I need to make a bunch of class variables and I would like to do it by looping through a list like that:

vars=('tx','ty','tz') #plus plenty more

class Foo():
    for v in vars:

is it possible? I don't want to make them for an instance (using self in the __init__) but as class variables.

  • 2
    Why not to hold them in dict?
    – DrTyrsa
    Nov 29, 2011 at 8:15
  • Do you want to share theses variables between different instances?
    – luc
    Nov 29, 2011 at 8:17
  • not sure. most likely. the requirement comes from an API and I don't know how they are used in there.
    – pawel
    Nov 29, 2011 at 8:28
  • could this possibly be called in __new__?
    – 9 Guy
    Oct 29, 2022 at 20:51

7 Answers 7


You can run the insertion code immediately after a class is created:

class Foo():

vars=('tx', 'ty', 'tz')  # plus plenty more
for v in vars:
    setattr(Foo, v, 0)

Also, you can dynamically store the variable while the class is being created:

class Bar:
    locals()['tx'] = 'texas'
  • ah. that's cool. I will give it a go and see if the API I work with can handle that. thanks mate!
    – pawel
    Nov 29, 2011 at 8:28
  • What if you've overridden __setattr__()? Nov 30, 2021 at 8:05
  • Update... I figured it out. Within __setattr__() you can call super(ThisClass, self).__setattr__(varname, varvalue). Nov 30, 2021 at 8:26
  • 1
    Regarding the last part of the answer,locals()['tx'] = 'texas'. It should be said that the Python documentation specifically warns against this: Note: The contents of this dictionary should not be modified; changes may not affect the values of local and free variables used by the interpreter. Link: docs.python.org/3/library/functions.html#locals
    – Håkon T.
    Jan 12 at 22:22
  • The locals for a class dictionary are modifiable. It is the locals for a function that will be ignored. Jan 12 at 22:33

Late to the party but use the type class constructor!

Foo = type("Foo", (), {k: 0 for k in ("tx", "ty", "tz")})

If for any reason you can't use Raymond's answer of setting them up after the class creation then perhaps you could use a metaclass:

class MetaFoo(type):
    def __new__(mcs, classname, bases, dictionary):
        for name in dictionary.get('_extra_vars', ()):
            dictionary[name] = 0
        return type.__new__(mcs, classname, bases, dictionary)

class Foo(): # For python 3.x use 'class Foo(metaclass=MetaFoo):'
    __metaclass__=MetaFoo # For Python 2.x only
    _extra_vars = 'tx ty tz'.split()
  • This will not work as your solution has hard coded the values for _extra_vars.
    – MSS
    May 20, 2021 at 7:37
  • @MSS you don't have to use 'tx ty tz'.split(), you are allow to substitute your own expression which could reference a variable.
    – Duncan
    May 20, 2021 at 10:24

The locals() version did not work for me in a class.

The following can be used to dynamically create the attributes of the class:

class namePerson:
    def __init__(self, value):
        exec("self.{} = '{}'".format("name", value)

me = namePerson(value='my name')
me.name # returns 'my name'
  • This is an awfully wrong approach. You are setting an instance variable, not a class variable. Also why don't you simply use setattr?
    – user5538922
    Mar 20, 2022 at 9:29

setattr(object, name, value) This is the counterpart of getattr(). The arguments are an object, a string and an arbitrary value. The string may name an existing attribute or a new attribute. The function assigns the value to the attribute, provided the object allows it. For example, setattr(x, 'name', value) is equivalent to x.name = value.


The function you need is:

setattr(obj, name, value)

This allows you to set named attributes for a given class (this can be self).

The built in documentation for this function is pretty self-explanatory:

Signature: setattr(obj, name, value, /)
Sets the named attribute on the given object to the specified value.

setattr(x, 'y', v) is equivalent to ``x.y = v''
Type:      builtin_function_or_method

Example use

One use of this is to use a dictionary to set multiple class attributes, in my case this was from xpath definitions. I felt this improved maintainability by keeping potentially more fragile xpath definitions all in one place:

class Person:
    def _extract_fields(self):
        ''' Process the page using XPath definitions '''
        logging.debug("_extract_fields(): {}".format(repr(self)))
        # describe how to extract data from the publicly available site
        # (kept together for maintainability)
        fields = {
        # populate named class attributes from the dict
        for key in fields:
            setattr(self, key, self._parsed_content.xpath(fields[key]))

    def __init__(self):

You can create global variables with "foo." (or the name of your class) at the beggining of the name:

vars=('tx','ty','tz') #plus plenty more

class Foo():

foo = Foo() # Instance the class

for i in vars:
    globals () ["foo." + i] = value

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