Class diagram is a static diagram. It represents the static view of an application. Class diagram is not only used for visualizing, describing, and documenting different aspects of a system but also for constructing executable code of the software application.
Class diagram describes the attributes and operations of a class and also the constraints imposed on the system. The class diagrams are widely used in the modeling of objectoriented systems because they are the only UML diagrams, which can be mapped directly with object-oriented languages.
Class diagram shows a collection of classes, interfaces, associations, collaborations, and constraints. It is also known as a structural diagram.
Purpose of Class Diagrams
The purpose of class diagram is to model the static view of an application. Class diagrams are the only diagrams which can be directly mapped with object-oriented languages and thus widely used at the time of construction.
UML diagrams like activity diagram, sequence diagram can only give the sequence flow of the application, however class diagram is a bit different. It is the most popular UML diagram in the coder community.
The purpose of the class diagram can be summarized as −
Analysis and design of the static view of an application. Describe responsibilities of a system. Base for component and deployment diagrams. Forward and reverse engineering.
How to Draw a Class Diagram?
Class diagrams are the most popular UML diagrams used for construction of software applications. It is very important to learn the drawing procedure of class diagram.
Class diagrams have a lot of properties to consider while drawing but here the diagram will be considered from a top level view.
Class diagram is basically a graphical representation of the static view of the system and represents different aspects of the application. A collection of class diagrams represent the whole system.
The following points should be remembered while drawing a class diagram −
The name of the class diagram should be meaningful to describe the aspect of the system. Each element and their relationships should be identified in advance. Responsibility (attributes and methods) of each class should be clearly identified For each class, minimum number of properties should be specified, as unnecessary properties will make the diagram complicated. Use notes whenever required to describe some aspect of the diagram. At the end of the drawing it should be understandable to the developer/coder. Finally, before making the final version, the diagram should be drawn on plain paper and reworked as many times as possible to make it correct.
The following diagram is an example of an Order System of an application. It describes a particular aspect of the entire application.
First of all, Order and Customer are identified as the two elements of the system. They have a one-to-many relationship because a customer can have multiple orders. Order class is an abstract class and it has two concrete classes (inheritance relationship) SpecialOrder and NormalOrder. The two inherited classes have all the properties as the Order class. In addition, they have additional functions like dispatch () and receive ().
The following class diagram has been drawn considering all the points mentioned above.
Where to Use Class Diagrams?
Class diagram is a static diagram and it is used to model the static view of a system. The static view describes the vocabulary of the system.
Class diagram is also considered as the foundation for component and deployment diagrams. Class diagrams are not only used to visualize the static view of the system but they are also used to construct the executable code for forward and reverse engineering of any system.
Generally, UML diagrams are not directly mapped with any object-oriented programming languages but the class diagram is an exception.
Class diagram clearly shows the mapping with object-oriented languages such as Java, C++, etc. From practical experience, class diagram is generally used for construction purpose.
In a nutshell it can be said, class diagrams are used for −
Describing the static view of the system. Showing the collaboration among the elements of the static view. Describing the functionalities performed by the system. Construction of software applications using object oriented languages.