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[[Category:OOP]]
+
[[Category:IAM Classes]]
 
==This keyword==
 
==This keyword==
  
 
The this keyword used within a class refers to the current instance of the class
 
The this keyword used within a class refers to the current instance of the class
  
<csharp>public Time( int CurrentYear, int CurrentDay)
+
<syntaxhighlight lang="csharp">public Time( int CurrentYear, int CurrentDay)
 
{
 
{
 
  this.Year = CurrentYear;
 
  this.Year = CurrentYear;
 
  this.Day = CurrentDay;
 
  this.Day = CurrentDay;
}</csharp>
+
}</syntaxhighlight>
  
  
  
==Properties Private instance data members - accessors==
+
==What is UML==
Micorsoft has stared calling private varables with accessors Properties
+
;UML : Unified Modeling Language.
 +
:"A modeling language is a language whose vocabulary and rules focus on the conceptual and physical representation of a system"
 +
The Unified Modeling Language User Guide, Booch Rumbaugh Jacobson
 +
ACM Press, Addison Wesley 1999 ISBN 0201571684
 +
[http://www.amazon.com/gp/product/0201571684/104-7742183-3467114?v=glance&n=283155 The Unified Modeling Language User Guide]
 +
==Simple Notation==
 +
Class notation in UML
  
Private class memebers the use get and set keyword to set and retrieve data. Get and set are known as accessor methods private members are helpfull when you want to also do other things when a data member is changed or change the rutern value under certian conditions. C# Programmer's Reference - Accessors http://msdn.microsoft.com/library/default.asp?url=/library/en-us/csref/html/vclrfaccessorspg.asp. Lastly accessor also make read only and write only variables possible
+
The name of the Class should go inside of a box
  
<csharp>//private string color read/write
+
{| align="center" cellspacing="0" style="border:2px solid black;"
private string color;
+
|Class Name
 +
|}
  
public string Color
 
{
 
  get
 
  {
 
  return color;
 
  }
 
  set
 
  {
 
  color = value;
 
  }
 
}
 
  
//private string color read only
+
Then Two lines are added. The first line separates Attributes. The second line separates Operations.
private string color;
+
Attributes are the equivalent of fields or properties in c# and Operations are the same as methods.
 +
 
 +
{|  align="center" border = 0
 +
|
 +
 
 +
{|  cellspacing="0" style="border:2px solid black;"
 +
|Class Name
 +
|-
 +
| style="border-Top:2px solid black;" |&nbsp;
 +
|-
 +
| style="border-Top:2px solid black;" |&nbsp;
 +
|}
 +
 
 +
|
 +
 
 +
{| align="center" cellspacing="0" Border = 0
 +
| <--'''Class Name'''
 +
|-
 +
|  <--'''Attributes'''
 +
|-
 +
| <--'''Opertaions'''
 +
|}
 +
 
 +
|}
 +
 
 +
 
 +
A Rectagle Class might look like this
 +
 
 +
{|  align="center" cellspacing="0" style="border:2px solid black;"
 +
|Rectangle
 +
|-
 +
| style="border-Top:2px solid black;" | height
 +
|-
 +
| width
 +
|-
 +
| style="border-Top:2px solid black;" | area()
 +
|-
 +
| add()
 +
|-
 +
| move()
 +
|-
 +
| copy()
 +
|-
 +
| isEmpty()
 +
|}
 +
 
 +
You can also specify Attribute types with a :
  
public string Color
+
{|  align="center" cellspacing="0" style="border:2px solid black;"
{
+
|Rectangle
  get
+
|-
  {
+
| style="border-Top:2px solid black;" | height : Float
  return color;
+
|-
  }
+
| width : Float
}</csharp>
+
|-
 +
| style="border-Top:2px solid black;" | area()
 +
|-
 +
| add()
 +
|-
 +
| move()
 +
|-
 +
| copy()
 +
|-
 +
| isEmpty()
 +
|}
  
 +
Default vlaues are specified with =
  
Another property that is a good candidate for a private instance data member is the dogs age
+
{|  align="center" cellspacing="0" style="border:2px solid black;"
 +
|Rectangle
 +
|-
 +
| style="border-Top:2px solid black;" | height : Float = 6.0
 +
|-
 +
| width : Float = 4.0
 +
|-
 +
| style="border-Top:2px solid black;" | area()
 +
|-
 +
| add()
 +
|-
 +
| move()
 +
|-
 +
| copy()
 +
|-
 +
| isEmpty()
 +
|}
  
<csharp>
 
private string age;
 
  
public string Age
+
Operator return type are also specifed with a :. Opertor parameter signatures are specified by ( '''name''' : '''Type''' )
{
 
  //age can only be accessed with get there is no set accessor
 
  //age must be set with HappyBirthday()
 
  get
 
  {
 
  return Age;
 
  }
 
}
 
  
Public int HappyBirthday()
+
{|  align="center" cellspacing="0" style="border:2px solid black;"
{
+
|Rectangle
  age++;
+
|-
  return age;
+
| style="border-Top:2px solid black;" | height : Float = 6.0
}
+
|-
 +
| width : Float = 4.0
 +
|-
 +
| style="border-Top:2px solid black;" | area() : Float
 +
|-
 +
| add()(r:Rectangle)
 +
|-
 +
| move()
 +
|-
 +
| copy() :Rectangle
 +
|-
 +
| isEmpty() : Boolean = true
 +
|}
  
 +
==UML Resources==
 +
[http://www.gnome.org/projects/dia/ Dia A Drawing Program]
  
</csharp>
+
[http://dia-installer.sourceforge.net/ Dia for windows]
  
 +
[http://iam.colum.edu/oop/browser/browser.aspx?f=/classsource/class6/DiagramDog Dog Diagrams with Dia]
  
Here's a class of dogs that return differnt color depending on whether on not they are clean. It uses private private instance data memebrs and the this keyword
+
==access-modifiers==
 +
public +
 +
:most permissive access. No restrictions on access
 +
private -
 +
:least permissive access level. Only available to the class in which it was declared
  
<csharp>//Accessor for private color allow color to be set and return color or 'dirty' + color
+
Public Dog
    public string Color
+
[[Image:DogSimpleUML.png]]
    {
 
        get
 
        {
 
            //if current dog isClean the return dogs color
 
            if (this.isClean == true)
 
            {
 
                return color;
 
            }
 
            //else return 'dirty' and the dogs color
 
            else {
 
                return "dirty " + color;
 
            }
 
        }
 
        set
 
        {
 
          color = value;
 
        }
 
    }</csharp>
 
  
console /infod/jeff/classSource/class4/dogAccessor.cs - source
+
Dog with private age
web /infod/jeff/classSource/class4/dogAccessor.aspx - source
+
[[Image:DogsimpleAgePrivate.png]]
  
Dog private members, Overloaded with method class definition
+
==Dog Examples==
 +
Simple Dog Class from week 5 [http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class6/DiagramDog/DogSimple.cs DogSimple.cs - source]<br />
 +
[[Image:DogSimple.png]]
 +
<syntaxhighlight lang="csharp">using System;
  
<csharp>//Dog private members, Overloaded  with method class definition
+
//Dog simple class definition
 
public class Dog
 
public class Dog
 
{
 
{
  private string name; // the dog's name
+
  public string Name; // the dog's name
private int age; // the dog's age
+
public int Age; // the dog's age
private int weight; // the dog's weight
+
public int Weight; // the dog's weight
private string barkSound; // the sound of the dog's bark
+
public string BarkSound; // the sound of the dog's bark
private int barkCount; // how many times the dog has barked
 
 
 
 
public Dog()
 
public Dog()
 
{
 
{
barkSound = "Woof!!!";
+
BarkSound = "Woof!!!";
}
 
public Dog(string newName)
 
{
 
name = newName;
 
barkSound = "Woof!!!";
 
}
 
public Dog(string newName, string newBarkSound )
 
{
 
name = newName;
 
barkSound = newBarkSound;
 
}
 
 
 
public string Name
 
{
 
get
 
{
 
return name;
 
}
 
set
 
{
 
name = value;
 
}
 
}
 
public int Age
 
{
 
get
 
{
 
return age;
 
}
 
set
 
{
 
age = value;
 
}
 
}
 
public int Weight
 
{
 
get
 
{
 
return weight;
 
}
 
set
 
{
 
weight = value;
 
}
 
}
 
public string BarkSound
 
{
 
get
 
{
 
return barkSound;
 
}
 
set
 
{
 
barkSound = value;
 
}
 
}
 
public int BarkCount //you can't set bark count
 
//it only increments from the Bark() method
 
{
 
get
 
{
 
return barkCount;
 
}
 
}
 
   
 
    public string About()
 
{
 
//return a string with some information about the dog
 
        string about = "";
 
//this refers to current object
 
about +=("\nThe dogs name is " + this.name + ".");
 
about +=("\nIt is " + this.age + " years old.");
 
about +=("\nIt weighs " + this.weight + " lb(s).");
 
about +=("\nIts bark sounds like '" + this.barkSound + "'");
 
about +=("\nIt has barked " + this.barkCount + " time(s)" );
 
        about += about.Replace("\n","
 
");
 
        return about;
 
 
}
 
}
  
 
public void Bark() {  
 
public void Bark() {  
//make dog bark
+
//put bark code here
Console.WriteLine (this.Name + " says " + this.barkSound);
 
//add 1 to the number of times the dog has barked
 
this.barkCount++ ;
 
 
}
 
}
 
public void Eat() {
 
public void Eat() {
 
//put eat code here  
 
//put eat code here  
 
}
 
}
}</csharp>
+
}</syntaxhighlight>
  
console
 
  
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class4/dogOverloadMethodScoped.cs dogOverloadMethodScoped.cs]
+
Dog UML with Types
  
 
+
Dog Class with Types from week 4 [http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class6/DiagramDog/DogWithTypes.cs DogWithTypes.cs - source]<br /><br />
Real barking dogs...
+
[[Image:DogWithTypes.png]]
 
+
<syntaxhighlight lang="csharp">using System;
[http://iam.colum.edu/oop/browser/browser.aspx?f=/classsource/class4/DogBark DogBark]
+
   
 
+
//Dog simple class definition
an example of how you don't need to know how all of the classes work just how to use them
+
public class Dog
 
 
==In Class Project==
 
In class build traingle class.
 
Properties
 
 
 
* sideA
 
* sideB
 
* sideC
 
 
 
Methods
 
 
 
* Area //A method that reurn the area of the triangle
 
 
 
      use Heronian formula which is able to compute the area of a triange by knowing the length of the three sides.
 
      triangle area given a,b,c = sqrt(s(s-a)(s-b)(s-c)) when s = (a+b+c)/2 (Heron's formula)
 
 
 
<csharp>// Heronian formula
 
double s = (a + b + c) / 2.0;
 
double dArea = Math.Sqrt(s*(s-a)*(s-b)*(s-c));
 
</csharp>
 
 
 
Once you have built the triangle class build a class to test it.
 
The test class should create a triangle with
 
  sideA= 3
 
sideB= 4
 
sideC= 5
 
 
 
and then display the area as text in the console.
 
 
 
http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class4/tri_class.cs tri_class.cs]
 
 
 
=Class Relationship=
 
 
 
Look a classes from homework.
 
 
 
Discuss TV and Radio class
 
 
 
More objects
 
 
 
 
 
 
 
==Shared Members - static members==
 
aka Shared Properties
 
 
 
Static - A type of member modifier that indicates that the member applies to the type rather than an instance of the type
 
 
 
<csharp>public class Dog
 
 
{
 
{
//some code
+
public string Name; // the dog's name
 
+
private int age; // the dog's age
static private int dogCount; // total number of dogs
+
public int Weight; // the dog's weight
 
+
public string BarkSound; // the sound of the dog's bark
 +
private int barkCount;   //The number of time the dog has barked
 
public Dog()
 
public Dog()
 
{
 
{
barkSound = "Woof!!!";
+
BarkSound = "Woof!!!";
//Add a dog to the total dog count
+
}
dogCount++;
+
 +
public string Bark() {
 +
string strBark = this.BarkSound;
 +
        barkCount ++;
 +
        return strBark;
 +
}
 +
   
 +
public void Eat() {
 +
//put eat code here
 
}
 
}
public Dog(string newName)
+
}</syntaxhighlight>
{
 
name = newName;
 
barkSound = "Woof!!!";
 
//Add a dog to the total dog count
 
dogCount++;
 
}</csharp>
 
 
 
Static dougCount Example <br />
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/dogStatic.cs dogStatic.cs] - source
 
  
 
==Class Relationships==
 
==Class Relationships==
 
Four Class Relation ships
 
Four Class Relation ships
  
* Association - 'Uses A'
+
* Association - ''Uses A'' [[OOP Class6]]
* Containment - 'Has A'
+
* Containment - ''Has A'' [[OOP Class6]]
* Inheritance - 'Is A'
+
* Inheritance - ''Is A''  
* Interfaces - implements or derives from We'll do this next week in [[OOP Class6]]
+
* Interfaces - '''implements or derives from''' We'll do this next week in [[OOP Class7]]
  
==Association - 'Uses A'==
+
==Inheritance - 'Is A'==
  
A dog uses a hydrant to relieve them self.
+
[http://ia300033.us.archive.org/1/items/arsdigitac04n03/Lecture_03.html ArsDigita University Course 04: Object-oriented Program Design and Software Engineering - Lecture Notes 3]
  
<csharp>//Dog simple class definition
+
C# supports single class inheritance only. Therefore, you can specify only one base class to inherit from.
public class Dog
 
{
 
    //some dog code...
 
   
 
    public void Relieve(Hydrant h)
 
    {
 
    h.Clean = false;
 
    }
 
}   
 
  
public class Hydrant
+
'''Sub''' class
{
+
: a Sub class is a class that inherits properties and methods from another class. The class that sub class inherits from id the '''Super''' class
  public string Color; //the color of the hydrant
+
'''Super''' class
  public bool Clean;  //if the hydrant is clean or dirty
+
: a Super class that has other classes that inherit from it.
 
 
  public Hydrant()
 
  {
 
    Color = "red";
 
    Clean = true;
 
  }
 
 
 
  public override string ToString ()
 
  {
 
    if (this.Clean == true)
 
    {
 
    return ("The " + this.Color + " hydrant is clean.");
 
    }
 
    else
 
    {
 
    return ("The " + this.Color + " hydrant is not clean.");
 
    }
 
  }
 
}</csharp>
 
  
Dog Association example
+
[[Image:DogInheritance.png|frame|right|caption|The Mammal/Dog/Basengi inheritance relationship]]
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/DogHydrant.cs DogHydrant.cs] - source
 
  
==Containment - 'Has A'==
+
A '''Basenji''' is an African barkless dog.
A dog has an owner
 
  
 +
A '''Basenji''' ''is a'' '''Dog'''.
  
<csharp>Dog fido = new Dog("fido");
+
A '''Dog''' ''is a'' '''Mammal'''.
fido.Owner = new Person("Sue");</csharp>
 
  
<csharp>//Dog simple class definition
+
In this case the '''Mammal''' class is the '''Super''' class to the '''Dog'''.
public class Dog
 
{
 
    public string Name;        // the dog's name
 
    public string BarkSound;    // the sound of the dog's bark
 
    public Person Owner;    // the dogs owner
 
   
 
    public Dog(string dogName)
 
    {
 
        Name = dogName;
 
        BarkSound = "Woof!!!";
 
    }
 
  
    public string Bark() {
+
The '''Basenji''' is the '''Sub''' class to the '''Dog''' class.
        string s;
 
        s = this.Name + " says " + this.BarkSound;
 
        //Make sure the the dog has an owner
 
        if (!(this.Owner == null))
 
          s += "\n" + Owner.Name + " says be quiet.";
 
        return s;
 
    }
 
}   
 
  
public class Person
+
Here is how you would draw this with UML.
  {
 
    public string Name;      //the color of the hydrant
 
   
 
    public Person(string newName)
 
    {
 
      Name = newName;
 
    }
 
  }</csharp>
 
  
 +
Lets start with the Dog/Basenji Relationship
  
Containment example<br>
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/DogOwner.cs DogOwner.cs] -source
 
 
==Inheritance - 'Is A'==
 
 
[http://ia300033.us.archive.org/1/items/arsdigitac04n03/Lecture_03.html ArsDigita University Course 04: Object-oriented Program Design and Software Engineering - Lecture Notes 3]
 
 
C# supports single class inheritance only. Therefore, you can specify only one base class to inherit from.
 
 
A Basenji is an African barkless dog.
 
A Basenji is a dog.
 
 
syntax
 
syntax
  
<csharp>public class Basenji : Dog
+
<syntaxhighlight lang="csharp">public class Basenji : Dog
 
{
 
{
 
     //override constructor
 
     //override constructor
Line 410: Line 276:
 
         this.barkCount++ ;
 
         this.barkCount++ ;
 
     }
 
     }
}</csharp>
+
}</syntaxhighlight>
  
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/Basenji.cs Basenji.cs] -source
+
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/BasenjiInhertance.cs BasenjiInhertance.cs] -source
  
 
==Virtual Functions==
 
==Virtual Functions==
  
 
A class modifier that indicates that a method can be overridden by a derived class.
 
A class modifier that indicates that a method can be overridden by a derived class.
We will look at virtual function when we look at abstract classes
+
 
 +
By marking a function as '''virtual''' any class a class that sub classes the current class can '''override''' the function
  
 
==Abstract Classes==
 
==Abstract Classes==
 
  abstract - A class modifier that specifies that the class must be derived from to be instantiated.
 
  abstract - A class modifier that specifies that the class must be derived from to be instantiated.
  
<csharp>abstract public class Mammal
+
<syntaxhighlight lang="csharp">abstract public class Mammal
 
{
 
{
private string birth;
+
public string Birth;
private string skin;
+
public string Skin;
  
 
public Mammal()
 
public Mammal()
 
{
 
{
birth = " gives birth to live young.";
+
Birth = " gives birth to live young.";
skin = " has Hair.";
+
Skin = " has Hair.";
 
}
 
}
 +
}</syntaxhighlight>
  
public string Birth
+
Inheritance example /infod/jeff/classSource/class5/DogMammalInhertance.cs -source
{
+
 
get
+
===Polymorphic Types===
{
 
return birth;
 
}
 
}
 
public string Skin
 
{
 
get
 
{
 
return skin;
 
}
 
}
 
}</csharp>
 
  
Inheritance example /infod/jeff/classSource/class5/DogMammal.cs -source
+
;Polymorphism: poly means 'many' morph means 'form'. So a polymorphic type is many forms that have the same attributes and abilities
  
===Polymorphic Types===
 
 
[http://en.wikipedia.org/wiki/Polymorphism_%28computer_science%29 Polymorphism (computer science)]
 
[http://en.wikipedia.org/wiki/Polymorphism_%28computer_science%29 Polymorphism (computer science)]
Different types implementing the same functionality.<br>
+
 
 +
Different types implementing the same functionality.
 +
 
 
[http://www.webopedia.com/TERM/p/polymorphism.html  polymorphism webopedia]
 
[http://www.webopedia.com/TERM/p/polymorphism.html  polymorphism webopedia]
 +
 
The C# Station Tutorial - [http://www.csharp-station.com/Tutorials/Lesson09.aspx Lesson 9: Polymorphism]
 
The C# Station Tutorial - [http://www.csharp-station.com/Tutorials/Lesson09.aspx Lesson 9: Polymorphism]
  
<csharp>abstract public class Mammal
+
<syntaxhighlight lang="csharp">//Mammal class definition is it abstract
 +
abstract public class Mammal
 
{
 
{
private string name;
+
public string Name;
private string birth;
+
public string Brith;
private string skin;
+
public string Skin;
  
 
public Mammal()
 
public Mammal()
 
{
 
{
name = "none";
+
Name = "none";
birth = " gives birth to live young.";
+
Brith = " gives Brith to live young.";
skin = " has Hair.";
+
Skin = " has Hair.";
 
}
 
}
 +
 
 
 
public Mammal(string newName)
 
public Mammal(string newName)
 
{
 
{
name = newName;
+
Name = newName;
birth = " gives birth to live young.";
+
Brith = " gives Brith to live young.";
skin = " has Hair.";
+
Skin = " has Hair.";
 
}
 
}
  
public string Birth
 
{
 
get
 
{
 
return birth;
 
}
 
}
 
public string Skin
 
{
 
get
 
{
 
return skin;
 
}
 
}
 
public string Name
 
{
 
get
 
{
 
return name;
 
}
 
set
 
{
 
name = value;
 
}
 
}
 
 
public virtual void Bark()
 
public virtual void Bark()
 
{
 
{
 
Console.WriteLine("Some Mammals Bark.");
 
Console.WriteLine("Some Mammals Bark.");
 
}
 
}
 +
 
}
 
}
  
 +
//Dog simple class definition
 
public class Dog : Mammal
 
public class Dog : Mammal
 
{
 
{
Line 527: Line 364:
 
}
 
}
  
 +
//a basengi is a barkless dog
 
public class Basenji : Dog
 
public class Basenji : Dog
 
{
 
{
Line 540: Line 378:
 
Console.WriteLine("\nBasenjis dont bark.");
 
Console.WriteLine("\nBasenjis dont bark.");
 
}
 
}
    // some more code....
+
}</csharp>
+
// some more code....
 +
}
 +
 
 +
}</syntaxhighlight>
  
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/DogPoly.cs DogPoly.cs] -source
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/DogPoly.cs DogPoly.cs] -source
 
==Structs==
 
- remember these from week 2
 
 
Lightweight alternatives to classes. Structs do not support inheritance or destructors. Structs are value typed objects similar to ints bool etc... while classes are refence types. Structs are more memory efficient and and faster than classes.
 
Syntax
 
 
[ attributes] [access-modifiers] struct identifier
 
[:interface-list {struct members}
 
 
<csharp>struct Dog
 
{
 
public string name;
 
public string weight;
 
public int age;
 
}</csharp>
 
 
This is a pretty lightweight dog and is pretty useless as a dog (It's can't even bark what fun is that) so I won't make an example.
 
 
A good example of a stuct would be and something like a point. There may be many many points in a structure or graph and we would want the points
 
to be a lightweight as possible. Since the point object won't have an methods this is a good time to use a struct.
 
 
<csharp>struct Point
 
{
 
    public int x;
 
    public int y;
 
 
    public Point(int x, int y)
 
    {
 
        this.x = x;
 
        this.y = y;
 
    }
 
 
    public Point Add(Point pt)
 
    {
 
        Point newPt;
 
 
        newPt.x = x + pt.x;
 
        newPt.y = y + pt.y;
 
 
        return newPt;
 
    }
 
}</csharp>
 
 
==Operator Overloading==
 
 
You can overload operator in c# just like you overload constuctors
 
 
    * Operator Overloading In C# - www.csharphelp.com
 
    * Operator Overloading in C# - HowToDoThings.com
 
 
<csharp>//Overloading unary operators
 
public static return_type operator op (Type t)
 
{
 
  // Statements
 
}
 
 
//Overloading binary operators
 
public static ClassType operator + ( object lhs, object rhs )
 
{
 
ClassType c
 
//code to implement class addition
 
return c;
 
}</csharp>
 
 
dog addition? extra credit
 
 
How could you overload + operator so that it returns a new dog when two dogs are added together...
 
 
 
==Operator Overloading==
 
 
<csharp>public static ClassType operator + ( object lhs, object rhs )
 
{
 
    ClassType c
 
    //code to implement class addition
 
    return c;
 
}</csharp>
 
 
Operator also refer to implicit and explicit conversions. Fractions make a good example for opertor overloading.
 
Fraction class
 
 
    * Create fractions from two numbers x/y or from whole numbers
 
    * Convert fractions to wholenumbers int
 
    * Convert fractions to float or double
 
    * OverRide ToString to decribe Fraction
 
 
 
Fraction Class Example of operator overloading.<br />
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/fractionConv.cs fractionConv.cs] - source<br />
 
Fraction class with implicit and explicit conversion<br />
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/fractionConv_NoTest.cs fractionConv_NoTest.cs] - source<br />
 
Fraction class with overridden operators<br />
 
[http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/fractionConvOver.cs fractionConvOver.cs] - source<br />
 
 
In class build a test application does thigs with frations.<br />
 
Using <br />
 
 
http://iam.colum.edu/oop/gbrowser.php?file=/classsource/class5/fractionConv_NoTest.cs fractionDone_NoTest.cs] create a test class that...
 
 
* Creates a fraction out of integers (ie cast int into fractions)
 
* Adds, subtracts, and reduces some fractions
 
* Creates floting point numbers out of fractions (is cast fraction into double)
 
* Checks the eqaulity of some fractions
 
  
 
==HomeWork==
 
==HomeWork==
Line 654: Line 391:
 
#Chapter 11 Inheritance and Polymorphism p 134-154
 
#Chapter 11 Inheritance and Polymorphism p 134-154
 
#Chpater 12 Operator Overloading p 155 - 172
 
#Chpater 12 Operator Overloading p 155 - 172
#chapter 13 Structs p 172 - 177 (relax its only 54 pages total)
 
  
 
'''DO'''
 
'''DO'''
 +
Create a super class and a sub class for your class.<br />
  
Extend the class that you worked on last week.<br />
+
http://iam.colum.edu/oop/classsource/class5/ConsoleApplicationInClass.zip
Demonstrate Inhertance 'Is A' with your class.<br />
 
*Make a class the subclasses  or superclasses your previous class.
 
 
 
Demonstrate
 
*Containment 'Has A'
 
**Make a class that contains or is contained by your old class
 
*Association - 'Uses A'
 
**Make a class that uses your original class
 
 
 
Thy to build a class that superclass you old tv and radio classes. Use inheritance to simplify your implementaion.
 
 
 
  
Quiz 2 next week
+
New One
 +
http://iam.colum.edu/oop/classsource/class5/ConsoleApplicationInClass5.zip
  
 
==Links==
 
==Links==

Latest revision as of 16:30, 10 June 2019

This keyword

The this keyword used within a class refers to the current instance of the class 

public Time( int CurrentYear, int CurrentDay)
{
 this.Year = CurrentYear;
 this.Day = CurrentDay;
}


What is UML

UML 
Unified Modeling Language.
"A modeling language is a language whose vocabulary and rules focus on the conceptual and physical representation of a system"

The Unified Modeling Language User Guide, Booch Rumbaugh Jacobson ACM Press, Addison Wesley 1999 ISBN 0201571684 The Unified Modeling Language User Guide

Simple Notation

Class notation in UML

The name of the Class should go inside of a box

Class Name


Then Two lines are added. The first line separates Attributes. The second line separates Operations. Attributes are the equivalent of fields or properties in c# and Operations are the same as methods.

Class Name
 
 
<--Class Name
<--Attributes
<--Opertaions


A Rectagle Class might look like this

Rectangle
height
width
area()
add()
move()
copy()
isEmpty()

You can also specify Attribute types with a :

Rectangle
height : Float
width : Float
area()
add()
move()
copy()
isEmpty()

Default vlaues are specified with =

Rectangle
height : Float = 6.0
width : Float = 4.0
area()
add()
move()
copy()
isEmpty()


Operator return type are also specifed with a :. Opertor parameter signatures are specified by ( name : Type )

Rectangle
height : Float = 6.0
width : Float = 4.0
area() : Float
add()(r:Rectangle)
move()
copy() :Rectangle
isEmpty() : Boolean = true

UML Resources

Dia A Drawing Program

Dia for windows

Dog Diagrams with Dia

access-modifiers

public +

most permissive access. No restrictions on access

private -

least permissive access level. Only available to the class in which it was declared

Public Dog DogSimpleUML.png

Dog with private age DogsimpleAgePrivate.png

Dog Examples

Simple Dog Class from week 5 DogSimple.cs - source
DogSimple.png 

using System;

//Dog simple class definition
public class Dog
{
 	public string Name;		// the dog's name
	public int Age;			// the dog's age
	public int Weight;			// the dog's weight
	public string BarkSound;	// the sound of the dog's bark
	
	public Dog()
	{
		BarkSound = "Woof!!!";
	}

	public void Bark() { 
		//put bark code here
	}
	public void Eat() {
		//put eat code here 
	}
}


Dog UML with Types

Dog Class with Types from week 4 DogWithTypes.cs - source

DogWithTypes.png 

using System;
 
//Dog simple class definition
public class Dog
{
 	public string Name;		// the dog's name
	private int age;			// the dog's age
	public int Weight;			// the dog's weight
	public string BarkSound;	// the sound of the dog's bark
	private int barkCount;    //The number of time the dog has barked
	public Dog()
	{
		BarkSound = "Woof!!!";
	}
 
	public string Bark() { 
		string strBark = this.BarkSound;
        barkCount ++;
        return strBark;
	}
    
	public void Eat() {
		//put eat code here 
	}
}

Class Relationships

Four Class Relation ships

  • Association - Uses A OOP Class6
  • Containment - Has A OOP Class6
  • Inheritance - Is A
  • Interfaces - implements or derives from We'll do this next week in OOP Class7

Inheritance - 'Is A'

ArsDigita University Course 04: Object-oriented Program Design and Software Engineering - Lecture Notes 3

C# supports single class inheritance only. Therefore, you can specify only one base class to inherit from.

Sub class

a Sub class is a class that inherits properties and methods from another class. The class that sub class inherits from id the Super class

Super class

a Super class that has other classes that inherit from it.
The Mammal/Dog/Basengi inheritance relationship

A Basenji is an African barkless dog.

A Basenji is a Dog.

A Dog is a Mammal.

In this case the Mammal class is the Super class to the Dog.

The Basenji is the Sub class to the Dog class.

Here is how you would draw this with UML.

Lets start with the Dog/Basenji Relationship

syntax 

public class Basenji : Dog
{
    //override constructor
    public Basenji() : base()
    {
        barkSound = "Basenjis don't bark, but they do howl and growl.";
        dogCount++;
    }
    public override void Bark()
    {
        Console.WriteLine("Basenjis dont bark.");
    }
		
		// some more code....
}

public class Dog
{		
	// some dog code...
	//methods need to be marked virtual or protected to be overridden
    public virtual void Bark() 
    { 
        //make dog bark
        Console.WriteLine (this.Name + " says " + this.barkSound);
        //add 1 to the number of times the dog has barked
        this.barkCount++ ;
    }
}

BasenjiInhertance.cs -source

Virtual Functions

A class modifier that indicates that a method can be overridden by a derived class.

By marking a function as virtual any class a class that sub classes the current class can override the function

Abstract Classes

abstract - A class modifier that specifies that the class must be derived from to be instantiated.

abstract public class Mammal
{
	public string Birth;
	public string Skin;

	public Mammal()
	{
		Birth = " gives birth to live young.";
		Skin = " has Hair.";
	}
}

Inheritance example /infod/jeff/classSource/class5/DogMammalInhertance.cs -source

Polymorphic Types

Polymorphism
poly means 'many' morph means 'form'. So a polymorphic type is many forms that have the same attributes and abilities

Polymorphism (computer science)

Different types implementing the same functionality.

polymorphism webopedia

The C# Station Tutorial - Lesson 9: Polymorphism 

//Mammal class definition is it abstract
abstract public class Mammal
{
	public string Name;
	public string Brith;
	public string Skin;

	public Mammal()
	{
		Name = "none";
		Brith = " gives Brith to live young.";
		Skin = " has Hair.";
	}
	
	
	public Mammal(string newName)
	{
		Name = newName;
		Brith = " gives Brith to live young.";
		Skin = " has Hair.";
	}

	public virtual void Bark()
	{
		Console.WriteLine("Some Mammals Bark.");
	}

}

//Dog simple class definition
public class Dog : Mammal
{
	public string BarkSound;	// the sound of the dog's bark
	
	public Dog(string newName)
	{
		Name = newName;
		BarkSound = "Woof!!!";
	}

	public override void Bark() { 
		base.Bark();
		Console.WriteLine(this.Name + " says " + this.BarkSound);
	}
	public void Eat() {
		//put eat code here 
	}
}

//a basengi is a barkless dog
public class Basenji : Dog
{
	//override constructor
	public Basenji(string newName) : base(newName)
	{
		BarkSound = "basenjis don't bark, but they do howl and growl.";
	}
	
	public override void Bark()
	{
		base.Bark();
		Console.WriteLine("\nBasenjis dont bark.");
	}
		
	// some more code....
}	

}

DogPoly.cs -source

HomeWork

READ

  1. Chapter 9 Inside Methods p 111-123
  2. Chapter 11 Inheritance and Polymorphism p 134-154
  3. Chpater 12 Operator Overloading p 155 - 172

DO Create a super class and a sub class for your class.

http://iam.colum.edu/oop/classsource/class5/ConsoleApplicationInClass.zip

New One http://iam.colum.edu/oop/classsource/class5/ConsoleApplicationInClass5.zip

Links

The C# Station Tutorial - Lesson 7: Introduction to Classes
The C# Station Tutorial - Lesson 8: Class Inheritance
The C# Station Tutorial - Lesson 9: Polymorphism
The C# Station Tutorial - Lesson 10: Properties
The C# Station Tutorial - Lesson 12: Structs
The C# Station Tutorial - Lesson 13: Interfaces
The C# Station Tutorial - Lesson 4: C# Fundamentals

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