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I found this interesting blog post via CodingHorror: My Favorite Interview Question. In a nutshell, he talks about the object-oriented design challenges of designing the game of Monopoly, with an emphasis on how to model the rules of the game. For example, "If a player owns Baltic Avenue, can she add a house to it?"

Interestingly, near the bottom of the post, he then writes:

You can probably save yourself a lot of interview time. Instead of all this hoopla, ask the candidate to describe when they have actually used the Strategy, Visitor, and Command patterns outside of a framework.)

...which probably means that you can use design patterns to model the rules of the game (see above). Has anybody ever done this? Designed the game of Monopoly using design patterns? If so, how did it work out?

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3 Answers 3

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+25

Here's how I would design Monopoly. I've taken the liberty of assuming a dynamically-typed language since that makes everything easier. Ruby specifically.

You have a simple Game object that's mostly a wrapper around an Array of size 40, plus some convenience methods. The Game object also tracks the number of available houses and hotels and the two stacks of Chance and Community Chest cards. A few convenience methods like current_turn and next_turn! are provided — both return a Player object; next_turn! increments the turn index, wrapping to 0 if necessary.

All locations the player can land on must inherit from a superclass of Property. The Property class defines a few common things like rent, owner, set, houses, purchasable?, and upgradeable?. The rent and owner properties may be nil. The set property returns an Array containing all properties within the group. The set property may vary in size from 1 to 4. The houses property represents a hotel as 5 'houses'.

The Game object has an Array of Player objects, each with fields like position (an integer from 0 to 39), money (no upper bound — the bank technically never 'runs out of money'), get_out_of_jail_frees, and in_jail? (since position is insufficient for this). The Game object also has an index to track whose turn it is.

Property-specific rules are all encoded within their respective subclasses. So, for instance, the implementation of rent on a Railroad would be:

def rent
  owned_count = self.set.select { |rr| rr.owner == self.owner }.size
  return 25 * 2 ** (owned_count - 1)
end

Chance and Community Chest cards can be simply implemented with a bunch of closures that takes a game and a player object as parameters. For instance:

# Second place in a beauty contest
COMMUNITY_CHEST_CARDS << lambda do |game, player|
  player.money += 10
end

# Advance token to Boardwalk
CHANCE_CARDS << lambda do |game, player|
  game.advance_token!(player, 39)
end

# Advance token to nearest railroad, pay double
CHANCE_CARDS << lambda do |game, player|
  new_position = [5, 15, 25, 35].detect do |p|
    p > player.position
  end || 5
  game.advance_token!(player, new_position)
  # Pay rent again, no-op if unowned
  game.properties[new_position].pay_rent!(player)
end

And so on. The advance_token! method obviously handles things like passing go.

Obviously, there are more details — it's a fairly complicated game, but hopefully this gives you the right idea. It'd certainly be more than sufficient for an interview.

Update

House rules could be switched on or off by adding a house_rules Array to the Game object. This would allow the FreeParking property to be implemented like this:

class Game
  def house_rules
    @house_rules ||= []
  end

  def kitty
    # Initialize the kitty to $500.
    @kitty ||= 500
  end

  def kitty=(new_kitty)
    @kitty = new_kitty
  end
end

class FreeParking < Property
  def rent
    if self.game.house_rules.include?(:free_parking_kitty)
      # Give the player the contents of the kitty, and then reset it to zero.
      return -(_, self.game.kitty = self.game.kitty, 0)[0]
    else
      return 0
    end
  end
end
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  • 1
    Wow! Well thought out and constructed.
    – SRM
    Jan 27, 2011 at 17:33
  • 1
    If I'm reading the article correctly, the authors main focus is on the fact that almost no two people play monopoly by the same rules, because everyone has different house rules they're accustomed to. In your architecture, wouldnt changing the ruleset require a lot of small changes in many different places?
    – Benno
    Jan 28, 2011 at 1:54
  • The most common house rule — getting money on Free Parking — could be trivially implemented by adding an implementation of the rent method for the FreeParking property and returning a negative number. That's one small change in one place. You could easily add branching logic to switch house rules on and off.
    – Bob Aman
    Jan 28, 2011 at 23:20
  • Updated my answer with a bit more information on how to do this.
    – Bob Aman
    Jan 28, 2011 at 23:35
  • I think the point of using some of the patterns suggested in the OP's link is to avoid doing what you did, i.e. modifying the Game object by adding another property and modifying FreeParking's rent method explicitly. Basically you want to be able to add a rule without modifying any of these objects (open-closed principle).
    – C S
    Dec 14, 2018 at 1:32
5

I think you are taking the wrong path here.

...which probably means that you can use design patterns to model the rules of the game (see above). 

I think this just shows that you don't really understand what design patterns are. The known Design Patterns are just names we give to recurrent situations when coding. In your everyday life, you never say "I woke up at 8am to go to 9am to place X, programming all day until 5pm, so they pay me by the end of the month". You say, "Today I've been off to work". You have the problem of wanting to earn money, and a recurrent solutions to that problem is going to work. So... we have a pattern here! Let's call it "Working" !

Design patterns are just a bunch of studied solutions to common problems. Each one of those solutions has an associated name (strategy, visitor, etc).

Coming back at

...which probably means that you can use design patterns to model the rules of the game 

It doesn't mean you CAN USE design patterns to model the rules of the game, it means that whatever you do in your solution, it will probably fall onto some of the known design patterns. It is easier to think then of your solution as a set of interconnected patterns than having to describe everything from the ground up.

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  • correct philosophically, but in practice it is not that simplistic. The main challenge with DP is to identify them in the problem and to apply them correctly in the solution (same in real life, BTW, when the problem is slightly less common as "go to work"). The question probably should be rephrased as "which known design patterns could be applied to simplify the solution of this problem?"
    – davka
    Jan 5, 2011 at 8:00
  • The question probably should be rephrased as "which known design patterns could be applied to simplify the solution of this problem?" I agree. It's just that it is so common to see people on SO totally confused about design patterns, as if they were the goal (instead of a mean to an end).. Jan 5, 2011 at 13:04
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I've never designed Monopoly rules (too easy, methinks), but I have dabbled in writing engines for other well-known games for personal pleasure and with the understanding that all of this is an academic exercise.

The two games I tried to model (and continue to try) are D&D and M:tG.

With D&D, the emphasis is on very good OO design - making classes and class hierarchies that make sense.

With M:tG, you basically realize that the straight OO paradigm is incomplete for this sort of thing. You end up then working with agents, event brokers, and creating really complicated rulesets.

It's all fairly meaningless unless you're a game designer. Good fun, though.

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