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As I said in the title, I am now going to work on a Java mini-project called Elevator Simulator which, of course simulate a real-life working elevator accepting orders going up and down in a 4-10 floor building.

I want to build it right from the scratch, the whole design pattern/architecture thing, not just sit down then code and code for hours. I'm not begging for any help on algorithms, source codes or any specific guidance, I just want to get some suggestions to give me some more perspectives on solving my problem.

  1. My idea is to create a multi-threading program, each People (who use elevator) is a thread and each Bus in the elevator (an elevator might have more than one bus, in the most simple case, there is only one) is one thread. As there are 2 kinds of thread that behave differently from each other, wait - notify mechanism in fact will 'wake' everything up in each notification call. Is this really bad way of implementing/coding?

  2. As the notification call will alert both People threads and Bus threads, i considered using Observer - Observable pattern in which each People will listen to all Bus threads (when a bus open/close door and alert) and in turn, each Bus will listen to all People threads (when someone push the up/down button). Now the Buses can only alert People and vice versa. For now, i have read about multitier and MVC architecture (even the Smalltalk's MVC implemented using Observer - Observable pattern) and really confused that does my idea above follow these architecture? Is that necessary (or is it a must) for a software/program to follow an architecture?

Those questions are dancing around my head and i can not decide which blueprint is the best for me. Any suggestion or advice will be highly appreciated, thank you in advance!

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closed as not a real question by Nambari, Perception, tereško, gnat, Sankar Ganesh Jan 22 '13 at 7:40

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2  
I think before you make any design decisions, you should write up your requirements (which sound wishy-washy, presently). How else can you arrive at the best solution that satisfies them? –  cheeken Jan 20 '13 at 18:52
    
I tend to go ưith the second idea but afraid that it follows neither multitier nor MVC architecture –  Duy Tran Jan 20 '13 at 19:01
    
For small application MVC is the wrong choice. You end up with huge infrastructure, with extremely small amount of payload. –  tereško Jan 20 '13 at 19:01
    
One of my project requirements is graphical simulation (not a console program). The will be multiple views (display units) such as People, Elevators, Buses, Floors.. each of them will behave when another do something, i think in this case MVC is not a bad idea. Am i wrong? –  Duy Tran Jan 20 '13 at 19:06
1  
I totally agree with @tereško . MVC is a good thing but it is an overkill for a mini project. And for your ideas : Having a thread for each person is not a good design. Why would you need that. Look at complex simulations/simulation games made really long time ago like SimCity. They managed to do enormous number of things in 1-2 threads. You just need 1 thread for render and 1 thread for handling state of the objects. If I can advice you take a look on how simple game loops are designed. You will get the point on how to design your sim. –  Fallup Jan 20 '13 at 19:07

1 Answer 1

up vote 3 down vote accepted

For a simple simulation which have to be rendered you can go with 2 threads, no need to make a thread for every object which do something else. MVC pattern is up to you but I would not use it for such mini project. (if you don't plan to port it to other "views" later)

Take a look at how simple game loops are designed. You will realize that everything you need (in this case) is a thread for rendering the simulation state (talking about the Swing one) and thread maintaining the switching between your render() and update() methods (as showed in the linked article, really read it) - simply your simulation loop.

So when the user press start you will start your simulation loop (codes copied from the article):

   //Starts a new thread and runs the game loop in it.
   public void runGameLoop()
   {
      Thread loop = new Thread()
      {
         public void run()
         {
            gameLoop();
         }
      };
      loop.start();
   }



// the actual game loop
public void gameLoop()
    {
       long lastLoopTime = System.nanoTime();
       final int TARGET_FPS = 60;
       final long OPTIMAL_TIME = 1000000000 / TARGET_FPS;   

       // keep looping round til the game ends
       while (gameRunning)
       {
          // work out how long its been since the last update, this
          // will be used to calculate how far the entities should
          // move this loop
          long now = System.nanoTime();
          long updateLength = now - lastLoopTime;
          lastLoopTime = now;
          double delta = updateLength / ((double)OPTIMAL_TIME);

          // update the game logic
          doGameUpdates(delta);

          // draw everyting
          render();

          // we want each frame to take 10 milliseconds, to do this
          // we've recorded when we started the frame. We add 10 milliseconds
          // to this and then factor in the current time to give 
          // us our final value to wait for
          // remember this is in ms, whereas our lastLoopTime etc. vars are in ns.
          try{Thread.sleep( (lastLoopTime-System.nanoTime() + OPTIMAL_TIME)/1000000 )};
       }
    }

The key is to understand how you change state over time (here comes in also the concept of FPS) which is explained well in the linked article (I don't want to copy paste it when you can read it there) or you can understand it from the code above.

I'll jump to your concrete problem now. Lets assume you have a list of People where every Person/Unit can have multiple variables (states) and do different things depending on they actual state or w/e else. For the example when the person is angry he/she moves faster etc.. Now lets assume that person can do only one thing at the time - like he wants to get on the 3. floor by elevator or want to go for a cup of tea, etc.. This is the Task of the Person. It takes some time to finish the Task. Also there are some common Tasks for all of the people like moving but there are also specific Tasks (like there is a waitress taking your order, or chef making food...) Since it is a simulation objects will have to decide what to do on their own. They can fetch Tasks from some task pool for example or decide what to do based on their state.

Then in the update() method of the simulation loop you can traverse the list of People and "force" them to do their Task.

Uff, lets sum it up with some examples. NOTE that I will just "sketch" the template how you can do that (with magic numbers, without getters/setters , etc. to make it simple to understand). I apologize for code mistakes.

The base class for the different types of Units.

public abstract class Unit {

    protected int xPos;
    protected int yPos;
    protected boolean isBussy;
    protected double moveSpeed;
    protected boolean isTaskDone;
    protected boolean isDoingTask;
    protected long taskStartTime;

    public Unit(int xPos, int yPos, double moveSpeed) {
        super();
        this.isDoingTask = false;
        this.isTaskDone = false;
                this.isBussy = false;
                this.moveSpeed = moveSpeed;
                this.xPos = xPos;
                this.yPos = yPos;
    }

    public abstract void decideWhatToDo();

    // Try to do the unit task.
    public abstract void doTask();

    // Checks if the unit has completed the current task.
    public abstract boolean isTaskFinished();
}

Concrete Unit :

    public class ChefUnit extends Unit {

        private Task actualTask;
            private int chefExperienceLevel;

        public ChefUnit(int starterXCor, int starterYCor, double moveSpeed, int chefExperienceLevel) {
            super(unitType, starterXCor, starterYCor, moveSpeed);
                this.chefExperienceLevel = chefExperienceLevel;
        }

            @Override
        public void decideWhatToDo() {
            if (chefExperienceLevel > 3) {
                   actualTask = new CookTask(this);
                   isBussy = true;
                }
                else {
                   actualTask = new WashDishesTask(this);
                   isBussy = true;
                }
        }

        // start doing task
        @Override
        public void doTask() {
            isTaskDone = false;
            isDoingTask = true;
            taskStartTime = System.currentTimeMillis();
        }

        // If the time needed for the actual task to finish has passed, then do the actual task (immediately).
        // This might be weird at the first sight ;)
        @Override
        public boolean isTaskFinished() {
            if ((System.currentTimeMillis() - taskStartTime) / 1000 >= actualTask.getTaskTime()) {
                actualTask.doTask(this);
                isDoingTask = false;
                isTaskDone = true;
                return true;
            }
            return false;
        }
    }

The base class for different types of Tasks :

public abstract class Task {

    protected Unit unit;
    protected long taskTime;

    public Task(Unit unit, long taskTime) {
        super();
        this.unit = unit;
        this.taskTime = taskTime;
    }

    public abstract void doTask(Unit unit);
}

Concrete Task :

public class CookTask extends Task {

    private final long COOKING_TIME = 12L;
    public PutTask(Unit unit) {
        super(unit,COOKING_TIME);
    }

    @Override
    public void doTask(Unit unit) {
      cookSomeMeal();
    }

    private void cookSomeMeal(){
      // ...
    }
}

You will have all of your simulation units stored in the list List<Unit> listOfUnits = new ArrayList<Unit>();. Now finally in the update() method of your simulation loop you can update the state of your Units :

    public void update(int deltaTime) {
    // Update the position of the units
    // and do their tasks. deltaTime can be used to update the position.
    for (Unit myUnit : listOfUnits) {
        if (myUnit.isBussy) {
            if (!myUnit.isDoingTask()) {
                myUnit.doTask();
            } else if (myUnit.isTaskFinished()) {
                myUnit.setBussy(false);
                myUnit.setTaskDone(false);
            }
        } else {
            myUnit.findWhatToDo();
        }
    }
}

Note that I use concept of Tasks instead of having the concrete method directly in the Unit because there can be situation where you want to assign Task to a Unit by another Unit, not let the Unit to generate task on its own.

Example: Waitress comes to the kitchen with new order and say it to chefs. But everyone is cooking something at the time. Without concept of the Tasks she would have to stay there and wait till one of the chefs will take her order (task). With the Task concept she can put the Task into the Task pool and go away, chef will take the Task from the Task pool when he is free and cooks it. (Every cook task may include different meal, etc etc..)

This is the roughly how I would do it or at least think about it. See you don't have to have thousands of threads to make such simulation. Well managed while loop is enough. Write down your requirements, design the solution in OO way with use of patterns and you are good to go.

I hope it will be useful for you !

Regards

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1  
Really thank you for taking your time to answer my question. Your info source and code snippet are all very useful to me, now i can have a much more closer look to the problem and can 'visualize' that how my mini-project will look like. From bottom of my heart, I really appreciate it and thank you very much, again ;) –  Duy Tran Jan 21 '13 at 0:51
    
@DuyTran You are welcome ! –  Fallup Jan 21 '13 at 6:24

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