I am trying to understand when to define
__getattribute__. The python documentation mentions
__getattribute__ applies to new-style classes. What are new-style classes?
I am trying to understand when to define
3possible duplicate of Understanding the difference between __getattr__ and __getattribute__– TrilarionFeb 18, 2015 at 16:50
14@Trilarion yet that question mentions an answer from here...– user4396006Aug 31, 2018 at 15:03
A key difference between
__getattribute__ is that
__getattr__ is only invoked if the attribute wasn't found the usual ways. It's good for implementing a fallback for missing attributes, and is probably the one of two you want.
__getattribute__ is invoked before looking at the actual attributes on the object, and so can be tricky to implement correctly. You can end up in infinite recursions very easily.
New-style classes derive from
object, old-style classes are those in Python 2.x with no explicit base class. But the distinction between old-style and new-style classes is not the important one when choosing between
You almost certainly want
8Can I implement both of them in the same class? If I can, what is it for implementing the both?– AlcottOct 11, 2011 at 1:22
20@Alcott: you can implement them both, but I'm not sure why you would.
__getattribute__will be called for every access, and
__getattr__will be called for the times that
AttributeError. Why not just keep it all in one? Oct 11, 2011 at 18:08
13@NedBatchelder, if you want to (conditionally) override calls to existing methods, you would want to use
__getattribute__. Mar 6, 2013 at 17:21
39"In order to avoid infinite recursion in this method, its implementation should always call the base class method with the same name to access any attributes it needs, for example, object.__getattribute__(self, name)."– kmonsoorJul 19, 2014 at 18:01
9Just a note: to access a variable within
__getattribute__without invoking infinite recursion,
super().__getattribute__(item)must be called– SomeMosaAug 28, 2020 at 14:06
Lets see some simple examples of both
__getattribute__ magic methods.
Python will call
__getattr__ method whenever you request an attribute that hasn't already been defined. In the following example my class Count has no
__getattr__ method. Now in main when I try to access both
obj1.mymax attributes everything works fine. But when I try to access
obj1.mycurrent attribute -- Python gives me
AttributeError: 'Count' object has no attribute 'mycurrent'
class Count(): def __init__(self,mymin,mymax): self.mymin=mymin self.mymax=mymax obj1 = Count(1,10) print(obj1.mymin) print(obj1.mymax) print(obj1.mycurrent) --> AttributeError: 'Count' object has no attribute 'mycurrent'
Now my class Count has
__getattr__ method. Now when I try to access
obj1.mycurrent attribute -- python returns me whatever I have implemented in my
__getattr__ method. In my example whenever I try to call an attribute which doesn't exist, python creates that attribute and sets it to integer value 0.
class Count: def __init__(self,mymin,mymax): self.mymin=mymin self.mymax=mymax def __getattr__(self, item): self.__dict__[item]=0 return 0 obj1 = Count(1,10) print(obj1.mymin) print(obj1.mymax) print(obj1.mycurrent1)
Now lets see the
__getattribute__ method. If you have
__getattribute__ method in your class, python invokes this method for every attribute regardless whether it exists or not. So why do we need
__getattribute__ method? One good reason is that you can prevent access to attributes and make them more secure as shown in the following example.
Whenever someone try to access my attributes that starts with substring 'cur' python raises
AttributeError exception. Otherwise it returns that attribute.
class Count: def __init__(self,mymin,mymax): self.mymin=mymin self.mymax=mymax self.current=None def __getattribute__(self, item): if item.startswith('cur'): raise AttributeError return object.__getattribute__(self,item) # or you can use ---return super().__getattribute__(item) obj1 = Count(1,10) print(obj1.mymin) print(obj1.mymax) print(obj1.current)
Important: In order to avoid infinite recursion in
__getattribute__ method, its implementation should always call the base class method with the same name to access any attributes it needs. For example:
object.__getattribute__(self, name) or
super().__getattribute__(item) and not
If your class contain both getattr and getattribute magic methods then
__getattribute__ is called first. But if
AttributeError exception then the exception will be ignored and
__getattr__ method will be invoked. See the following example:
class Count(object): def __init__(self,mymin,mymax): self.mymin=mymin self.mymax=mymax self.current=None def __getattr__(self, item): self.__dict__[item]=0 return 0 def __getattribute__(self, item): if item.startswith('cur'): raise AttributeError return object.__getattribute__(self,item) # or you can use ---return super().__getattribute__(item) # note this class subclass object obj1 = Count(1,10) print(obj1.mymin) print(obj1.mymax) print(obj1.current)
1I am not sure what exactly would be use case for overriding
__getattribute__but surely this isn't. Because per your example, all you are doing in
AttributeErrorexception if the attribute isn't there in
__dict__of the object; but you don't really need this because this is default implementation of
__getattr__is exactly what you need as a fallback mechanism.– RohitSep 13, 2018 at 12:43
currentis defined on instances of
__init__), so simply raising
AttributeErrorif the attribute isn't there isn't quite what's happening - it defers to
__getattr__for all names starting 'cur', including
current, but also
curly...– joelSep 1, 2019 at 11:19
This is just an example based on Ned Batchelder's explanation.
class Foo(object): def __getattr__(self, attr): print "looking up", attr value = 42 self.__dict__[attr] = value return value f = Foo() print f.x #output >>> looking up x 42 f.x = 3 print f.x #output >>> 3 print ('__getattr__ sets a default value if undefeined OR __getattr__ to define how to handle attributes that are not found')
And if same example is used with
__getattribute__ You would get >>>
RuntimeError: maximum recursion depth exceeded while calling a Python object
10Actually, this is terrible. Real-world
__getattr__()implementations only accept a finite set of valid attribute names by raising
AttributeErrorfor invalid attribute names, thereby avoiding subtle and difficult-to-debug issues. This example unconditionally accepts all attribute names as valid – a bizarre (and frankly error-prone) misuse of
__getattr__(). If you want "total control" over attribute creation as in this example, you want
__getattribute__()instead. Mar 12, 2016 at 1:43
3@CecilCurry: All the issues that you linked to involve implicitly returning None rather than a value, which this answer doesn't do. What's wrong with accepting all attribute names? It's the same as a
defaultdict. Apr 20, 2017 at 17:20
3The problem is that
__getattr__will be called before superclass lookup. This is OK for a direct subclass of
object, since the only methods you really care about there are magic methods that ignore the instance anyway, but for any more complex inheritance structure, you completely remove the ability to inherit anything from the parent. Jul 27, 2017 at 19:33
1@Simon K Bhatta4ya, your last print statement is a comment. Right? It's a long line and tedious to read (One has to scroll a lot in the right side). What about putting the line after the code section? Or if you want to put it in the code section, I think it would be better to break it into two different lines. Jun 20, 2018 at 7:12
New-style classes inherit from
object, or from another new style class:
class SomeObject(object): pass class SubObject(SomeObject): pass
Old-style classes don't:
class SomeObject: pass
This only applies to Python 2 - in Python 3 all the above will create new-style classes.
See 9. Classes (Python tutorial), NewClassVsClassicClass and What is the difference between old style and new style classes in Python? for details.
New-style classes are ones that subclass "object" (directly or indirectly). They have a
__new__ class method in addition to
__init__ and have somewhat more rational low-level behavior.
Usually, you'll want to override
__getattr__ (if you're overriding either), otherwise you'll have a hard time supporting "self.foo" syntax within your methods.
Extra info: http://www.devx.com/opensource/Article/31482/0/page/4
- getattribute: Is used to retrieve an attribute from an instance. It captures every attempt to access an instance attribute by using dot notation or getattr() built-in function.
- getattr: Is executed as the last resource when attribute is not found in an object. You can choose to return a default value or to raise AttributeError.
Going back to the __getattribute__ function; if the default implementation was not overridden; the following checks are done when executing the method:
- Check if there is a descriptor with the same name (attribute name) defined in any class in the MRO chain (method object resolution)
- Then looks into the instance’s namespace
- Then looks into the class namespace
- Then into each base’s namespace and so on.
- Finally, if not found, the default implementation calls the fallback getattr() method of the instance and it raises an AttributeError exception as default implementation.
This is the actual implementation of the object.__getattribute__ method:
.. c:function:: PyObject* PyObject_GenericGetAttr(PyObject *o, PyObject *name) Generic attribute getter function that is meant to be put into a type object's tp_getattro slot. It looks for a descriptor in the dictionary of classes in the object's MRO as well as an attribute in the object's :attr:~object.dict (if present). As outlined in :ref:descriptors, data descriptors take preference over instance attributes, while non-data descriptors don't. Otherwise, an :exc:AttributeError is raised.
I find that no one mentions this difference:
__getattribute__ has a default implementation, but
__getattr__ does not.
class A: pass a = A() a.__getattr__ # error a.__getattribute__ # return a method-wrapper
This has a clear meaning: since
__getattribute__ has a default implementation, while
__getattr__ not, clearly python encourages users to implement
Does python2 does not have default getattribute ? Nov 19, 2021 at 6:39
@Simplecode I'm talking about python 3. I don't know how the code behaves in python 2. Nov 20, 2021 at 6:44
In reading through Beazley & Jones PCB, I have stumbled on an explicit and practical use-case for
__getattr__ that helps answer the "when" part of the OP's question. From the book:
__getattr__() method is kind of like a catch-all for attribute lookup. It's a method that gets called if code tries to access an attribute that doesn't exist." We know this from the above answers, but in PCB recipe 8.15, this functionality is used to implement the delegation design pattern. If Object A has an attribute Object B that implements many methods that Object A wants to delegate to, rather than redefining all of Object B's methods in Object A just to call Object B's methods, define a
__getattr__() method as follows:
def __getattr__(self, name): return getattr(self._b, name)
where _b is the name of Object A's attribute that is an Object B. When a method defined on Object B is called on Object A, the
__getattr__ method will be invoked at the end of the lookup chain. This would make code cleaner as well, since you do not have a list of methods defined just for delegating to another object.