I'm playing around with the design of a Lift Simulation. I have a Lift Controller with a collection of Lifts. A Lift moves through particular states (e.g. STATIONARY, MOVING, DOORS_OPEN etc..) - In the MOVING state, the Lift process will simply sleep for X ms. I'm currently focusing on the interactions between the Lift Controller process and the collection of Lift processes.
Essentially, the Lift Controller needs to co-ordinate the Lifts and so needs to take floor requests and determine which Lift is best to service this request and then subsequently inform that Lift.
My initial thoughts were to have each Lift, upon floor request receipt, move itself through the various states, and then inform the Lift Controller once its completed moving to a particular floor. However, with such a design, the Lift Controller may query the lift to see which floor its near, make a decision for that Lift (i.e. stop at next floor), but by the time its told the Lift to stop, that Lift may have moved on past that floor (delay due to say network blip).
To avoid these types of issues (where the Lift Controller makes decisions based on out of date information), I've thought of making the Lift Controller responsible for moving each Lift through its states. With this model, the Lift Controller knows what state a Lift is in, tells it to make a transition, then knows what state it will be in after. As such, the Lift Controller always has upto date information as to what the Lifts are doing, and its actions will never be out of sync with the individual Lift states.
Do people have any concerns with this type of approach (wrt. threading, scalability) - are there better ways of modelling this? Thoughts welcome !