The document discusses several object-oriented design patterns including Iterator, Decorator, Strategy, and Observer providing an overview and examples of each pattern describing how they address common programming problems and their benefits for reusable and flexible code. It also discusses how design patterns were documented in influential books and how they provide solutions to problems that occur frequently in software design through interfaces and classes that can be implemented in many different ways.
3. The Beginning of Patterns
Christopher Alexander, architect
– A Pattern Language--Towns, Buildings, Construction
– Timeless Way of Building (1979)
– “Each pattern describes a problem which occurs over
and over again in our environment, and then describes
the core of the solution to that problem, in such a way
that you can use this solution a million times over,
without ever doing it the same way twice.”
Other patterns: novels (tragic, romantic, crime),
movies genres (drama, comedy, documentary)
4. “Gang of Four” (GoF) Book
Design Patterns: Elements of Reusable Object-Oriented
Software, Addison-Wesley Publishing Company, 1994
Written by this "gang of four"
– Dr. Erich Gamma, then Software Engineer, Taligent, Inc.
– Dr. Richard Helm, then Senior Technology Consultant, DMR Group
– Dr. Ralph Johnson, then and now at University of Illinois, Computer
Science Department
– Dr. John Vlissides, then a researcher at IBM
• Thomas J. Watson Research Center
• See John's WikiWiki tribute page http://c2.com/cgi/wiki?JohnVlissides
5. Object-Oriented Design Patterns
This book defined 23 patterns in three categories
– Creational patterns deal with the process of object creation
– Structural patterns, deal primarily with the static composition and
structure of classes and objects
– Behavioral patterns, which deal primarily with dynamic interaction
among classes and objects
6. Documenting Discovered Patterns
Many other patterns have been introduced
documented
– For example, the book Data Access Patterns by Clifton
Nock introduces 4 decoupling patterns, 5 resource patterns,
5 I/O patterns, 7 cache patterns, and 4 concurrency patterns.
– Other pattern languages include telecommunications
patterns, pedagogical patterns, analysis patterns
– Patterns are mined at places like Patterns Conferences
7. ChiliPLoP
Recent patterns books work shopped at
ChiliPLoP, Wickenburg and Carefree Arizona
– Patterns of Enterprise Application Arhitecture Martin Fowler
– Patterns of Fault Tolerant Software, Bob Hamner
– Patterns in XML Fabio Arciniegas
– Patterns of Adopting Agile Development Practices Amr
Elssamadisy
– 2010: Patterns of Parallel Programming, Ralph Johnson
• 16 patterns and one Pattern Language work shopped
9. Why Study Patterns?
Reuse tried, proven solutions
– Provides a head start
– Avoids gotchas later (unanticipated things)
– No need to reinvent the wheel
Establish common terminology
– Design patterns provide a common point of reference
– Easier to say, “We could use Strategy here.”
Provide a higher level prospective
– Frees us from dealing with the details too early
10. Other advantages
Most design patterns make software more
modifiable, less brittle
– we are using time tested solutions
Using design patterns makes software systems
easier to change—more maintainable
Helps increase the understanding of basic object-
oriented design principles
– encapsulation, inheritance, interfaces, polymorphism
11. Style for Describing Patterns
We will use this structure:
– Pattern name
– Recurring problem: what problem the pattern
addresses
– Solution: the general approach of the pattern
– UML for the pattern
• Participants: a description as a class diagram
– Use Example(s): examples of this pattern, in Java
12. A few OO Design Patterns
Coming up:
– Iterator
• access the elements of an aggregate object
sequentially without exposing its underlying
representation
– Strategy
• A means to define a family of algorithms, encapsulate
each one as an object, and make them interchangeable
– Observer a preview
• One object stores a list of observers that are updated
when the state of the object is changed
14. Pattern: Iterator
Name: Iterator (a.k.a Enumeration)
Recurring Problem: How can you loop over all objects
in any collection. You don’t want to change client code
when the collection changes. Want the same methods
Solution: 1) Have each class implement an interface,
and 2) Have an interface that works with all collections
Consequences: Can change collection class details
without changing code to traverse the collection
15. GoF Version
of Iterator page 257
ListIterator
First()
Next()
IsDone()
CurrentItem()
// A C++ Implementation
ListIterator<Employee> itr = list.iterator();
for(itr.First(); !itr.IsDone(); itr.Next()) {
cout << itr.CurrentItem().toString();
16. Java version of Iterator
interface Iterator
boolean hasNext()
Returns true if the iteration has more elements.
Object next()
Returns the next element in the iteration and updates the iteration to
refer to the next (or have hasNext() return false)
void remove()
Removes the most recently visited element
17. Java’s Iterator interface
// The Client code
List<BankAccount> bank =
new ArrayList<BankAccount>();
bank.add(new BankAccount("One", 0.01) );
// ...
bank.add(new BankAccount("Nine thousand", 9000.00));
String ID = "Two";
Iterator<BankAccount> itr = bank.iterator();
while(itr.hasNext()) {
if(itr.next().getID().equals(searchAcct.getID()))
System.out.println("Found " + ref.getID());
}
18. UML Diagram of Java's
Iterator with a few Collections
<<interface>>
Iterator
hasNext()
next()
<<interface>>
List
iterator(): Iterator
…
Client
Vector
iterator()
Iterator
hasNext()
next()
LinkedList
iterator()
ArrayList
iterator()
http://download.oracle.com/javase/6/docs/api/java/util/List.html
20. The Decorator Pattern from GoF
Intent
– Attach additional responsibilities to an object dynamically.
Decorators provide a flexible alternative to sub classing to
extend flexibility
Also Known As Wrapper
Motivation
– Want to add properties to an existing object.
2 Examples
• Add borders or scrollbars to a GUI component
• Add stream functionality such as reading a line of input or
compressing a file before sending it over the wire
21. Applicability
Use Decorator
– To add responsibilities to individual objects
dynamically without affecting other objects
– When extending classes is impractical
• Sometimes a large number of independent extensions
are possible and would produce an explosion of
subclasses to support every combination (this
inheritance approach is on the next few slides)
22. An Application
Suppose there is a TextView GUI component
and you want to add different kinds of borders
and/or scrollbars to it
You can add 3 types of borders
– Plain, 3D, Fancy
and 1 or 2 two scrollbars
– Horizontal and Vertical
An inheritance solution requires15 classes for
one view
23. That’s a lot of classes!
1.TextView_Plain
2.TextView_Fancy
3.TextView_3D
4.TextView_Horizontal
5.TextView_Vertical
6.TextView_Horizontal_Vertical
7.TextView_Plain_Horizontal
8.TextView_Plain_Vertical
9.TextView_Plain_Horizontal_Vertical
10.TextView_3D_Horizontal
11.TextView_3D_Vertical
12.TextView_3D_Horizontal_Vertical
13.TextView_Fancy_Horizontal
14.TextView_Fancy_Vertical
15.TextView_Fancy_Horizontal_Vertical
24. Disadvantages
Inheritance solution has an explosion of classes
If another view were added such as StreamedVideoView,
double the number of Borders/Scrollbar classes
Solution to this explosion of classes?
– Use the Decorator Pattern instead
27. JScrollPane
Any Component such as Container, JList,
Panel can be decorated with a JScrollPane
The next slide shows how to decorate a JPanel
with a JScrollPane
28. Decorate a JPanel
JScrollPane scrollPane = new JScrollPane(toStringView);
add(scrollPane); // Add to a JFrame or another panel
29. Motivation Continued
The more flexible containment approach encloses the
component in another object that adds the border
The enclosing object is called the decorator
The decorator conforms to the interface of the
component so its presence is transparent to clients
The decorator forwards requests to the component and
may perform additional actions before or after any
forwarding
30. Decorator Design: Java Streams
InputStreamReader(InputStream in) System.in is an InputStream object
– ... bridge from byte streams to character streams: It reads bytes
and translates them into characters using the specified character
encoding. JavaTMAPI
BufferedReader
– Read text from a character-input stream, buffering characters so as
to provide for the efficient reading of characters, arrays, and lines.
JavaTMAPI
What we had to do for console input before Java 1.5’s Scanner
BufferedReader keyboard =
new BufferedReader(new
InputStreamReader(System.in));
31. BufferedReader
readLine() // add a useful method
InputStreamReader
read() // 1 byte at a time
close()
Decorator pattern in the real world
BufferedReader decorates InputStreamReader
Still needed to parse integers, doubles, or words
32. Java streams
With > 60 streams in Java, you can create a wide
variety of input and output streams
– this provides flexibility good
• it also adds complexity
– Flexibility made possible with inheritance and classes
that accept classes that extend the parameter type
33. Another Decorator Example
We decorated a FileInputStream with an
ObjectInputStream to read objects that
implement Serializable
– and we used FileOutputStream with
ObjectOutputStream
– then we were able to use nice methods like these two
read and write large complex objects on the file system:
outFile.writeObject(list);
// and later on …
list = (ArrayList<String>)inFile.readObject();
34. Another Decorator Example
Read a plain text file and compress it using the
GZIP format ZIP.java
Read a compress file in the GZIP format and write
it to a plain text file UNGZIP.java
Sample text iliad10.txt from Project Gutenberg
bytes
875,736 iliad10.txt bytes
305,152 iliad10.gz
875,736 TheIliadByHomer
(after code on next slide)
35. // Open the input file
String inFilename = "iliad10.txt";
FileInputStream input = new FileInputStream(inFilename);
// Open the output file
String outFilename = "iliad10.gz";
GZIPOutputStream out = new GZIPOutputStream(
new FileOutputStream(outFilename));
// Transfer bytes from output file to compressed file
byte[] buf = new byte[1024];
int len;
while ((len = input.read(buf)) > 0) {
out.write(buf, 0, len);
}
// Close the file and stream
input.close();
out.close();
36. // Open the gzip file
String inFilename = "iliad10.gz";
GZIPInputStream gzipInputStream =
new GZIPInputStream(new FileInputStream(inFilename));
// Open the output file
String outFilename = "TheIliadByHomer";
OutputStream out = new FileOutputStream(outFilename);
// Transfer bytes from compressed file to output file
byte[] buf = new byte[1024];
int len;
while ((len = gzipInputStream.read(buf)) > 0) {
out.write(buf, 0, len);
}
// Close the file and stream
gzipInputStream.close();
out.close();
38. Summary
Decorators are very flexible alternative of
inheritance
Decorators enhance (or in some cases restrict)
the functionality of decorated objects
They work dynamically to extend class
responsibilities, even inheritance does some but
in a static fashion at compile time
40. Pattern: Strategy
Name: Strategy (a.k.a Policy)
Problem: You want to encapsulate a family of
algorithms and make them interchangeable.
Strategy lets the algorithm vary independently
from the clients that use it (GoF)
Solution: Create an abstract strategy class (or
interface) and extend (or implement) it in
numerous ways. Each subclass defines the
same method names in different ways
41. Design Pattern: Strategy
Consequences:
– Allows families of algorithms
Known uses:
– Critters seen in section for Rick’s 127B / 227
– Layout managers in Java
– Different Poker Strategies in a 335 Project
– Different PacMan chase strategies in a 335 Project
– Different Jukebox policies that can be
42. Java Example of Strategy
this.setLayout(new FlowLayout());
this.setLayout(new GridLayout());
In Java, a container HAS-A layout manager
– There is a default
– You can change a container's layout manager with
a setLayout message
43. Change the stategy at runtime
Demonstrate LayoutControllerFrame.java
private class FlowListener
implements ActionListener {
// There is another ActionListener for GridLayout
public void actionPerformed(ActionEvent evt) {
// Change the layout strategy of the JPanel
// and tell it to lay itself out
centerPanel.setLayout(new FlowLayout());
centerPanel.validate();
}
}
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44. interface LayoutManager
– Java has interface java.awt.LayoutManager
– Known Implementing Classes
• GridLayout, FlowLayout, ScrollPaneLayout
– Each class implements the following methods
addLayoutComponent(String name, Component comp)
layoutContainer(Container parent)
minimumLayoutSize(Container parent)
preferredLayoutSize(Container parent)
removeLayoutComponent(Component comp)
45. UML Diagram of Strategy
General Form
Context
strategy: Strategy
setStrategy(Strategy)
…
<<interface>>
Strategy
AlgorithmInterface
ConcreteClassA
AlgorithmInterface
ConcreteClassB
AlgorithmInterface
ConcreteClassC
AlgorithmInterface
implements
47. Another Example
– Pac Man GhostChasesPacMan strategies in 2001
– Level 1: random
– Level 2: a bit smarter
– Level 3: use a shortest path algorithm
http://www.martystepp.com/applets/pacman/
– Could be interface ChaseStategy is in the Ghost class
interface ChaseStategy {
public Point nextPointToMoveTo();
}
– and Ghost has setChaseStrategy(new ShortestPath())
48. The Observer Design Pattern
Name: Observer
Problem: Need to notify a changing number of
objects that something has changed
Solution: Define a one-to-many dependency
between objects so that when one object
changes state, all its dependents are notified
and updated automatically
49. Examples
From Heads-First: Send a newspaper to all who
subscribe
– People add and drop subscriptions, when a new
version comes out, it goes to all currently described
Spreadsheet
– Demo: Draw two charts—two views--with some
changing numbers--the model
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50. Examples
File Explorer (or Finders) are registered
observers (the view) of the file system (the
model).
Demo: Open several finders to view file system
and delete a file
Later in Java: We'll have two views of the same
model that get an update message whenever the
state of the model has changed
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