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What's the correct idiom for this please?

I want to define an object containing properties which can (optionally) be initialized from a dict (the dict comes from JSON; it may be incomplete). Later on I may modify the properties via setters. There are actually 13+ properties, and I want to be able to use default getters and setters, but that doesn't seem to work for this case:

But I don't want to have to write explicit descriptors for all of prop1... propn Also, I'd like to move the default assignments out of __init__() and into the accessors... but then I'd need expicit descriptors.

What's the most elegant solution? (other than move all the setter calls out of __init__() and into a method/classmethod _make()?)

[DELETED COMMENT The code for badprop using default descriptor was due to comment by a previous SO user, who gave the impression it gives you a default setter. But it doesn't - the setter is undefined and it necessarily throws AttributeError.]

class DubiousPropertyExample(object):
    def __init__(self,dct=None):
        self.prop1 = 'some default'
        self.prop2 = 'other default'
        #self.badprop = 'This throws AttributeError: can\'t set attribute'
        if dct is None: dct = dict() # or use defaultdict 
        for prop,val in dct.items():
            self.__setattr__(prop,val)

    # How do I do default property descriptors? this is wrong
    #@property
    #def badprop(self): pass

    # Explicit descriptors for all properties - yukk
    @property
    def prop1(self): return self._prop1
    @prop1.setter
    def prop1(self,value): self._prop1 = value

    @property
    def prop2(self): return self._prop2
    @prop2.setter
    def prop2(self,value): self._prop2 = value

dub = DubiousPropertyExample({'prop2':'crashandburn'})

print dub.__dict__
# {'_prop2': 'crashandburn', '_prop1': 'some default'}

If you run this with line 5 self.badprop = ... uncommented, it fails:

self.badprop = 'This throws AttributeError: can\'t set attribute'

AttributeError: can't set attribute

[As ever, I read the SO posts on descriptors, implicit descriptors, calling them from init]

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1  
No, it fails because you haven't set a setter. –  Ignacio Vazquez-Abrams Aug 22 '12 at 2:30
1  
don't use dct={} as a default argument ... use dct = None and then check for None and create a new dict inside the method. –  mgilson Aug 22 '12 at 2:42
1  
@sr2222: that's pretty obnoxious and it's not an answer to the question 'How can I write this code without explicit descriptors for all properties?' If the answer is "You can't, you need 13*2 descriptors", then just simply say so, without the rudeness. If you have a better code idiom than writing 13*2 descriptors, show me... that sort of code isn't scalable. Hence my question. –  smci Aug 22 '12 at 2:49
1  
It is possible. It is also pointless in almost all cases. 90% of the time, direct member access is the way to go. 9.99% of the time, you want to go with __getattr__ and __setattr__ as mentioned below. The remainder are super special cases, like if for some reason you want to define default getters and setters in a base class so that you can override the behaviors in a subclass, but for some reason, you can't just directly create a property in the subclass. I can't imagine how that would come about, but I don't rule it out. So the question is, why do you need this functionality? –  Silas Ray Aug 22 '12 at 2:57
1  
One of the prime usecases I find is when I for some reason want to store data in a member attribute rather than straight in to __dict__, but want it's members accessible from the object's public interface as attributes. Like what you appear to be doing here. –  Silas Ray Aug 22 '12 at 3:04

2 Answers 2

I think you're slightly misunderstanding how properties work. There is no "default setter". It throws an AttributeError on setting badprop not because it doesn't yet know that badprop is a property rather than a normal attribute (if that were the case it would just set the attribute with no error, because that's now normal attributes behave), but because you haven't provided a setter for badprop, only a getter.

Have a look at this:

>>> class Foo(object):
    @property
    def foo(self):
        return self._foo
    def __init__(self):
        self._foo = 1


>>> f = Foo()
>>> f.foo = 2

Traceback (most recent call last):
  File "<pyshell#12>", line 1, in <module>
    f.foo = 2
AttributeError: can't set attribute

You can't set such an attribute even from outside of __init__, after the instance is constructed. If you just use @property, then what you have is a read-only property (effectively a method call that looks like an attribute read).

If all you're doing in your getters and setters is redirecting read/write access to an attribute of the same name but with an underscore prepended, then by far the simplest thing to do is get rid of the properties altogether and just use normal attributes. Python isn't Java (and even in Java I'm not convinced of the virtue of private fields with the obvious public getter/setter anyway). An attribute that is directly accessible to the outside world is a perfectly reasonable part of your "public" interface. If you later discover that you need to run some code whenever an attribute is read/written you can make it a property then without changing your interface (this is actually what descriptors were originally intended for, not so that we could start writing Java style getters/setters for every single attribute).

If you're actually doing something in the properties other than changing the name of the attribute, and you do want your attributes to be readonly, then your best bet is probably to treat the initialisation in __init__ as directly setting the underlying data attributes with the underscore prepended. Then your class can be straightforwardly initialised without AttributeErrors, and thereafter the properties will do their thing as the attributes are read.

If you're actually doing something in the properties other than changing the name of the attribute, and you want your attributes to be readable and writable, then you'll need to actually specify what happens when you get/set them. If each attribute has independent custom behaviour, then there is no more efficient way to do this than explicitly providing a getter and a setter for each attribute.

If you're running exactly the same (or very similar) code in every single getter/setter (and it's not just adding an underscore to the real attribute name), and that's why you object to writing them all out (rightly so!), then you may be better served by implementing some of __getattr__, __getattribute__, and __setattr__. These allow you to redirect attribute reading/writing to the same code each time (with the name of the attribute as a parameter), rather than to two functions for each attribute (getting/setting).

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Your comment on redirecting __getattr__, __getattribute__, and __setattr__ instead of using properties is the issue I've been grappling with. What are the arguments against using attributes instead of properties? Is it ugly if we use a mix of attributes and properties within the same object? –  smci Aug 22 '12 at 2:58
    
@smci It's not ugly at all. In fact it's usual. In fact it's necessary. After all, your properties were trying to redirect prop1 to _prop1, and _prop1 is a normal attribute. If a given property needs to have the behaviour of being writable, and having a read retrieve the last written value, with no other customisations, then the simplest and most direct way to implement that is to have it be an attribute. If another property on the same object needs to have custom behaviour, then you make that one a property. –  Ben Aug 22 '12 at 3:01
    
properties are special objects attached as member attributes to a class that under the covers implement the descriptor protocol to override the default member access mechanism. Properties are generally for when a specific member requires special access rules. __getattr__/__setattr__ are when you need special behavior in a systematic, instance-wide way. –  Silas Ray Aug 22 '12 at 3:01
    
@smci The entire point of descriptors is to obscure the distinction between the the two cases, so you can switch your implementation back and forth between the two without breaking your interface. –  Ben Aug 22 '12 at 3:01
    
Ok, I formed the mistaken impression from many readings of the doc that a) properties were 'better' than attributes in some undefined way (like say for stability when iterating over obj.__dict__) and b) that properties and attributes should not be freely mixed - evidently my impression was wrong. Gotta say Ben's comment is way clearer than the std doc. Thanks. –  smci Aug 22 '12 at 3:16

It seems like the easiest way to go about this is to just implement __getattr__ and __setattr__ such that they will access any key in your parsed JSON dict, which you should set as an instance member. Alternatively, you could call update() on self.__dict__ with your parsed JSON, but that's not really the best way to go about things, as it means your input dict could potentially trample members of your instance.

As to your setters and getters, you should only be creating them if they actually do something special other than directly set or retrieve the value in question. Python isn't Java (or C++ or anything else), you shouldn't try to mimic the private/set/get paradigm that is common in those languages.

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