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UML Diagrams
Computer Science I
Unified Modeling Language Unified Modeling Language (UML) is a
standardized general-purpose modeling language in the field of software engineering. The standard is managed, and was created by, the Object Management Group.
UML includes a set of graphic notation techniques to create visual models of software-intensive systems.
Structure Diagrams Structure diagrams emphasize the things that
must be present in the system being modeled. Since structure diagrams represent the structure they are used extensively in documenting the architecture of software systems.
Class diagram: describes the structure of a system by showing the system's classes, their attributes, and the relationships among the classes.
Component diagram: describes how a software system is split up into components and shows the dependencies among these components.
Structure Diagrams Composite structure diagram: describes the internal
structure of a class and the collaborations that this structure makes possible.
Deployment diagram: describes the hardware used in system implementations and the execution environments and artifacts deployed on the hardware.
Object diagram: shows a complete or partial view of the structure of a modeled system at a specific time.
Package diagram: describes how a system is split up into logical groupings by showing the dependencies among these groupings.
Structure Diagrams Profile diagram: operates at the metamodel level to
show stereotypes as classes with the <<stereotype>> stereotype, and profiles as packages with the <<profile>> stereotype. The extension relation (solid line with closed, filled arrowhead) indicates what metamodel element a given stereotype is extending.
Behavior Diagrams Behavior diagrams emphasize what must happen in the
system being modeled. Since behavior diagrams illustrate the behavior of a system, they are used extensively to describe the functionality of software systems.
Activity diagram: describes the business and operational step-by-step workflows of components in a system. An activity diagram shows the overall flow of control.
UML state machine diagram: describes the states and state transitions of the system.
Use case diagram: describes the functionality provided by a system in terms of actors, their goals represented as use cases, and any dependencies among those use cases.
Interaction Diagrams Interaction diagrams, a subset of behaviour
diagrams, emphasize the flow of control and data among the things in the system being modeled:
Communication diagram: shows the interactions between objects or parts in terms of sequenced messages. They represent a combination of information taken from Class, Sequence, and Use Case Diagrams describing both the static structure and dynamic behavior of a system.
Interaction overview diagram: provides an overview in which the nodes represent interaction diagrams.
Interaction Diagrams Sequence diagram: shows how objects communicate
with each other in terms of a sequence of messages. Also indicates the lifespans of objects relative to those messages.
Timing diagrams: are a specific type of interaction diagram, where the focus is on timing constraints.
Class Diagrams The main building block in object oriented
modeling They are used both for general conceptual
modeling of the systematics of the application, and for detailed modeling translating the models into programming code
The classes in a diagram represent both the main objects and/or interactions in the application and the objects to be programmed
In the diagram these classes are represented with boxes which contain three parts
Class Diagrams A class with three sections.
The upper part holds the name of the class The middle part contains the attributes of the class The bottom part gives the methods or operations the class
can take or undertake
Class Diagrams In the system design of a system, a number of classes
are identified and grouped together in a class diagram which helps to determine the static relations between those objects
With detailed modeling, the classes of the conceptual design are often split in a number of subclasses
In order to further describe the behavior of systems, these diagrams can be complemented by state diagram or UML state machine
Also instead of class diagrams, Object role modeling can be used if you just want to model the classes and their relationships
The class icon Defines
Persistent system state
System behavior The class icon has
Name Attributes Operations
It’s a rectangle divided into three compartments.
Steps followed Draw class symbol in the editor
and name it List the class attributes List the class operations/methods Make the links and associations Give notations
Construct Description Syntax
class a description of a set of objects that share the same attributes, operations, methods, relationships and semantics.
interface a named set of operations that characterize the behavior of an element.
component a modular, replaceable and significant part of a system that packages implementation and exposes a set of interfaces.
node a run-time physical object that represents a computational resource.
«interface»
Structural Modeling: Core Elements
Reference: OMG tutorial on UML by Cris Kobryn
Structural Modeling: Core Elements (cont’d)
Construct Description Syntax
constraint¹ a semantic condition or restriction.
{constra in t}
¹ An extension mechanism useful for specifying structural elements.
Reference: OMG tutorial on UML by Cris Kobryn
Construct Description Syntax
association a relationship between two or more classifiers that involves connections among their instances.
aggregation A special form of association that specifies a whole-part relationship between the aggregate (whole) and the component part.
generalization a taxonomic relationship between a more general and a more specific element.
dependency a relationship between two modeling elements, in which a change to one modeling element (the independent element) will affect the other modeling element (the dependent element).
Structural Modeling: Core Relationships
Reference: OMG tutorial on UML by Cris Kobryn
Construct Description Syntax
realization a relationship between a specification and its implementation.
Structural Modeling: Core Relationships (cont’d)
Reference: OMG tutorial on UML by Cris Kobryn
Interfaces: Longhand Notation
Fig. 3-29, UML Notation Guide
+create()+login(UserNam e, Passwd)+find(StoreId)+getPOStotals(POSid)+updateStoreTotals(Id,Sales)+get(Item )
-storeId: Integer-POSlist: List
Store
POSterm inal
POSterm inalHom e
<<use>>
StoreHom e
POSterm inal
+getPOStotals(POSid)+updateStoreTotals(Id,Sales)+get(Item )
<<interface>>Store
Reference: OMG tutorial on UML by Cris Kobryn
Associations An Association represents
a family of links Binary associations (with
two ends) are normally represented as a line, with each end connected to a class box
Higher order associations can be drawn with more than two ends; in such cases, the ends are connected to a central diamond
Fig. 3-40, UML Notation Guide
Reference: OMG tutorial on UML by Cris Kobryn
Person
Manages
JobCompany
boss
worker
employeeemployer
0..1
Job
Account
Person
Corporation
{Xor}
salary
Associations 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 five different types of association; bi-directional and uni-directional associations are the most common ones
Fig. 3-40, UML Notation Guide
Reference: OMG tutorial on UML by Cris Kobryn
Person
Manages
JobCompany
boss
worker
employeeemployer
0..1
Job
Account
Person
Corporation
{Xor}
salary
Aggregations
Aggregation is a variant of the "has a" or association relationship; aggregation is more specific than association
It is an association that represents a part-whole or part-of relationship. 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
Aggregations
Aggregation can occur when a class is a collection or container of other classes, but where the contained classes do not have a strong life cycle dependency on the container—essentially, if the container is destroyed, its contents are not
In UML, it is graphically represented as a hollow diamond shape on the containing class end of the tree of lines that connect contained class(es) to the containing class
Composition Composition is a stronger variant of the
"owns a" or association relationship; composition is more specific than aggregation
It is represented with a solid diamond shape Has a strong life cycle dependency between
instances of the container class and instances of the contained class(es): If the container is destroyed, normally every instance that it contains is destroyed as well
Note that a part can (where allowed) be removed from a composite before the composite is deleted, and thus not be deleted as part of the composite
The UML graphical representation of a composition relationship is a filled diamond shape on the containing class end of the tree of lines that connect contained class(es) to the containing class
Fig. 3-45, UML Notation GuideReference: OMG tutorial on UML by Cris Kobryn
Window
scrollbar [2]: Slidertitle: Headerbody: Panel
Window
scrollbar title body
Header Panel
2 1 1
Slider
111
Generalization Indicates that one of the two
related classes (the subtype) is considered to be a specialized form of the other (the super type) and supertype is considered as 'Generalization' of subtype
In practice, this means that any instance of the subtype is also an instance of the supertype
An exemplary tree of generalizations of this form is found in binomial nomenclature: human beings are a subtype of simian, which are a subtype of mammal, and so on. The relationship is most easily understood by the phrase 'A is a B' (a human is a mammal, a mammal is an animal).
Fig. 3-47, UML Notation Guide Reference: OMG tutorial on UML by Cris Kobryn
Shape
SplineEllipsePolygon
Shape
SplineEllipsePolygon
Shared Target Style
Separate Target Style
. . .
. . .
Generalization The UML graphical
representation of a Generalization is a hollow triangle shape on the supertype 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 supertype 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.
Fig. 3-47, UML Notation Guide Reference: OMG tutorial on UML by Cris Kobryn
Shape
SplineEllipsePolygon
Shape
SplineEllipsePolygon
Shared Target Style
Separate Target Style
. . .
. . .
Generalization 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
Generalization-Specialization relationship
A is a type of B E. g. "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.
Fig. 3-47, UML Notation Guide Reference: OMG tutorial on UML by Cris Kobryn
Shape
SplineEllipsePolygon
Shape
SplineEllipsePolygon
Shared Target Style
Separate Target Style
. . .
. . .
Dependencies Dependency is a
weaker form of relationship which indicates that one class depends on another because it uses it at some point of time
It exists if a class is a parameter variable or local variable of a method of another classFig. 3-50, UML Notation Guide
Reference: OMG tutorial on UML by Cris Kobryn
«friend»ClassA ClassB
ClassC
«instantiate»
«call»
ClassD
operationZ()«friend»
ClassD ClassE
«refine»ClassC combines
two logical classes
UML Class Diagram Examples
Reference: www.smartdraw.com
Object Diagram A diagram that shows
a complete or partial view of the structure of a modeled system at a specific time
Focuses on some particular set of object instances and attributes, and the links between the instances
Object Diagram A set of objects (instances
of classes) and their relationships
A static snapshot of a dynamic view of the system
Represents real or prototypical cases
Very useful before developing class diagrams
Worth saving as elaborations of class diagrams
Instance Specifications Each object and link is represented by an
Instance Specification This can show an object's classifier (e.g. an
abstract or concrete class) and instance name, as well as attributes and other structural features using slots
Each slot corresponds to a single attribute or feature, and may include a value for that entity
Instance Specifications The name on an instance specification
optionally shows … an instance name,
a ':' separator, and optionally one or more classifier names separated by commas
The contents of slots, if any, are included below the names, in a separate attribute compartment
A link is shown as a solid line, and represents an instance of an association
Example
As an example, consider one possible way of modeling production of the Fibonacci sequence
Example
In the first UML object diagram, the instance in the leftmost instance specification …
is named v1, has IndependentVariable as its classifier, plays the NMinus2 role within the FibonacciSystem,
and has a slot for the val attribute with a value of 0
Example
The second object … is named v2, is of class IndependentVariable, plays the NMinus1 role, and has val = 1
Example
The DependentVariable object … is named v3, and plays the N role
Example
The topmost instance, an anonymous instance specification, …
has FibonacciFunction as its classifier, and may have an instance name, a role, and slots, but
these are not shown here
Example
The diagram also includes three named links, shown as lines
Links are instances of an association
Example
After the first iteration, when n = 3, and f(n-2) = 1, and f(n-1) = 1, then f(n) = 1 + 1 = 2
At a slightly later point in time, the IndependentVariable and DependentVariable objects are the same, but the slots for the val attribute have different values
The role names are not shown here
Example
After several more iterations, when n = 7, and f(n-2) = 5, and f(n-1) = 8, then f(n) = 5 + 8 = 13
In a still later snapshot, the same three objects are involved
Their slots have different values The instance and role names are not shown
here
Usage If you are using a UML modeling tool, you will
typically draw object diagrams using some other diagram type, such as on a class diagram
An object instance may be called an instance specification or just an instance
A link between instances is generally referred to as a link
Other UML entities, such as an aggregation or composition symbol (a diamond) may also appear on an object diagram
More Examples
Class diagram
Object diagram
More Examples What does this
object diagram tell us?
More Examples What would the class
diagram look like that goes along with this object diagram?
More Examples Does this make
sense to you?
More Examples