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I have a Python class that have attributes named: date1, date2, date3, etc.

During runtime, I have a variable i, which is an integer.

What I want to do is to access the appropriate date attribute in run time based on the value of i.

For example,

if i == 1, I want to access myobject.date1

if i == 2, I want to access myobject.date2

And I want to do something similar for class instead of attribute.

For example, I have a bunch of classes: MyClass1, MyClass2, MyClass3, etc. And I have a variable k.

if k == 1, I want to instantiate a new instance of MyClass1

if k == 2, I want to instantiate a new instance of MyClass2

How can i do that?


I'm hoping to avoid using a giant if-then-else statement to select the appropriate attribute/class.

Is there a way in Python to compose the class name on the fly using the value of a variable?

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Please edit this question. Please read the formatting hints on the right side of the page. Please format your code properly. –  S.Lott Jul 20 '10 at 0:22
Please format this question correctly. I want to upvote it as a useful question, as this is a very nice example of metaprogramming and introspection. But it needs editing. –  Jesse Dhillon Jul 20 '10 at 2:53

6 Answers 6

up vote 7 down vote accepted

You can use getattr() to access a property when you don't know its name until runtime:

obj = myobject()
i = 7
date7 = getattr(obj, 'date%d' % i) # same as obj.date7

If you keep your numbered classes in a module called foo, you can use getattr() again to access them by number.

  class Class1: pass
  class Class2: pass
  [ etc ]

  import foo
  i = 3
  someClass = getattr(foo, "Class%d" % i) # Same as someClass = foo.Class3
  obj = someClass() # someClass is a pointer to foo.Class3
  # short version:
  obj = getattr(foo, "Class%d" % i)()

Having said all that, you really should avoid this sort of thing because you will never be able to find out where these numbered properties and classes are being used except by reading through your entire codebase. You are better off putting everything in a dictionary.

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Gotta emphasize that last paragraph with a big, red marker. There's 2+ identifiers with the same name and a running number at the end? Refactor it. That is, unless you got a reason that's twice as good as it needed to be considered a good reason. –  delnan Jul 20 '10 at 0:57
Completely agreed. Given a choice, I would never let code like that pass review. –  Daenyth Jul 20 '10 at 2:34

For the first case, you should be able to do:

getattr(myobject, 'date%s' % i)

For the second case, you can do:

myobject = locals()['MyClass%s' % k]()

However, the fact that you need to do this in the first place can be a sign that you're approaching the problem in a very non-Pythonic way.

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OK, well... It seems like this needs a bit of work. Firstly, for your date* things, they should be perhaps stored as a dict of attributes. eg, myobj.dates[1], so on.

For the classes, it sounds like you want polymorphism. All of your MyClass* classes should have a common ancestor. The ancestor's __new__ method should figure out which of its children to instantiate.

One way for the parent to know what to make is to keep a dict of the children. There are ways that the parent class doesn't need to enumerate its children by searching for all of its subclasses but it's a bit more complex to implement. See here for more info on how you might take that approach. Read the comments especially, they expand on it.

class Parent(object):
    _children = {
      1: MyClass1,
      2: MyClass2,

    def __new__(k):
        return object.__new__(Parent._children[k])

class MyClass1(Parent):
    def __init__(self):
        self.foo = 1

class MyClass2(Parent):
    def __init__(self):
        self.foo = 2

bar = Parent(1)
print bar.foo # 1
baz = Parent(2)
print bar.foo # 2

Thirdly, you really should rethink your variable naming. Don't use numbers to enumerate your variables, instead give them meaningful names. i and k are bad to use as they are by convention reserved for loop indexes.

A sample of your existing code would be very helpful in improving it.

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How would the ancestor's new method figure out which children to instantiate without resorting to a big if-then-else statement? I'm hoping to use the variable value to directly "compose" the class name on the fly. Is that possible in Python? –  Continuation Jul 20 '10 at 0:39
@Continuation: I've updated my answer to include more info –  Daenyth Jul 20 '10 at 2:31

I agree with Daenyth, but if you're feeling sassy you can use the dict method that comes with all classes:

>>> class nullclass(object):
        def nullmethod():

>>> nullclass.__dict__.keys()
['__dict__', '__module__', '__weakref__', 'nullmethod', '__doc__']

>>> nullclass.__dict__["nullmethod"]
<function nullmethod at 0x013366A8>
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to get a list of all the attributes, try:

dir(<class instance>)
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For the first example I'd add an instance method on the class.

def get_date_for_i(self, i):
    if i == 1:
        return self.date1
    elif i == 2:
        return self.date2
    # etc...

For the second I'd use a factory function:

def get_class_for_k(k):
   if k == 1:
       return MyClass1
   if k == 2:
       return MyClass2

   # etc...
share|improve this answer
Well I'm trying to avoid having a giant if-then-else statement. –  Continuation Jul 20 '10 at 0:36

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