I'm very new to python and I wish I could do . notation to access values of a dict.

Lets say I have test like this:

>>> test = dict()
>>> test['name'] = 'value'
>>> print(test['name'])

But I wish I could do test.name to get value. Infact I did it by overriding the __getattr__ method in my class like this:

class JuspayObject:

    def __init__(self,response):
        self.__dict__['_response'] = response

    def __getattr__(self,key): 
            return self._response[key]
        except KeyError,err:
            sys.stderr.write('Sorry no key matches')

and this works! when I do:

test.name // I get value.

But the problem is when I just print test alone I get the error as:

'Sorry no key matches'

Why is this happening?

  • You need to call super class getattr when you ask for attribute that's not in your dict. Apr 29 '13 at 13:11
  • @DavidHeffernan Does an old-style class like the OP's example even have a superclass?
    – Aya
    Apr 29 '13 at 13:33
  • @Aya No idea. If not, use a new style class. Who still uses old style classes anyway? Apr 29 '13 at 13:34
  • 1
    @DavidHeffernan Well, there's still quite a lot of old-style classes in the standard Python lib, e.g. cgi.py.
    – Aya
    Apr 29 '13 at 13:37

11 Answers 11


This functionality already exists in the standard libraries, so I recommend you just use their class.

>>> from types import SimpleNamespace
>>> d = {'key1': 'value1', 'key2': 'value2'}
>>> n = SimpleNamespace(**d)
>>> print(n)
namespace(key1='value1', key2='value2')
>>> n.key2

Adding, modifying and removing values is achieved with regular attribute access, i.e. you can use statements like n.key = val and del n.key.

To go back to a dict again:

>>> vars(n)
{'key1': 'value1', 'key2': 'value2'}

The keys in your dict should be string identifiers for attribute access to work properly.

Simple namespace was added in Python 3.3. For older versions of the language, argparse.Namespace has similar behaviour.

  • 2
    Fabric also has a nice minimal implementation, which I also posted here.
    – Dave
    Dec 22 '16 at 2:30
  • 10
    Would be nice if you could recurse this.. i.e. accessing myobj.subdict.subdict
    – Pithikos
    Apr 12 '18 at 10:13
  • 2
    @Pithikos There's a 3rd party lib providing that functionality, checkout out python-box.
    – wim
    Apr 12 '18 at 15:43

I assume that you are comfortable in Javascript and want to borrow that kind of syntax... I can tell you by personal experience that this is not a great idea.

It sure does look less verbose and neat; but in the long run it is just obscure. Dicts are dicts, and trying to make them behave like objects with attributes will probably lead to (bad) surprises.

If you need to manipulate the fields of an object as if they were a dictionary, you can always resort to use the internal __dict__ attribute when you need it, and then it is explicitly clear what you are doing. Or use getattr(obj, 'key') to have into account the inheritance structure and class attributes too.

But by reading your example it seems that you are trying something different... As the dot operator will already look in the __dict__ attribute without any extra code.

  • 16
    Example of a bad surprise: if you have a key in the dict which happens to be a python keyword, e.g. the string 'for', then attribute access fails and there's no elegant way to handle this case properly. The whole idea is fundamentally broken from the start.
    – wim
    Apr 30 '13 at 1:27
  • 5
    On the other hand, auto-completion makes for more efficient, less error-prone code. That would work perfectly If the dict structure can be predefined.
    – roundar
    Jul 24 '17 at 1:55
  • 2
    Javascript is elegant.
    – Qian Chen
    Jan 19 at 4:27
  • 3
    @QianChen JavaScript can be elegant, and also can be a mess (like most languages). What is guaranteed to be a mess is trying to use Python as if it was JavaScript (or any two other languages whatsoever). If there's an expected way to do something in a given language, deviating from that is only going to cause pain.
    – fortran
    Jan 22 at 14:30

In addition to this answer, one can add support for nested dicts as well:

from types import SimpleNamespace

class NestedNamespace(SimpleNamespace):
    def __init__(self, dictionary, **kwargs):
        for key, value in dictionary.items():
            if isinstance(value, dict):
                self.__setattr__(key, NestedNamespace(value))
                self.__setattr__(key, value)

nested_namespace = NestedNamespace({
    'parent': {
        'child': {
            'grandchild': 'value'
    'normal_key': 'normal value',

print(nested_namespace.parent.child.grandchild)  # value
print(nested_namespace.normal_key)  # normal value

Note that this does not support dot notation for dicts that are somewhere inside e.g. lists.


Could you use a named tuple?

from collections import namedtuple
Test = namedtuple('Test', 'name foo bar')
my_test = Test('value', 'foo_val', 'bar_val')

  • 2
    This is an interesting way to access a data structure via dotted notation, but it doesn't seem particularly compatible with JSON or dict. There are libs that use named tuples under the covers that do provide JSON and dict support. Try github.com/dsc/bunch or github.com/kennknowles/python-jsonpath-rw
    – MarkHu
    Apr 20 '16 at 19:05
  • for python >= 3.6, consider from typing import NamedTuple Nov 17 '19 at 4:06

__getattr__ is used as a fallback when all other attribute lookup rules have failed. When you try to "print" your object, Python look for a __repr__ method, and since you don't implement it in your class it ends up calling __getattr__ (yes, in Python methods are attributes too). You shouldn't assume which key getattr will be called with, and, most important, __getattr__ must raise an AttributeError if it cannot resolve key.

As a side note: don't use self.__dict__ for ordinary attribute access, just use the plain attribute notation:

class JuspayObject:

    def __init__(self,response):
        # don't use self.__dict__ here
        self._response = response

    def __getattr__(self,key):
            return self._response[key]
        except KeyError,err:
            raise AttributeError(key)

Now if your class has no other responsability (and your Python version is >= 2.6 and you don't need to support older versions), you may just use a namedtuple : http://docs.python.org/2/library/collections.html#collections.namedtuple


You have to be careful when using __getattr__, because it's used for a lot of builtin Python functionality.

Try something like this...

class JuspayObject:

    def __init__(self,response):
        self.__dict__['_response'] = response

    def __getattr__(self, key):
        # First, try to return from _response
            return self.__dict__['_response'][key]
        except KeyError:
        # If that fails, return default behavior so we don't break Python
            return self.__dict__[key]
        except KeyError:
            raise AttributeError, key

>>> j = JuspayObject({'foo': 'bar'})
>>> j.foo
>>> j
<__main__.JuspayObject instance at 0x7fbdd55965f0>
  • 2
    __getattr__ is only used as a fallback if no other lookup rule matched, so no need to lookup self.__dict__[key], it's already been done if __getattr__ is called. Just raising AttributeError if the lookup on self._response['key'] failed is enough. Apr 29 '13 at 14:06
  • @brunodesthuilliers Looks like you're right. Strange. Maybe this only used to be necessary back in the days of Python v1.5.
    – Aya
    Apr 29 '13 at 14:21

You can use the built-in method argparse.Namespace():

import argparse

args = argparse.Namespace()
args.name = 'value'

# 'value'

You can also get the original dict via vars(args).


I use the dotted_dict package:

>>> from dotted_dict import DottedDict
>>> test = DottedDict()
>>> test.name = 'value'
>>> print(test.name)

Add a __repr__() method to the class so that you can customize the text to be shown on

print text

Learn more here: https://web.archive.org/web/20121022015531/http://diveintopython.net/object_oriented_framework/special_class_methods2.html

  • 2
    While this would technically solve the specific case mentioned in the question, hacking up built-in behaviour to patch other hacks of builtin behaviour is objectively bad code.
    – vdwees
    Mar 7 '19 at 9:05

With a small addition to this answer you can support lists as well:

class NestedNamespace(SimpleNamespace):
def __init__(self, dictionary, **kwargs):
    for key, value in dictionary.items():
        if isinstance(value, dict):
            self.__setattr__(key, NestedNamespace(value))
        elif isinstance(value, list):
            self.__setattr__(key, map(NestedNamespace, value))
            self.__setattr__(key, value)
  • Unfortunately, while your coding might be correct, it is not directly related to the question. The question was why printing the object itself returns an error. May 5 at 17:56

Here is a simple, handy dot notation helper example that is working with nested items:

def dict_get(data:dict, path:str, default = None):
    pathList = re.split(r'\.', path, flags=re.IGNORECASE)
    result = data
    for key in pathList:
            key = int(key) if key.isnumeric() else key 
            result = result[key]
            result = default
    return result

Usage example:

my_dict = {"test1": "str1", "nested_dict": {"test2": "str2"}, "nested_list": ["str3", {"test4": "str4"}]}
print(data_dict_get(my_dict, "test1"))
# str1
print(data_dict_get(my_dict, "nested_dict.test2"))
# str2
print(data_dict_get(my_dict, "nested_list.1.test4"))
# str4

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