Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm an experienced developer new to game development, and I have made a reasonably simple but working 3D platformer game and am looking for ways to make the architecture more scalable.

What is a good way to handle state in game development?
A very naive approach is to have multiple booleans like:

time_stopped = True
time_slow_motion = False
level_loaded = True
level_paused = True
level_completed = False

This is very inflexible since a developer error could lead to time_stopped = True and time_slow_motion = True at the same time, which would destroy game logic.

I'm looking for a better approach in the direction of:

class TimeState:
    STOPPED = 0
    SLOW_MOTION = 1
    NORMAL = 2
    current_state = 0

    def isStopped(self):
        if current_state == self.STOPPED: return True

But how would I handle multiple groups of state in a good way? I could create a LevelState which had LOADED, PAUSED and COMPLETED states. But how do I handle overlapping groups like when LevelState and TimeState PAUSED should always be the same? Is there a good design pattern or a good practice on how to solve state management?

What is a good way to handle state change?
My thoughts are to either give the state object eg. LevelState callback functions to execute on any given state change - or to poll the state object each game loop like if level_state.changedTo() == LevelState.COMPLETED: doStuff(). Are there better ways to handle this? Message queues/events? I don't want to embed logic into the state objects.
I'm also interested in if one should handle both changedFrom and changedTo events, and what would happen if logic triggered by changedFrom changes the state of the object before the changedTo logic is triggered - who wins?

Any tips design patterns, good practices or code examples on how to solve this in a elegant way are very welcome! Readability and maintainability score higher than performance.

I don't want implementation/language specific answers but tips on a good way to think architecturally wise. Though code examples in any language are of course a good way to explain this!

share|improve this question
    
use python set() and make sets, you can base your logic on set.issubset(), etc ... also, i believe you want to utilize observer pattern –  pyInTheSky Sep 7 '11 at 18:12
    
@pyInTheSky Thanks for pointing out observer pattern! I'm aware of efficient ways to code this in python (though the current game is in C#), but tried to make examples more readable than fast –  Anton B Sep 7 '11 at 18:20
2  
if you just want an easy state machine, i posted this on active state: code.activestate.com/recipes/… :: i have modified it but not reposted, you can easily switch it to return a tuple and have a run() function that acts as an arbiter, so it doesn't build up a giant call stack. There are also some other mods i haven't uploaded, like asking the sm to regenerate itself if you add a state, etc... but it is very simple and maybe can help you –  pyInTheSky Sep 7 '11 at 18:29
    
State machines are typically the way to handle this sort of thing, though something like pausing the game is probably easier with just a simple boolean. –  thedaian Sep 7 '11 at 18:34

1 Answer 1

Is such a common thing that there is even a pattern: The State Pattern

At the beginning could seem like is an overhead,but as the logic gets more complicated you will see the benefits.

share|improve this answer
    
Thanks for pointing out the State Pattern. Of course I found it through google but I'm wondering if there are variations/expansions of it that match game development better (since it's very general/simple). I'm also interested in how I can handle the change of state and overlapping state groups. –  Anton B Sep 7 '11 at 20:55

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.