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The world contains agents at different locations, with only a single agent at any location. Each agent knows where he's at, but I also need to quickly check if there's an agent at a given location. Hence, I also maintain a map from locations to agents. I have a problem deciding where this map belongs to: class World, class Agent (as a class attribute) or elsewhere.

In the following I put the lookup table, agent_locations, in class World. But now agents have to call world.update_agent_location every time they move. This is very annoying; what if I decide later to track other things about the agents, apart from their locations - would I need to add calls back to the world object all across the Agent code?

class World:
  def __init__(self, n_agents):
    # ...
    self.agents = []
    self.agent_locations = {}
    for id in range(n_agents):
      x, y = self.find_location()
      agent = Agent(self,x,y)
      self.agent_locations[x,y] = agent
  def update_agent_location(self, agent, x, y):
    del self.agent_locations[agent.x, agent.y]
    self.agent_locations[x, y] = agent
  def update(self): # next step in the simulation
    for agent in self.agents:
      agent.update() # next step for this agent
  # ...

class Agent:
  def __init__(self, world, x, y):
    self.world = world
    self.x, self.y = x, y
  def move(self, x1, y1):
    self.world.update_agent_location(self, x1, y1)
    self.x, self.y = x1, y1
  def update():
    # find a good location that is not occupied and move there
    for x, y in self.valid_locations():
      if not self.location_is_good(x, y):
      if self.world.agent_locations[x, y]: # location occupied
      self.move(x, y)

I can instead put agent_locations in class Agent as a class attribute. But that only works when I have a single World object. If I later decide to instantiate multiple World objects, the lookup tables would need to be world-specific.

I am sure there's a better solution...

EDIT: I added a few lines to the code to show how agent_locations is used. Note that it's only used from inside Agent objects, but I don't know if that would remain the case forever.

share|improve this question
Wouldn't you have to update Agent.agent_locations regardless? How "quickly" must your quick check be? How many agents do you have? If you don't have that many (relative), you could just iterate over a World's agents, checking their locations. –  vicvicvic Feb 2 '11 at 22:39
When the agent decides where to move, he checks to make sure he doesn't run into other agents. If I iterate over all agents to check that, I would end up looking up each agent's location (performing n_agents operations) whenever any agent moves. Updating lookup table takes only one operation per move. –  max Feb 2 '11 at 22:48
The code you provided doesn't check that though? update_agent_location just overwrites whoever was at (x,y) before... Anyway, would moving the lookup table to the Agent class really solve anything? Wouldn't you still have to call Agent.update_agent_location? –  vicvicvic Feb 2 '11 at 22:55
Let me add a sample code to show how I use it. I just didn't include it originally to keep it shorter. As for moving it to Agent, it would at least keep everything contained in the Agent class. My main concern is that Agent objects are helping another class maintain some lookup table that they know little about. –  max Feb 2 '11 at 23:13

3 Answers 3

up vote 1 down vote accepted

It helps with OOP to talk about the objects in terms of is a and has a. A World has a list of Agents and a list of Locations. A Location has an Agent. An Agent has a Location and a World.

class Agent:
    def __init__(self, world):
        self.location = None
        self.world = world

    def move(self, new_location):
        if self.location is not None:
            self.location.agent = None
        new_location.agent = self
        self.location = new_location

    def update(self):
        for new_location in self.world.locations:
            if self.location_is_good(new_location):

    def location_is_good(self, location):
        if location.agent is not None:
            return False

class Location:
    def __init__(self, x, y):
        self.x = x
        self.y = y
        self.agent = None

Go through the mental exercise of adding a new attribute to a Location, such as terrain, and it's easy to see the benefits of such encapsulation. Likewise, adding new things to Agent, such as a weapon, just requires a weapon-specific function similar to move(). Note that the World doesn't need to get involved in the move() at all. The move is handled strictly between the Agent and the Location.

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Wouldn't it be dangerous to have the lookup table stored in one class (Location) but updated from another (Agent)? I always tried to avoid touching internals of one class from another. –  max Feb 4 '11 at 1:46
It's actually a pretty common paradigm in python. The convention is to prefix data members with an underscore if you don't want them used that way. You could always add get_agent() and set_agent() methods to Location and use those instead but it doesn't gain you anything in security. Getter and setter methods are mainly used in Java and C++ to prevent people from subclassing in unsupported ways. The python culture is more be polite and trust others but do crazy things at your own risk. –  Karl Bielefeldt Feb 4 '11 at 2:20
I didn't realize that, and was imitating C++/Java style getter/setter paradigm with Python. Still, while I have no problem accessing lookup table from another class, I'm a bit concerned. For example, any change to the desired behavior of the lookup table will require changes in code all over my project, and not just in class Location. –  max Feb 6 '11 at 1:32
Needing to change the behavior of something as simple as a two-way map sounds suspiciously like YAGNI territory, but you could put move() in the Location class instead, if you're going to have that many things moving around between locations, but it will sacrifice some readability. –  Karl Bielefeldt Feb 6 '11 at 5:10

Okay, I think I can provide my answer, which is perhaps more an opinion than a definitive "do this" (I don't have any formal training in programming).

I think you agent_locations should be a member of each World instance.

I try to think in terms of interface primarily. In my view, the World class should be responsible for managing the resources of your world, in this case space. Since World is the manager of space, Agents should ask their world if space is available (i.e. unoccupied), not each other. Therefore, I think your self.location_is_good call more appropriately would be self.world.is_location_available(x, y) [1]

This makes it natural for the world to be responsible for looking up the availability of the given space. The World class might furthermore have other variables deciding whether a space is available. What if there's a shrubbery there? Or something. You probably already have some kind of table for your (x, y) coordinates on each world. Being "occupied" can be a property of those objects.

Furthermore: Your World already knows the state of every agent (by [(agent.x, agent.y) for agent in self.agents] [2]). The agent_locations dict is essentially an index or cache for these properties, which therefore belongs to World.

Regarding the pain of sending state back to the World... well, you're not going to solve that by making Agent do it instead. But doing update_agent_location(self, agent, x, y) is completely superfluous, since x == agent.x; y == agent.y (if you reverse the lines where you call it). You could simply have one method in World, update_agent_state(self, agent), which World can use to update its indices. You might even submit an extra param to describe the type of state change (if you don't want to update all the properties eveytime).

class World(object):
  # ...
  def update_agent_state(self, agent, state_change=None):
    # Update properties based on what changed, or
    # drop state_change param and update everything everytime
    if state_change == Agent.LOCATION_CHANGE:
      self.agent_locations[agent.x, agent.y] = agent
    elif state_change == Agent.WHATEVER:

class Agent(object):

  def update(self):
    for x, y in self.valid_locations():
      if not self.can_move_to(x, y)

      self.move(x, y)

  def can_move_to(self, x, y):
    """Determines if x, y is a location where we can move."""
    if not self.world.is_location_available(x, y):
      return False
    if not self.has_money_to_travel_to(x, y):
      return False

    return True

  def move(self, x, y):
    """Moves to x, y and notifies world of state change."""
    self.x = x
    self.y = y

    self.world.update_agent_state(self, Agent.LOCATION_CHANGE)

Something like that (read my footnotes).

[1] Unless, of course, "goodness" of a location depends upon other variables than if the space is free. E.g. if you should only move to (x, y) if 1) the location is available and 2) the agent has 1000 $ to pay for a ticket, then you should have a Agent.can_move_to(x, y) which in turn calls the world's method, and checks its wallet.

[2] I'm assuming your self.agents = {} is a typo, since you can't append on a dict. You mean a list ([]) right?

share|improve this answer
1) Thanks, fixed the typo. 2) update_agent_location is not redundant because it needs to know both the previous and the new coordinates (otherwise it can't delete the old record). 3) I agree I'm not solving any coding annoyance by moving to Agent class, but at least it all stays contained in one class, so it's easier to make sure it's all consistent. 4) I like your idea that the world manages space, so location_available needs to be in world. 5) I'm also thinking of an alternative viewpoint, where everything in my world is an object-oriented database - where lookups fit nicely. –  max Feb 3 '11 at 19:50

Sorry, I don't understand the problem. """When the agent decides where to move, he checks to make sure he doesn't run into other agents""". Evidently a location can have 0 or 1 agent. Surely the Location class has an agent attribute.

locn = self.where_to_move()
if locn.agent is None:
elif locn.agent is self:
    raise ConfusedAgentError()
share|improve this answer
In my case the main "register" of agents is simply a list inside world object. In your code, the main "register" of agents is by location, so my problem is indeed solved. But then the other problems comes up: how to do I quickly iterate through all the agents? In your solution the question is then, where do I store that secondary lookup table that allows fast iteration through agents. –  max Feb 3 '11 at 9:03

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