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I'm not sure how to represent a certain datastructure in Python. It consists of groups and users where each user must be a member of exactly one group and groups should be in turn contained in a container, groups and users will only be used within this container. Furthermore I need random access to groups and users. A JSON representation of example data would look like this:

    "groupa": {
        "name": "groupa",
        "description": "bla",
        "members": {
            "usera": {
                "name": "usera",
                "age": 38
            "userb": {
                "name": "userb",
                "age": 20
    "groupb": {
        "name": "groupb",
        "description": "bla bla",
        "members": {
            "userc": {
                "name": "userc",
                "age": 56

Simply using nested dict seems unsuited because users and groups all have well defined attributes. Because Groups and Users are only used within the container I came up with a nested class:

class AccountContainer:
    class Group:
        def __init__(self, container, group):
   = group
            self.members = {}
            self.container = container
            self.container.groups[] = self # add myself to container

    class User:
        def __init__(self, group, user, age=None):
   = user
            self.age = age
   = group
  [] = self # add myself to group

    def __init__(self):
        self.groups = {}

    def add_user(self, group, username, age=None):
        # possibly check if group exists
        self.groups[group].members[username] = AccountContainer.User(self.groups[group], username, age=age)

    def add_group(self, group):
        self.groups[group] = AccountContainer.Group(self, group)

# creating
c = AccountContainer()
c.add_user("groupa", "usera")

# access
c.groups["groupa"].members["usera"].age = 38

# deleting
  • How would you represent such a datastructure?
  • Is this a reasonable approach?

To me it seems a bit unnatural using a method to create a group or user while otherwise referring to dicts.

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4 Answers 4

I think an abundance of behavior-less classes, in a multi-paradigm language (one like C++ or Python, that while supporting classes doesn't constrain you to use them when simpler structures will do), is a "design smell" -- the design equivalent of a "code smell", albeit a mild one.

If I was doing a code review of this, I'd point that out, although it's nowhere as bad as to have me insist on a re-factoring. Nested classes (that have no specific code-behavioral reason to be nested) compound this: they offer no specific benefits and can on the other hand "get in the way", for example, in Python, by interfering with serialization (pickling).

In addition to good old dicts and full-fledged classes, Python 2.6 offers the handy alternative of namedtuples for "structs" with a predefined set of attributes; they seem particularly suitable to this use case.

The handy "add this group/user to that container/group" functionality that's combined in your add... and __init__ methods can be refactored into standalone functions (so can accessors, even though that's less of a problem -- hiding internal structure into standalone accessors gets you closer to respecting the Law of Demeter).

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+1 - It seems that Python 2.6 gets more and powerful every day! – Tom Leys Nov 4 '09 at 22:11

It's generally good practice to not have objects know about what contains them. Pass the user in to the group, not the group into the user. Just because your current application only has "users" used once, one per group, one group per account, doesn't mean you should hardcode all your classes with that knowledge. What if you want to reuse the User class elsewhere? What if you later need to support multiple AccountContainers with users in common?

You may also get some mileage out of named tuples, especially for your users:

User = collections.namedtuple('User', ('name', 'age'))

class Group:
  def __init__(self, name, users=()): = name
    self.members = dict((, u) for u in users)

  def add(user):
    self.members[] = user

et cetera

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I don't really understand what you mean by that? Should the User object not store the group it is contained in? – Anon Y Mous Sep 8 '09 at 13:24

I would feel comfortable using dicts. But I'd put the content in lists as a list instead of a dict will keep it clean and less redundant:

  "name": "groupa",
  "description": "bla",
  "members": [{"name": "usera", "age": 38},
             {"name": "userb","age": 20}]
   "name": "groupb",
   "description": "bla bla",
   "members": [{"name": "userc","age": 56}]


You can still use random elements by the use of the random module:

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The problem is that it will not give me random access to a group. – Anon Y Mous Sep 8 '09 at 13:20
You can still get random information using the random module: groups_list[random.randrange(len(group_list))] – Santi Sep 8 '09 at 13:46
You misunderstand, random access means addressing arbitrary elements (here identified by their group name) ideally in a constant time, lists are sequential and have to be searched which would be inefficient. – Anon Y Mous Sep 8 '09 at 14:03
@Santi - LOL! - now that is random access! – Tom Leys Nov 4 '09 at 22:12

To echo Alex's answer.... these nested classes reek of code smell to me.

Simpler maybe:

def Group(name=None,description=None,members=None):
    if name is None:  
        name = "UNK!" # some reasonable default
    if members is None:
        members = dict()
    return dict(name = ...., members = ....)

In your original proposal, your objects are just glorified dicts anyway, and the only reason to use objects (in this code) are to get a cleaner init to handle empty attributes. Making them into functions that return actual dicts is nearly as clean, and much easier. Named-tuples seem like an even better solution though, as previously pointed out.

This (nested dicts approach) has the benefit of being trivial to construct from /dump to json.

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