| << Chapter < Page | Chapter >> Page > |
Problem: Constructing an Elevator Object
In this application, you are required to simulate the operation of an elevator. Output is required that describes the current floor on which the elevator is stationed or is passing. Additionally, an internal elevator button that is pushed as a request to move to another floor should be provided. The elevator can travel between the first and fifteenth floors of the building in which it is situated.
For this application, we have one object, an elevator. The only attribute of interest is its location. A rider can request a change in the elevator’s position (state). Additionally, we must be able to establish the initial floor position when a new elevator is put in service. Figure below illustrates an object diagram that includes both the required attributes and operations.
Figure 7.3 An Elevator Class Diagram
For this application, the location of the elevator, which corresponds to its current floor position, can be represented by an integer member variable whose value ranges between 1 and 15. The variable is named currentFloor. The value of currentFloor effectively represents the current state of the elevator. The services that we provide for changing the state of the elevator are an initialization function to set the initial floor position when a new elevator is put in service and a request function to change the elevator’s position (state) to a new floor. Putting an elevator in service is accomplished by declaring a single class instance and requesting a new floor position is equivalent to pushing an elevator button.
The response to the elevator button should be as follows:
If a request is made for either a nonexistent floor or the current floor,
Do nothing
Else if the request is for a floor above the current floor,
Display the current floor number
While not at the designated floor
Increment the floor number
Display the new floor number
End while
Display the ending floor number
Else
Display the current floor number
While not at the designated floor
Decrement the floor number
Display the new floor number
End while
Display the ending floor number
Endif
From the design, a suitable class declaration is:
//class declaration
class Elevator
{
private:
int currentFloor;
public:
Elevator(int = 1); //constructor
void request(int);
};
The two declared public member functions, Elevator() and request(), are used to define the external services provided by each Elevator object. The Elevator() function becomes a constructor function that is automatically called when an object of type Elevator is created. We use this function to initialize the starting floor position of the elevator. The request() function is used to alter its position. To accomplish these services, a suitable class implementation section is:
// class implementation section
Elevator::Elevator(int cfloor)
{
currentFloor = cfloor;
}
void Elevator::request(int newfloor)
{
if (newfloor<1 || newfloor>MAXFLOOR || newfloor == currentFloor)
Notification Switch
Would you like to follow the 'Programming fundamentals in c++' conversation and receive update notifications?
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|