1. Introduction to Object Oriented Design Version 1.1

2. Topics Designing Your Own Classes Attributes and Behaviors Class Diagrams Sequence Diagrams

3. Objectives At the completion of this topic, students should be able to: Design classes for use in a C# program Explain the difference between a class and an object Explain what attributes and behaviors are Explain the terms encapsulation and data hiding Create accurate class diagrams using UML Create a sequence diagram

4. Motivation

5. We have worked on a couple of Bowling Team Programs.

6. In these program we had a lot of data associated With a bowling team … * bowling scores * names of bowlers * number of people on the team And operations that we wanted to perform on the data * read scores from a file * sort the scores in order * find the average score * output the scores

7. We have worked on a couple of Bowling Team Programs. If you wrote any methods to do these operations, you probably found yourself passing lots of data around as parameters to the methods.

8. Wouldn’t it be nice if we could keep the data for a bowling team all in one place, and make the methods that work on the data easier to write? We can, if we use objects!

9. Objects

10. Key Concept An object often models things in the real world Bowling Team

11. Real world objects have attributes An object’s attributes describe its “state of being” depending upon the application, some attributes are more important than others occupation Average height Shirt color

12. Real world objects have attributes For our application, we are interested in Number of team members Their bowling scores The bowlers names

13. An object also has behaviors behaviors define how you interact with the object Find the highest/lowest/average score Record their names Record their scores Sort the scores

14. An Object’s Attributes and Behaviors Should Work Together this is called cohesion

15. An Object’s Attributes and Behaviors Should Work Together Cohesion means that methods and data work together, for example, read bowling scores from a file.

16. A Class is a blueprint that a program uses when it creates an object. A class reserves no space in memory When an object is created from the class blueprint, memory is reserved to hold the object’s attributes. An object is known as an instance of the class. Each object has it’s own space for data.

17. A class is said to be an abstraction of the real world object that we are modeling.

18. Encapsulation Bowling Team object readFile( ) names scores calling method we should not allow code outside of the object to reach in and change the data directly. Instead, we call methods in the object to do it for us. member data is declared as private member methods are declared as public public and private are called access modifiers

19. We use a UML Class Diagram to document the data and methods contained in our class.

20. Bowling Team A UML class diagram is used to describe a class in a very precise way. A class diagram is a rectangle. At the top of the rectangle is the class name. A line separates the class name from the rest of the diagram. class BowlingTeam { } Code represented by the UML diagram

21. BowlingTeam - numberOfBowlers: int Following the class name we write the data members of the class. A line separates the data members from the rest of the diagram. access modifier: + public - private data member name data type class BowlingTeam { private int numberOfBowlers; } Code represented by the UML diagram

22. Following the class name we write the data members of the class. A line separates the data members from the rest of the diagram. class BowlingTeam { private int numberOfBowlers; private int[ ] scores; private string[ ] names; } Code represented by the UML diagram BowlingTeam -numberOfBowlers: int - scores: int[ ] - names: string[ ]

23. + ReadScores( ): void Following the data members, we write the member methods. access modifier + public - private method name parameters return type class BowlingTeam { private int numberOfBowlers; private int[ ] scores; private string[ ] names; public void ReadScores( ){ } } Code represented by the UML diagram BowlingTeam -numberOfBowlers: int - scores: int[ ] - names: string[ ]

24. Following the data members, we write the member methods. class BowlingTeam { private int numberOfBowlers; private int[ ] scores; private string[ ] names; public BowlingTeam(){ } public void ReadScores(){ } public void SortScores(){ } public void DisplayScores( ){ } } Code represented by the UML diagram + ReadScores( ): void + SortScores( ): void + DisplayScores( ): void BowlingTeam -numberOfBowlers: int - scores: int[ ] - names: string[ ]

25. It is important that class diagrams be drawn precisely and that they conform to the form shown in these examples.

26. Class diagrams are static. They describe how a class looks. To show how objects interact with one another as a program executes, we use a Sequence Diagram.

27. Consider an Application that contains Book objects And Order objects. They might interact as shown:

28. anOrder aBook getTitle getPrice calcSalesTax

29. anOrder aBook getTitle getPrice calcSalesTax The boxes along the top are objects

30. anOrder aBook getTitle getPrice calcSalesTax These lines represent messages being sent from one object to another

31. anOrder aBook getTitle getPrice calcSalesTax These lines represent responses (return values)

32. anOrder aBook getTitle getPrice calcSalesTax This is a message that the object sends to itself

33. Practice

34. Design a class that represents “Integer” objects. What are the data members of the class?

35. Design a class that represents “Integer” objects. Suppose we want methods to set the integer value in the object retrieve the integer value in the object retrieve the reciprocal of the value in the object

36. Create the UML class diagram Integer

37. Design a class that represents “StudentInfo” objects. You could use an object of this class to hold the student information you print out at the beginning of each of your programming projects. What are the data members of the class?

38. Design a class that represents “StudentInfo” objects. Suppose we want methods to set the name, course, and section values in the object retrieve the name, course and section values from the object output the data in the student object

39. Create the UML class diagram StudentInfo

40. Design a class that represents a car. The important attributes of a car for this application are how much gas it has in its tank, and what kind of mileage (mpg) it gets. We need member methods (behaviors) that provide the following: - Create a Car object with a given mpg rating - add n gallons of gas to the tank - drive the car y miles - report on how much gas is in the tank

41. Car

42. Design a class that represents a student. The important properties of a student for this application are the student’s name, and the scores for two quizzes (10 pts possible on each) and two exams (100 pts possible on each). We need member methods that Create a student object – set all scores to zero Save the score for quiz 1 Save the score for quiz 2 Save the score for exam 1 Save the score for exam 2 Calculates the student’s percent of points possible

43. Create the UML class diagram Student

44. Checking Account

45. Create the UML class diagram Checking Account

46. PayCheck

47. Create the UML class diagram Paycheck