Is it possible to create an object from a dictionary in python in such a way that each key is an attribute of that object?

Something like this:

 d = { 'name': 'Oscar', 'lastName': 'Reyes', 'age':32 }

 e = Employee(d) 
 print e.name # Oscar 
 print e.age + 10 # 42 

I think it would be pretty much the inverse of this question: Python dictionary from an object's fields


8 Answers 8


Sure, something like this:

class Employee(object):
    def __init__(self, initial_data):
        for key in initial_data:
            setattr(self, key, initial_data[key])


As Brent Nash suggests, you can make this more flexible by allowing keyword arguments as well:

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

Then you can call it like this:

e = Employee({"name": "abc", "age": 32})

or like this:

e = Employee(name="abc", age=32)

or even like this:

employee_template = {"role": "minion"}
e = Employee(employee_template, name="abc", age=32)
  • 4
    Offering both the Employee(some_dict) and the Employee(**some_dict) APIs is inconsistent. Whichever is better should be supplied. Mar 17, 2010 at 22:46
  • 2
    (Also, you mean if initial_data is not None; in a strange enough circumstance, this could introduce code that does not work as intended. Also, you can't use a the key 'initial_data' now using one of the APIs.) Mar 17, 2010 at 22:47
  • 4
    If you set your arg's default to () instead of None, you could do it like so: def __init__(self, iterable=(), **kwargs): self.__dict__.update(iterable, **kwargs). Mar 17, 2010 at 22:55
  • @Matt Anderson, that code seems a bit clever to me. It seems like a more readable solution would be logic to the effect that Ian used or, better yet, to choose a single, consistent API. Mar 17, 2010 at 23:01
  • 5
    I know it is old question, but I just want to add that it can be done in two lines with list comprehension, for example: [[setattr(self,key,d[key]) for key in d] for d in some_dict]
    – T.Z.
    Oct 3, 2013 at 20:56

Setting attributes in this way is almost certainly not the best way to solve a problem. Either:

  1. You know what all the fields should be ahead of time. In that case, you can set all the attributes explicitly. This would look like

    class Employee(object):
        def __init__(self, name, last_name, age):
            self.name = name
            self.last_name = last_name
            self.age = age
    d = {'name': 'Oscar', 'last_name': 'Reyes', 'age':32 }
    e = Employee(**d) 
    print e.name # Oscar 
    print e.age + 10 # 42 


  2. You don't know what all the fields should be ahead of time. In this case, you should store the data as a dict instead of polluting an objects namespace. Attributes are for static access. This case would look like

    class Employee(object):
        def __init__(self, data):
            self.data = data
    d = {'name': 'Oscar', 'last_name': 'Reyes', 'age':32 }
    e = Employee(d) 
    print e.data['name'] # Oscar 
    print e.data['age'] + 10 # 42 

Another solution that is basically equivalent to case 1 is to use a collections.namedtuple. See van's answer for how to implement that.

  • And what if the scenario lies somewhere between your two extremes? That's precisely the use case for this, and currently AFAICT there is no way to do this in a DRY and pythonic way.
    – DylanYoung
    Jun 23, 2020 at 20:23
  • It's worth noting that the well known Pandas library uses attributes for dynamic access.
    – Erik
    Sep 16, 2021 at 9:34

You can access the attributes of an object with __dict__, and call the update method on it:

>>> class Employee(object):
...     def __init__(self, _dict):
...         self.__dict__.update(_dict)

>>> dict = { 'name': 'Oscar', 'lastName': 'Reyes', 'age':32 }

>>> e = Employee(dict)

>>> e.name

>>> e.age
  • 5
    __dict__ is an implementation artifact and should not be used. Also, this ignores the existence of descriptors on the class. Mar 17, 2010 at 22:03
  • 2
    @Ignacio what do you mean with "implementation artifact"? What we shouldn't not be aware of it? Or that it may not be present in different platforms? ( eg. Python in Windows vs. Python on Linux ) What would be an acceptable answer?
    – OscarRyz
    Mar 17, 2010 at 22:08
  • 18
    __dict__ is a documented part of the language, not an implementation artifact.
    – Dave Kirby
    Mar 17, 2010 at 22:14
  • 4
    Using setattr is preferable to accessing __dict__ directly. You have to keep in mind a lot of things that could lead to __dict__ not being there or not doing what you want it to when you use __dict__, but setattr is virtually identical to actually doing foo.bar = baz. Mar 17, 2010 at 22:34
  • 4
    @DaveKirby: It seems the general use of __dict__ is advised against: docs.python.org/tutorial/classes.html#id2
    – equaeghe
    Apr 13, 2014 at 22:43

Why not just use attribute names as keys to a dictionary?

class StructMyDict(dict):

     def __getattr__(self, name):
             return self[name]
         except KeyError as e:
             raise AttributeError(e)

     def __setattr__(self, name, value):
         self[name] = value

You can initialize with named arguments, a list of tuples, or a dictionary, or individual attribute assignments, e.g.:

nautical = StructMyDict(left = "Port", right = "Starboard") # named args

nautical2 = StructMyDict({"left":"Port","right":"Starboard"}) # dictionary

nautical3 = StructMyDict([("left","Port"),("right","Starboard")]) # tuples list

nautical4 = StructMyDict()  # fields TBD
nautical4.left = "Port"
nautical4.right = "Starboard"

for x in [nautical, nautical2, nautical3, nautical4]:
    print "%s <--> %s" % (x.left,x.right)

Alternatively, instead of raising the attribute error, you can return None for unknown values. (A trick used in the web2py storage class)


say for example

class A():
    def __init__(self):

if you want to set the attributes at once

d = {'x':100,'y':300,'z':"blah"}
a = A()
  • 3
    you may use key/values for convenience: a.__dict__.update(x=100, y=300, z="blah")
    – simno
    Oct 5, 2017 at 9:10

I think that answer using settattr are the way to go if you really need to support dict.

But if Employee object is just a structure which you can access with dot syntax (.name) instead of dict syntax (['name']), you can use namedtuple like this:

from collections import namedtuple

Employee = namedtuple('Employee', 'name age')
e = Employee('noname01', 6)
print e
#>> Employee(name='noname01', age=6)

# create Employee from dictionary
d = {'name': 'noname02', 'age': 7}
e = Employee(**d)
print e
#>> Employee(name='noname02', age=7)
print e._asdict()
#>> {'age': 7, 'name': 'noname02'}

You do have _asdict() method to access all properties as dictionary, but you cannot add additional attributes later, only during the construction.


similar to using a dict, you could just use kwargs like so:

class Person:
   def __init__(self, **kwargs):
       self.properties = kwargs

   def get_property(self, key):
       return self.properties.get(key, None)

   def main():
       timmy = Person(color = 'red')
       print(timmy.get_property('color')) #prints 'red'
  • This doesn't turn those dictionary key/value pairs into attribute/value pairs. It still requires string indexing, hence it's just a 'dictionary with extra steps'.
    – Alex Povel
    May 24, 2022 at 13:18

If you don't mind using a library:

pip install domonic

then you can do:

from domonic.javascript import Object

class Employee(Object):

d = { 'name': 'Oscar', 'lastName': 'Reyes', 'age':32 }

e = Employee(d)

# {'name': 'Oscar', 'lastName': 'Reyes', 'age': 32}

Which should behave as required.

  • what are the advantages of this external libraries?
    – 00__00__00
    Jan 3, 2023 at 9:53

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