• UML class diagrams. UML class diagram: a picture of –the classes in an OO system –their fields and methods –connections between the classes. that interact or inherit from each other. Notrepresented in a UML class diagram: –details of how the classes interact with each other –algorithmic details; how a particular behavior is.
• The term 'diagram' in its commonly used sense can have a general or specific meaning: visual information device: Like the term 'illustration', 'diagram' is used as a collective term standing for the whole class of technical genres, including graphs, technical drawings and tables.

In software engineering, a class diagram in the Unified Modeling Language (UML) is a type of static structure diagram that describes the structure of a system by showing the system's classes, their attributes, operations (or methods), and the relationships among objects.

Posted By freeproject on January 31, 2018. This is the UML sequence diagram of University Management System which shows the interaction between the objects of Student, Registration, College, Semester, Faculty. The instance of class objects involved in this UML Sequence Diagram of University Management System are as follows. UML Diagrams College-School-Course administration. Unified Modelling Language Practicals. This Subject is called as UML in Mumbai University MCA Colleges. Below is the case study of it for the construction of different UML diagrams. Construct the design element for a course ware management system that can be used to manage courses and classes.

The class diagram is the main building block of object-oriented modeling. It is used for general conceptual modeling of the structure of the application, and for detailed modeling, translating the models into programming code. Class diagrams can also be used for data modeling.^[1] The classes in a class diagram represent both the main elements, interactions in the application, and the classes to be programmed.

In the diagram, classes are represented with boxes that contain three compartments:

• The top compartment contains the name of the class. It is printed in bold and centered, and the first letter is capitalized.
• The middle compartment contains the attributes of the class. They are left-aligned and the first letter is lowercase.
• The bottom compartment contains the operations the class can execute. They are also left-aligned and the first letter is lowercase.

In the design of a system, a number of classes are identified and grouped together in a class diagram that helps to determine the static relations between them. In detailed modeling, the classes of the conceptual design are often split into subclasses.

In order to further describe the behavior of systems, these class diagrams can be complemented by a state diagram or UML state machine.^[2]

Members[edit]

UML provides mechanisms to represent class members, such as attributes and methods, and additional information about them like constructors.

Visibility[edit]

To specify the visibility of a class member (i.e. any attribute or method), these notations must be placed before the member's name:^[3]

A derived property is a property whose value (or values) is produced or computed from other information, for example, by using values of other properties.

A derived property is shown with its name preceded by a forward slash '/'. ^[4]

Scope[edit]

The UML specifies two types of scope for members: instance and classifier, and the latter is represented by underlined names.^[5]

• Classifier members are commonly recognized as “static” in many programming languages. The scope is the class itself.
  • Attribute values are equal for all instances
  • Method invocation does not affect the classifier’s state
• Instance members are scoped to a specific instance.
  • Attribute values may vary between instances
  • Method invocation may affect the instance’s state (i.e. change instance’s attributes)

To indicate a classifier scope for a member, its name must be underlined. Otherwise, instance scope is assumed by default.

Relationships[edit]

A relationship is a general term covering the specific types of logical connections found on class and object diagrams. UML defines the following relationships:

Instance-level relationships[edit]

Dependency[edit]

A dependency is a semantic connection between dependent and independent model elements.^[6] It exists between two elements if changes to the definition of one element (the server or target) may cause changes to the other (the client or source). This association is uni-directional. A dependency is displayed as a dashed line with an open arrow that points from the client to the supplier.

Association[edit]

An association represents a family of links. A binary association (with two ends) is normally represented as a line. An association can link any number of classes. An association with three links is called a ternary association. An association can be named, and the ends of an association can be adorned with role names, ownership indicators, multiplicity, visibility, and other properties.
There are four different types of association: bi-directional, uni-directional, aggregation (includes composition aggregation) and reflexive. Bi-directional and uni-directional associations are the most common ones.
For instance, a flight class is associated with a plane class bi-directionally. Association represents the static relationship shared among the objects of two classes.

Uml Structure Diagram

Aggregation[edit]

Aggregation is a variant of the 'has a' association relationship; aggregation is more specific than association. It is an association that represents a part-whole or part-of relationship. As shown in the image, a Professor 'has a' class to teach. As a type of association, an aggregation can be named and have the same adornments that an association can. However, an aggregation may not involve more than two classes; it must be a binary association. Furthermore, there is hardly a difference between aggregations and associations during implementation, and the diagram may skip aggregation relations altogether.^[7]

Aggregation can occur when a class is a collection or container of other classes, but the contained classes do not have a strong lifecycle dependency on the container. The contents of the container still exist when the container is destroyed.

In UML, it is graphically represented as a hollowdiamond shape on the containing class with a single line that connects it to the contained class. The aggregate is semantically an extended object that is treated as a unit in many operations, although physically it is made of several lesser objects.

Example: Library and Students. Here the student can exist without library, the relation between student and library is aggregation.

Composition[edit]

The UML representation of a composition relationship shows composition as a filled diamond shape on the containing class end of the lines that connect contained class(es) to the containing class.

Differences between Composition and Aggregation[edit]

Composition relationship

1. When attempting to represent real-world whole-part relationships, e.g. an engine is a part of a car.

2. When the container is destroyed, the contents are also destroyed, e.g. a university and its departments.

Aggregation relationship

1. When representing a software or database relationship, e.g. car model engine ENG01 is part of a car model CM01, as the engine, ENG01, may be also part of a different car model.^[8]

2. When the container is destroyed, the contents are usually not destroyed, e.g. a professor has students; when the professor dies the students do not die along with them.

Thus the aggregation relationship is often 'catalog' containment to distinguish it from composition's 'physical' containment.

Class-level relationships[edit]

Generalization/Inheritance[edit]

It indicates that one of the two related classes (the subclass) is considered to be a specialized form of the other (the super type) and the superclass is considered a Generalization of the subclass. In practice, this means that any instance of the subtype is also an instance of the superclass. An exemplary tree of generalizations of this form is found in biological classification: humans are a subclass of simian, which is a subclass of mammal, and so on. The relationship is most easily understood by the phrase 'an A is a B' (a human is a mammal, a mammal is an animal).

The UML graphical representation of a Generalization is a hollow triangle shape on the superclass end of the line (or tree of lines) that connects it to one or more subtypes.

The generalization relationship is also known as the inheritance or 'is a' relationship.

The superclass (base class) in the generalization relationship is also known as the 'parent', superclass, base class, or base type.

The subtype in the specialization relationship is also known as the 'child', subclass, derived class, derived type, inheriting class, or inheriting type.

Note that this relationship bears no resemblance to the biological parent–child relationship: the use of these terms is extremely common, but can be misleading.

A is a type of B

For example, 'an oak is a type of tree', 'an automobile is a type of vehicle'

Generalization can only be shown on class diagrams and on use case diagrams.

Realization/Implementation[edit]

In UML modelling, a realization relationship is a relationship between two model elements, in which one model element (the client) realizes (implements or executes) the behavior that the other model element (the supplier) specifies.

The UML graphical representation of a Realization is a hollow triangle shape on the interface end of the dashed line (or tree of lines) that connects it to one or more implementers. A plain arrow head is used on the interface end of the dashed line that connects it to its users. In component diagrams, the ball-and-socket graphic convention is used (implementors expose a ball or lollipop, whereas users show a socket).Realizations can only be shown on class or component diagrams.A realization is a relationship between classes, interfaces, components and packages that connects a client element with a supplier element. A realization relationship between classes/components and interfaces shows that the class/component realizes the operations offered by the interface.

General relationship[edit]

Dependency[edit]

Dependency is a weaker form of bond that indicates that one class depends on another because it uses it at some point in time.One class depends on another if the independent class is a parameter variable or local variable of a method of the dependent class. This is different from an association, where an attribute of the dependent class is an instance of the independent class. Sometimes the relationship between two classes is very weak. They are not implemented withmember variables at all. Rather they might be implemented as member function arguments.

Multiplicity[edit]

This association relationship indicates that (at least) one of the two related classes make reference to the other. This relationship is usually described as 'A has a B' (a mother cat has kittens, kittens have a mother cat).

The UML representation of an association is a line connecting the two associated classes. At each end of the line there is optional notation. For example, we can indicate, using an arrowhead that the pointy end is visible from the arrow tail. We can indicate ownership by the placement of a ball, the role the elements of that end play by supplying a name for the role, and the multiplicity of instances of that entity (the range of number of objects that participate in the association from the perspective of the other end).

Analysis stereotypes[edit]

Entities[edit]

Entity classes model long-lived information handled by the system, and sometimes the behavior associated with the information. They should not be identified as database tables or other. Retrieved 8 September 2011.

External links[edit]

Course management system is a software system designed for teachers, instructors and students that simplifies the tasks of managing course content, course administration and interaction to help them organize and facilitate instruction. It only only work as a tool for distance education but also supplements to face-to-face classroom learning. Both teachers and learners can monitor the system.

A UML use case diagram is a graphic depiction of the interactions among the elements of a system. It also uses actors and use cases to model the functionality of a system.

Usages of UML Use Case Diagram

UML use case diagram is one of UML diagrams which can model dynamic view of a system. And its specific purpose is to gather requirements and actors of system. It is mainly used in analyzing systems requirements and high level design, modeling the context of a system, reverse and forward engineering.

University Management System Uml Class Diagram Java

5 Steps to Create UML Diagrams for Course Management System

1. Run Edraw, navigate to Software and double click UML Model Diagram to open a blank drawing page.
2. Drag relevant UML symbols from left libraries and drop on the drawing page.
3. Double click the symbols to add information and finish typing by click any blank area on the page.
4. Drag proper connector from left libraries to connect symbols.
5. Click Save on File tab to save the diagram as the default format .eddx. Or choose Save as on File tab to save as other formats. You can also choose to save in local files or save in your Cloud. Hit Export & Send under File to export the uml diagram as images, ppt , web documents and so on.

Here is the finished uml diagram for course management system.

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More UML Diagrams Types

Following are more examples of UML use case diagram.

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