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type of elevator and has a request percentage of 70%.  Standard elevators have a maximum capacity of 10 passengers. ExpressElevator: This type of elevator has a request percentage

type of elevator and has a request percentage of 70%.  Standard elevators have a maximum capacity of 10 passengers. ExpressElevator: This type of elevator has a request percentage

Programming Logic & Design Comprehensive
Programming Logic & Design Comprehensive
9th Edition
ISBN:9781337669405
Author:FARRELL
Publisher:FARRELL
Chapter6: Arrays
Section: Chapter Questions
Problem 10PE
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Help I am making a elevator simulation. Can you please help me improve my code. Any help is appreciated.

There are 4 types of elevators in the system:
StandardElevator: This is the most common type of elevator and has a request percentage of 70%. 
Standard elevators have a maximum capacity of 10 passengers.
ExpressElevator: This type of elevator has a request percentage of 20%. Express elevators have a 
maximum capacity of 8 passengers and are faster than standard elevators.
FreightElevator: This type of elevator has a request percentage of 5%. Freight elevators have a 
maximum capacity of 5 passengers and are designed to transport heavy items.
GlassElevator: This type of elevator has a request percentage of 5%. Glass elevators have a 
maximum capacity of 6 passengers and are designed to transport fragile item

import java.util.Random;

public abstract class Passenger {

    public static int passengerCounter = 0;

    private String passengerID;

    protected int startFloor;

    protected int endFloor;

    Passenger() {
        this.passengerID = "" + passengerCounter;
        passengerCounter++;
    }

    public abstract boolean requestElevator(SimulatorSettings settings);
}

class StandardPassenger extends Passenger {

    public StandardPassenger() {
        super();
    }

    @Override
    public boolean requestElevator(SimulatorSettings settings) {
        Random rand = new Random();
        this.startFloor = rand.nextInt(settings.getNofloors());
        this.endFloor = rand.nextInt(settings.getNofloors());
        while (this.startFloor == this.endFloor) {
            this.endFloor = rand.nextInt(settings.getNofloors());
        }
        return true;
    }
}

class VIPPassenger extends Passenger {

    public VIPPassenger() {
        super();
    }

    @Override
    public boolean requestElevator(SimulatorSettings settings) {
        // Request an express elevator
        int expressElevator = settings.getNofloors() / 2;
        this.startFloor = expressElevator;
        this.endFloor = expressElevator;
        return true;
    }
}

class FreightPassenger extends Passenger {

    public FreightPassenger() {
        super();
    }

    @Override
    public boolean requestElevator(SimulatorSettings settings) {
        Random rand = new Random();
        this.startFloor = rand.nextInt(settings.getNofloors());
        this.endFloor = rand.nextInt(settings.getNofloors());
        while (this.startFloor == this.endFloor) {
            this.endFloor = rand.nextInt(settings.getNofloors());
        }
        return true;
    }
}

class GlassPassenger extends Passenger {

    public GlassPassenger() {
        super();
    }

    @Override
    public boolean requestElevator(SimulatorSettings settings) {
        Random rand = new Random();
        this.startFloor = rand.nextInt(settings.getNofloors());
        this.endFloor = rand.nextInt(settings.getNofloors());
        while (this.startFloor == this.endFloor) {
            this.endFloor = rand.nextInt(settings.getNofloors());
        }
        return true;
    }
}

public abstract class Elevator{
    private int currentFloor;
    private int maxCapacity;
    private int passengersCount;

    public Elevator(int maxCapacity) {
        this.currentFloor = 0; // assuming initial floor is 0
        this.maxCapacity = maxCapacity;
        this.passengersCount = 0;
    }

    public abstract void moveUp();

    public abstract void moveDown();

    public abstract void addPassenger(Passenger passenger);

    public abstract void removePassenger(Passenger passenger);
}

class StandardElevator extends Elevator{

    public StandardElevator() {
        super(10); // max capacity is 10 for StandardElevator
    }

    @Override
    public void moveUp() {
        // implementation for moving up for StandardElevator
    }

    @Override
    public void moveDown() {
        // implementation for moving down for StandardElevator
    }

    @Override
    public void addPassenger(Passenger passenger) {
        // implementation for adding passenger to StandardElevator
    }

    @Override
    public void removePassenger(Passenger passenger) {
        // implementation for removing passenger from StandardElevator
    }
}

public class FreightElevator extends Elevator{
     public FreightElevator() {
        super( 4);
    }
}

public class GlassElevator extends Elevator{
    public GlassElevator() {
        super( 8);
    }
}

class ExpressElevator extends Elevator{

    public ExpressElevator() {
        super(8); // max capacity is 8 for ExpressElevator
    }
}

public class SimulatorSettings {
    private int nofloors;

    public int getNofloors() {
        return nofloors;
    }

}

 

Sample Input File Should look like this: # Building parameters floors-30 # Passengers to add to floors add_passenger add_passenger 1 6 25 Standard 30 2 2 28 VIP 10 add_passenger 37 15 Freight 20 add_passenger 4 4 20 Glass 15 # Elevator types | elevator_type StandardElevator 10 40 elevator_type ExpressElevator 8 25 elevator_type FreightElevator 5 20 elevator_type GlassElevator 6 15 # Percentage of passenger requests for each elevator type request_percentage StandardElevator 70 request_percentage Express Elevator 20 request_percentage FreightElevator 5 request_percentage GlassElevator 5 # Percentage of passenger requests for each passenger type Standard 70 VIP 10 Freight 15 Glass 5 passenger_request_percentage passenger_request_percentage passenger_request_percentage passenger_request_percentage # Number of elevators in the system number_of_elevators 8 # Run simulation for 60 iterations run_simulation 60
Transcribed Image Text:Sample Input File Should look like this: # Building parameters floors-30 # Passengers to add to floors add_passenger add_passenger 1 6 25 Standard 30 2 2 28 VIP 10 add_passenger 37 15 Freight 20 add_passenger 4 4 20 Glass 15 # Elevator types | elevator_type StandardElevator 10 40 elevator_type ExpressElevator 8 25 elevator_type FreightElevator 5 20 elevator_type GlassElevator 6 15 # Percentage of passenger requests for each elevator type request_percentage StandardElevator 70 request_percentage Express Elevator 20 request_percentage FreightElevator 5 request_percentage GlassElevator 5 # Percentage of passenger requests for each passenger type Standard 70 VIP 10 Freight 15 Glass 5 passenger_request_percentage passenger_request_percentage passenger_request_percentage passenger_request_percentage # Number of elevators in the system number_of_elevators 8 # Run simulation for 60 iterations run_simulation 60
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