An approach I often take with states or phases is to have a manager class. Essentially, you need a
GamePhase object which has
Dispose() methods, and possibly
Resume() as well. Also often worth having is some sort of method to handle the handover. More on that later. Once you have this class, inherit from it to create a class for each phase;
Then you have a
GamePhaseManager class, which has
Dispose() methods, and probably a
SetCurrentPhase() method of some kind. You'll also need an
Add() method to add states to the manager - it'll need a way to store them. I recommend a
Dictionary<> using either an
string as the key. Your
SetCurrentPhase() method will take that key as a parameter.
Basically, what you do is to set up an instance of the
GamePhaseManager in your game, and then create and initialise each phase object and add it to the manager. Then your game's update loop will call
GamePhaseManager.Update(), which simply calls through to the current state's Update method, passing the parameters along.
Your phases will need some way of telling when it's time for them to end, and some way of handling that. I find that the easiest way is to set up your
GamePhase objects, and then have a method like
GamePhase.SetNextPhase(GamePhase next) which gives each phase a reference to the one that comes next. Then all they need is a boolean
Exiting with a protected setter and a public getter, so that they can set
Exiting = true in their
Update() when their internal logic decides that phase is over, and then in the
GamePhaseManager.Update() you can do this:
public void Update(TimeSpan elapsed)
CurrentPhase = CurrentPhase.NextPhase;
You'll notice I change phase before the update. That's so that the exiting phase can finish its cycle; you get odd behaviour otherwise. The
CurrentPhase.HandOver() method basically gets the current phase to pass on anything the next phase needs to know to carry on from the right point. This is probably done by having it call
NextPhase.Resume() internally, passing it any info it needs as parameters. Remember to also set
Exiting = false in here, or else it'll keep handing over after only one update loop.
Draw() methods are handled in the same way - your game loop calls
GamePhaseManager.Draw(), which just calls
CurrentPhase.Draw(), passing the parameters through.
If you have anything that isn't dependent on phase - the map, for example - you can either have it stored in the
GamePhaseManager and call its methods in
GamePhaseManager's methods, you can have the phases pass it around and have them call its methods, or you can keep it up at the top level and call it's methods alongside
GamePhaseManager's. It depends how much access the phases need to it.
Your edit shows that a fair portion of what's above is known to you, but I'm leaving it there to help anyone who comes across this question in future.
If already you have a manager to handle stages of the game, my immediate instinct would be to nest it. You saw that your game has stages, and built a class to handle them. You have a stage that has its own stages, so why not use the stage-handling code you already wrote? Inherit from your
Screen object to have a
SubdividedScreen class, or whatever you feel like calling it. This new class is mostly the same as the parent, but it also contains its own instance of the
ScreenManager class. Replace the
Screen object you're calling
map with one of these
SubdividedScreen objects, and fill its
Screen instances to represent the various stages (
PlayerPhase, etc). You might need a few tweaks to the
ScreenManager code to make sure the right info can get to the methods that need it, but it's much neater than having a messy
Update() method subdivided by switch cases.