266

I want to create a dynamic object (inside another object) in Python and then add attributes to it.

I tried:

obj = someobject
obj.a = object()
setattr(obj.a, 'somefield', 'somevalue')

but this didn't work.

Any ideas?

edit:

I am setting the attributes from a for loop which loops through a list of values, e.g.

params = ['attr1', 'attr2', 'attr3']
obj = someobject
obj.a = object()

for p in params:
   obj.a.p # where p comes from for loop variable

In the above example I would get obj.a.attr1, obj.a.attr2, obj.a.attr3.

I used the setattr function because I didn't know how to do obj.a.NAME from a for loop.

How would I set the attribute based on the value of p in the example above?

  • 4
    What do you mean by "didn't work"? I assume it raised an AttributeError exception, right? – Josh Wright May 13 '10 at 14:39
  • 1
    yeah. 'object' object has no attribute 'somefield' – John May 13 '10 at 14:42
  • 6
    Why are you doing this? A generic "object" has no actual meaning. What is the meaning of the thing you are creating? Why is it not a proper class or namedtuple? – S.Lott May 13 '10 at 14:45
  • 1
    The example is not minimal and confusing for me or I just don't see why you don't work with some a = object() and you need obj.a = object(). Again I am talking about the example, in your actual code an object inside an object might be useful. – kon psych Jul 25 '17 at 2:51

15 Answers 15

190

You could use my ancient Bunch recipe, but if you don't want to make a "bunch class", a very simple one already exists in Python -- all functions can have arbitrary attributes (including lambda functions). So, the following works:

obj = someobject
obj.a = lambda: None
setattr(obj.a, 'somefield', 'somevalue')

Whether the loss of clarity compared to the venerable Bunch recipe is OK, is a style decision I will of course leave up to you.

  • 25
    @FogleBird, a style decision, as I mentioned. Some CS experts trained e.g. in Church's lambda calculus are used to thinking of functions (lambdas) as the fundamental type of all data (the integer 23, for example, can be seen as equivalent to lambda: 23), so to such experts using lambdas for this purpose would presumably feel nothing like "a hack". Personally, I don't like lambda in Python very much -- but that's very much an issue of personal taste. – Alex Martelli May 13 '10 at 16:26
  • And in some cases, considering whether or not the lambda pattern fits for your use case may lead you to realize that something you'd originally thought of as data is actually more like a function anyway--or, in any case, a functor. – Kyle Strand Jul 30 '14 at 20:45
  • but... then obj.a is a function, not an object. This makes no sense, compared to FogleBird's answer. – naught101 Jan 26 '15 at 5:56
  • 3
    @naught101, a function is an object, in Python, so your objection is unfathomable. – Alex Martelli Jan 26 '15 at 6:02
  • 5
    @naught101, avoiding the creation of a new type (reusing an existing one) does not complicate, it simplifies. Nowadays on might actually prefer from argparse import Namespace though I wish it lived elsewhere *e.g, collection) -- again reusing a now-existing type, just a better one, and still avoiding new-type creation. But, it wasn't there then:-). – Alex Martelli Jan 26 '15 at 14:58
308

The built-in object can be instantiated but can't have any attributes set on it. (I wish it could, for this exact purpose.) It doesn't have a __dict__ to hold the attributes.

I generally just do this:

class Object(object):
    pass

a = Object()
a.somefield = somevalue

When I can, I give the Object class a more meaningful name, depending on what kind of data I'm putting in it.

Some people do a different thing, where they use a sub-class of dict that allows attribute access to get at the keys. (d.key instead of d['key'])

Edit: For the addition to your question, using setattr is fine. You just can't use setattr on object() instances.

params = ['attr1', 'attr2', 'attr3']
for p in params:
    setattr(obj.a, p, value)
  • 8
    it can be instantiated, just not used for anything useful once it has been done. foo = object() works, but you just can't do much of anything with it – Daniel DiPaolo May 13 '10 at 14:43
  • Oh right, I'll update my answer. – FogleBird May 13 '10 at 14:44
  • Hi. Thanks for the answer. I've updated my problem above. see the edit. do you know the answer to this? – John May 13 '10 at 14:55
  • sorry I still want to set it on the object. see update above. – John May 13 '10 at 15:06
  • The code I wrote does what you described. – FogleBird May 13 '10 at 15:26
119

There is types.SimpleNamespace class in Python 3.3+:

obj = someobject
obj.a = SimpleNamespace()
for p in params:
    setattr(obj.a, p, value)
# obj.a.attr1

collections.namedtuple, typing.NamedTuple could be used for immutable objects. PEP 557 -- Data Classes suggests a mutable alternative.

For a richer functionality, you could try attrs package. See an example usage.

  • 2
    If you need something that works with Python 2.7, you can also try the argparse.Namespace class – RolKau Aug 26 '16 at 20:09
  • Agreed - I'd be curious if there is a downside here, but this is an incredibly handy python 3.3+ affordance. – ghukill Jul 28 '17 at 18:31
  • damn! this is not available on 2.7? – Roel Sep 11 '18 at 8:00
  • @Roel attrs package supports Python 2.7 – jfs Sep 11 '18 at 17:27
31

There are a few ways to reach this goal. Basically you need an object which is extendable.

obj.a = type('Test', (object,), {})  
obj.a.b = 'fun'  

obj.b = lambda:None

class Test:
  pass
obj.c = Test()
  • 11
    obj.a = type('', (), {}) – iman Jan 30 '14 at 15:37
  • 1
    @iman so cryptic, one could think it is Perl – user1129682 Aug 7 at 18:06
21

The mock module is basically made for that.

import mock
obj = mock.Mock()
obj.a = 5
  • 3
    Disadvantge is that's an external dependency – Kangur Mar 16 '17 at 17:17
  • 4
    unittest.Mock is a part of the standard library since Python 3.3 (docs.python.org/3/library/unittest.mock.html) – illagrenan Dec 18 '17 at 13:03
  • Depends on the usage of your code I think. If it is production code, I would not want some mock in it. Just feels weird to me. – Mike de Klerk Feb 28 at 19:18
17

Now you can do (not sure if it's the same answer as evilpie):

MyObject = type('MyObject', (object,), {})
obj = MyObject()
obj.value = 42
  • @evilpie's answer sets attributes directly on MyObject (the class), not its instance like yours. – jfs Nov 30 '15 at 15:04
13

Try the code below:

$ python
>>> class Container(object):
...     pass 
...
>>> x = Container()
>>> x.a = 10
>>> x.b = 20
>>> x.banana = 100
>>> x.a, x.b, x.banana
(10, 20, 100)
>>> dir(x)
['__class__', '__delattr__', '__dict__', '__doc__', '__format__', 
'__getattribute__', '__hash__', '__init__', '__module__', '__new__',
'__reduce__', '__reduce_ex__', '__repr__', '__setattr__',     '__sizeof__', 
'__str__', '__subclasshook__', '__weakref__', 'a', 'b', 'banana']
  • Can you explain more of what this does? while the code may be useful for solving this problem, having it explained can go a lot further than just one problem. – DeadChex Jul 23 '15 at 20:52
  • @DeadChex Clearly it creates a new Class(object) which is a empty class with object properties, and stores the attributes inside the class. This is even better than install more modules, or rely in lambdas. – erm3nda May 15 '17 at 23:08
  • Not sure why this does not have more upvotes. Is there a reason not to use this for a basic container class? Seems to work fine in Python 2.7, 2.6, and 3.4 – user5359531 Jun 14 '17 at 17:21
10

You can also use a class object directly; it creates a namespace:

class a: pass
a.somefield1 = 'somevalue1'
setattr(a, 'somefield2', 'somevalue2')
  • This is very slick – maharvey67 Aug 7 at 22:31
7

as docs say:

Note: object does not have a __dict__, so you can’t assign arbitrary attributes to an instance of the object class.

You could just use dummy-class instance.

2

These solutions are very helpful during testing. Building on everyone else's answers I do this in Python 2.7.9 (without staticmethod I get a TypeError (unbound method...):

In [11]: auth = type('', (), {})
In [12]: auth.func = staticmethod(lambda i: i * 2)
In [13]: auth.func(2)
Out[13]: 4
1

Which objects are you using? Just tried that with a sample class and it worked fine:

class MyClass:
  i = 123456
  def f(self):
    return "hello world"

b = MyClass()
b.c = MyClass()
setattr(b.c, 'test', 123)
b.c.test

And I got 123 as the answer.

The only situation where I see this failing is if you're trying a setattr on a builtin object.

Update: From the comment this is a repetition of: Why can't you add attributes to object in python?

  • b.c is set to object() not a defined class – John May 13 '10 at 15:08
0

Coming to this late in the day but here is my pennyworth with an object that just happens to hold some useful paths in an app but you can adapt it for anything where you want a sorta dict of information that you can access with getattr and dot notation (which is what I think this question is really about):

import os

def x_path(path_name):
    return getattr(x_path, path_name)

x_path.root = '/home/x'
for name in ['repository', 'caches', 'projects']:
    setattr(x_path, name, os.path.join(x_path.root, name))

This is cool because now:

In [1]: x_path.projects
Out[1]: '/home/x/projects'

In [2]: x_path('caches')
Out[2]: '/home/x/caches'

So this uses the function object like the above answers but uses the function to get the values (you can still use (getattr, x_path, 'repository') rather than x_path('repository') if you prefer).

0

If we can determine and aggregate all the attributes and values together before creating the nested object, then we could create a new class that takes a dictionary argument on creation.

# python 2.7

class NestedObject():
    def __init__(self, initial_attrs):
        for key in initial_attrs:
            setattr(self, key, initial_attrs[key])

obj = someobject
attributes = { 'attr1': 'val1', 'attr2': 'val2', 'attr3': 'val3' }
obj.a = NestedObject(attributes)
>>> obj.a.attr1
'val1'
>>> obj.a.attr2
'val2'
>>> obj.a.attr3
'val3'

We can also allow keyword arguments. See this post.

class NestedObject(object):
    def __init__(self, *initial_attrs, **kwargs):
        for dictionary in initial_attrs:
            for key in dictionary:
                setattr(self, key, dictionary[key])
        for key in kwargs:
            setattr(self, key, kwargs[key])


obj.a = NestedObject(attr1='val1', attr2='val2', attr3= 'val3')
-2
di = {}
for x in range(20):
    name = '_id%s' % x
    di[name] = type(name, (object), {})
    setattr(di[name], "attr", "value")
-3

Other way i see, this way:

import maya.cmds

def getData(objets=None, attrs=None):
    di = {}
    for obj in objets:
        name = str(obj)
        di[name]=[]
        for at in attrs:
            di[name].append(cmds.getAttr(name+'.'+at)[0])
    return di

acns=cmds.ls('L_vest_*_',type='aimConstraint')
attrs=['offset','aimVector','upVector','worldUpVector']

getData(acns,attrs)
  • you can add in append the name attr this di[name].append([at,cmds.getAttr(name+'.'+at)[0]]) – Pablo Emmanuel De Leo May 13 '16 at 18:08
  • 1
    This is adding a very big non-standard dependency while a simple class a: pass gives all the power required. – Alexis Paques Jun 28 '18 at 13:43

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