):
        self._x = value

    def x(self):
        del self._x

I do not know what benefit(s) I can get from wrapping the _x filled with the property decorator. Why not just implement as:

class C(object):
    def __init__(self):
        self.x = None

I think, the property feature might be useful in some situations. But when? Could someone please give me some real-world examples?


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7 Answers 7

Other examples would be validation/filtering of the set attributes (forcing them to be in bounds or acceptable) and lazy evaluation of complex or rapidly changing terms.

Complex calculation hidden behind an attribute:

class PDB_Calculator(object):
    def protein_folding_angle(self):
        # number crunching, remote server calls, etc
        # all results in an angle set in 'some_angle'
        # It could also reference a cache, remote or otherwise,
        # that holds the latest value for this angle
        return some_angle

>>> f = PDB_Calculator()
>>> angle = f.protein_folding_angle
>>> angle


class Pedometer(object)
    def stride_length(self):
        return self._stride_length

    def stride_length(self, value):
        if value > 10:
            raise ValueError("This pedometer is based on the human stride - a stride length above 10m is not supported")
            self._stride_length = value
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Nice. Also i'm strongly against side effects in a not designated place. it's better to throw an exception here – Stanislav Ageev Jun 10 '11 at 9:10
True, probably should've raised an Exception there ... lazyness strikes ;) – benosteen Jun 10 '11 at 9:13
I like the PDB_Calculator example -- complicated things are abstracted away, the whole thing works and the user can enjoy simplicity! – Adam Kurkiewicz Jun 5 '13 at 20:33
possibly, from pro standpoint, these are very good examples. But, as a noobie, i find this examples quite ineffective. my bad ... :( – kmonsoor Mar 11 '14 at 8:30

One simple use case will be to set a read only instance attribute , as you know leading a variable name with one underscore _x in python usually mean it's private (internal use) but sometimes we want to be able to read the instance attribute and not to write it so we can use property for this:

>>> class C(object):

        def __init__(self, x):
            self._x = x

        def x(self):
            return self._x

>>> c = C(1)
>>> c.x
>>> c.x = 2
AttributeError        Traceback (most recent call last)

AttributeError: can't set attribute
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Take a look at this article for a very practical use. In short, it explains how in Python you can usually ditch explicit getter/setter method, since if you come to need them at some stage you can use property for a seamless implementation.

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thanks a lot for ur article – kmonsoor Mar 11 '14 at 11:56

One thing I've used it for is caching slow-to-look-up, but unchanging, values stored in a database. This generalises to any situation where your attributes require computation or some other long operation (eg. database check, network communication) which you only want to do on demand.

class Model(object):

  def get_a(self):
    if not hasattr(self, "_a"):
      self._a = self.db.lookup("a")
    return self._a

  a = property(get_a)

This was in a web app where any given page view might only need one particular attribute of this kind, but the underlying objects themselves might have several such attributes - initialising them all on construction would be wasteful, and properties allow me to be flexible in which attributes are lazy and which aren't.

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Can't you use @cached_property for this? – adarsh Nov 11 '14 at 15:27
@adarsh - Sounds interesting. Where is that? – detly Nov 11 '14 at 21:41
I've been using it but I forgot that it wasn't a built in, but you can use it with this, – adarsh Nov 11 '14 at 21:54
Interesting. I think it was first published after this answer, but anyone reading this should probably use it instead. – detly Nov 11 '14 at 21:58

Property is just an abstraction around a field which give you more control on ways that a specific field can be manipulated and to do middleware computations. Few of the usages that come to mind is validation and prior initialization and access restriction

def x(self):
    """I'm the 'x' property."""
    if self._x is None:
        self._x = Foo()

    return self._x
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Something that many do not notice at first is that you can make your own subclasses of property. This I have found very useful for exposing read only object attributes or attribute you can read and write but not remove. It is also an excellent way to wrap functionality like tracking modifications to object fields.

class reader(property):
    def __init__(self, varname):
        _reader = lambda obj: getattr(obj, varname)
        super(reader, self).__init__(_reader)

class accessor(property):
    def __init__(self, varname, set_validation=None):
        _reader = lambda obj: getattr(obj, varname)
        def _writer(obj, value):
            if set_validation is not None:
               if set_validation(value):
                  setattr(obj, varname, value)
        super(accessor, self).__init__(_reader, _writer)

class MyClass(object):
   def __init__(self):
     self._attr = None

   attr = reader('_attr')
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I like this. Am I reading this correctly in that reader is read only while accessor is read/write without deletion capability? How would you add data validation though? I'm fairly new to Python but I'm thinking there is probably a way to add a callback to the attr = reader('_attr') line or some form of prechecking like attr = if self.__isValid(value): reader('_attr'). Suggestions? – gabe Sep 23 '14 at 15:57
Sorry just realized I was asking about data validation for a read only variable. But obviously this would only apply to the setter portion of the accessor class. So change attr = reader('_attr') to attr = accessor('_attr'). Thanks – gabe Sep 23 '14 at 16:08
You are right that if you wanted validation then you would add a function to validate and raise Exception if invalid (or whatever behavior you liked including doing nothing) to the init. I modified the above with one possible pattern. The validator should return True|False to guide whether the set happens or not. – Samantha Atkins Oct 15 '14 at 23:33

The short answer to your question, is that in your example, there is no benefit. You should probably use the form that doesn't involve properties.

The reason properties exists, is that if your code changes in the future, and you suddenly need to do more with your data: cache values, protect access, query some external resource... whatever, you can easily modify your class to add getters and setters for the data without changing the interface, so you don't have to find everywhere in your code where that data is accessed and change that too.

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