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Enhancing Classes
 Now we can explore various aspects of classes and
objects in more detail
 Chapter 5 focuses on:
•
•
•
•
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object references and aliases
passing objects references as parameters
the static modifier
wrapper classes
nested classes and inner classes
1
References
 Recall from Chapter 2 that an object reference variable
holds the memory address of an object
 Rather than dealing with arbitrary addresses, we often
depict a reference graphically as a “pointer” to an object
ChessPiece bishop1 = new ChessPiece();
bishop1
2
The null Reference
 An object reference variable that does not currently point
to an object is called a null reference
 The reserved word null can be used to explicitly set a
null reference:
name = null;
or to check to see if a reference is currently null:
if (name == null)
System.out.println ("Invalid");
The null Reference
 An object reference variable declared at the class level
(an instance variable) is automatically initialized to null
 The programmer must carefully ensure that an object
reference variable refers to a valid object before it is used
 Attempting to follow a null reference causes a
NullPointerException to be thrown
 Usually a compiler will check to see if a local variable is
being used without being initialized
The this Reference
 The this reference allows an object to refer to itself
 That is, the this reference, used inside a method, refers
to the object through which the method is being executed
 Suppose the this reference is used in a method called
tryMe
 If tryMe is invoked as follows, the this reference refers
to obj1:
obj1.tryMe();
 But in this case, the this reference refers to obj2:
obj2.tryMe();
The this reference
 The this reference can also be used to distinguish the
parameters of a constructor from the corresponding
instance variables with the same names
public Account (Sring name, long acctNumber,
double balance)
{
this.name = name;
this.acctNumber = acctNumber;
this.balance = balance;
}
Assignment Revisited
 The act of assignment takes a copy of a value and stores
it in a variable
 For primitive types:
num2 = num1;
Before
After
num1
num2
num1
num2
5
12
5
5
7
Reference Assignment
 For object references, assignment copies the memory
location:
bishop2 = bishop1;
Before
bishop1
bishop2
After
bishop1
bishop2
8
Aliases
 Two or more references that refer to the same object are
called aliases of each other
 One object (and its data) can be accessed using different
reference variables
 Aliases can be useful, but should be managed carefully
 Changing the object’s state (its variables) through one
reference changes it for all of its aliases
9
Testing Objects for Equality
 The == operator compares object references for equality,
returning true if the references are aliases of each other
bishop1 == bishop2
 A method called equals is defined for all objects, but
unless we redefine it when we write a class, it has the
same semantics as the == operator
bishop1.equals(bishop2)
 We can redefine the equals method to return true
under whatever conditions we think are appropriate
Garbage Collection
 When an object no longer has any valid references to it, it
can no longer be accessed by the program
 The object is useless, and therefore is called garbage
 Java performs automatic garbage collection periodically,
returning an object's memory to the system for future use
 In other languages, the programmer is responsible for
performing garbage collection
11
Objects as Parameters
 Parameters in a Java method are passed by value
 This means that a copy of the actual parameter (the
value passed in) is stored into the formal parameter (in
the method header)
 Passing parameters is therefore similar to an assignment
statement
 When an object is passed to a method, the actual
parameter and the formal parameter become aliases of
each other
Passing Objects to Methods
 What you do with a parameter inside a method may or
may not have a permanent effect (outside the method)
 See ParameterPassing.java (page 277)
 See ParameterTester.java (page 279)
 See Num.java (page 280)
 Note the difference between changing the reference and
changing the object that the reference points to
ParameterPassing.java
public class ParameterPassing
{
public static void main (String[] args)
{ ParameterTester tester = new ParameterTester();
int a1 = 111;
Num a2 = new Num (222);
Num a3 = new Num (333);
System.out.println ("Before calling changeValues:");
System.out.println ("a1\ta2\ta3");
System.out.println (a1 + "\t" + a2 + "\t" + a3 + "\n");
tester.changeValues (a1, a2, a3);
System.out.println ("After calling changeValues:");
System.out.println ("a1\ta2\ta3");
System.out.println (a1 + "\t" + a2 + "\t" + a3 + "\n");
}}
ParameterTester.java
public class ParameterTester
{ public void changeValues (int f1, Num f2, Num f3)
{ System.out.println ("Before changing the values:");
System.out.println ("f1\tf2\tf3");
System.out.println (f1 + "\t" + f2 + "\t" + f3 + "\n");
f1 = 999;
f2.setValue(888);
f3 = new Num (777);
System.out.println ("After changing the values:");
System.out.println ("f1\tf2\tf3");
System.out.println (f1 + "\t" + f2 + "\t" + f3 + "\n");
}}
Num.java
public class Num
{ private int value;
// Sets up the new Num object, storing an initial value.
public Num (int update)
{ value = update; }
// Sets the stored value to the newly specified value.
public void setValue (int update)
{ value = update; }
// Returns the stored integer value as a string.
public String toString ()
{ return value + "";
}}
The static Modifier
 In Chapter 2 we discussed static methods (also called
class methods) that can be invoked through the class
name rather than through a particular object
 For example, the methods of the Math class are static:
Math.sqrt (25)
 To write a static method, we apply the static modifier
to the method definition
 The static modifier can be applied to variables as well
 It associates a variable or method with the class rather
than with an object
17
Static Variables
 Static variables are also called class variables
 Normally, each object has its own data space, but if a
variable is declared as static, only one copy of the
variable exists
private static float price;
 Memory space for a static variable is created when the
class in which it is declared is loaded
 All objects created from the class share static variables
 Changing the value of a static variable in one object
changes it for all others
18
Static Methods
class Helper
public static int triple (int num)
{
int result;
result = num * 3;
return result;
}
Because it is static, the method can be invoked as:
value = Helper.triple (5);
19
Static Methods
 The order of the modifiers can be interchanged, but by
convention visibility modifiers come first
 Recall that the main method is static; it is invoked by the
system without creating an object
 Static methods cannot reference instance variables,
because instance variables don't exist until an object
exists
 However, a static method can reference static variables
or local variables
20
The static Modifier
 Static methods and static variables often work together
 See CountInstances.java (page 284)
 See Slogan.java (page 285)
CountInstances.java
public class CountInstances {
public static void main (String[] args) {
Slogan obj;
obj = new Slogan ("Remember the Alamo.");
System.out.println (obj);
obj = new Slogan ("Don't Worry. Be Happy.");
System.out.println (obj);
obj = new Slogan ("Live Free or Die.");
System.out.println (obj);
obj = new Slogan ("Talk is Cheap.");
System.out.println (obj);
obj = new Slogan ("Write Once, Run Anywhere.");
System.out.println (obj);
System.out.println();
System.out.println ("Slogans created: " + Slogan.getCount());
}}
Slogan.java
public class Slogan{
private String phrase;
private static int count = 0;
public Slogan (String str) {
phrase = str;
count++; }
public String toString() {
return phrase; }
public static int getCount () {
return count; }}
Wrapper Classes
 A wrapper class represents a particular primitive type
 For example
Integer ageObj = new Integer (20);
uses the Integer class to create an object which
effectively represents the integer 20 as an object
 This is useful when a program requires an object instead
of a primitive type
Wrapper Classes
 There is a wrapper class in the java.lang package for
each primitive type:
Primitive Type
Wrapper Class
byte
Byte
short
Short
int
Integer
long
Long
float
Float
double
Double
char
Character
boolean
Boolean
void
Void
Wrapper Classes
 Wrapper classes contain static methods that help
manage the associated type
 For example, the Integer class contains a method to
convert an integer stored in a String to an int value:
num = Integer.parseInt (str);
 The wrapper classes often contain useful static constants
as well
 For example, the Integer class contains MIN_VALUE
and MAX_VALUE which hold the smallest and largest int
values
Keyboard Input Revisited
 The Keyboard class was introduced in Chapter 2 to
facilitate capturing input from the keyboard
 Recall that the Keyboard class was written by the
authors of the book
 The Keyboard class hides various aspects of Java input
processing
 But it is important to understand how that processing
works
Reading Keyboard Input
 Java I/O is accomplished using objects that represent
streams of data
 A stream is an ordered sequence of bytes
 The System.out object represents a standard output
stream, which defaults to the monitor screen
 Reading keyboard input is more complicated
 The input stream is made up of multiple objects:
BufferedReader in = new BufferedReader (
new InputStreamReader (System.in));
Reading Keyboard Input
 The System.in object is used to create an
InputStreamReader object
 The InputStreamReader object is used to create a
BufferedReader object
 This creates an input stream that treats input as
characters and buffers them so that input can be read a
line at a time
 The readLine method of the BufferedReader class
reads an entire line of input as a String
 Wrapper class methods can be used to convert numeric
input
Reading Keyboard Input
 Problems that arise in reading or converting a value
manifest themselves as exceptions
 The throws clause of a method header indicates what
exceptions it may throw
 See Wages2.java (page 289)
 I/O and exceptions are explored further in Chapter 8
Wages2.java
import java.io.*;
import java.text.NumberFormat;
public class Wages2
{ public static void main (String[] args) throws IOException
{ BufferedReader in = new BufferedReader (new InputStreamReader (System.in));
String name;
int hours;
double rate, pay;
}}
System.out.print ("Enter your name: ");
name = in.readLine ();
System.out.print ("Enter the number of hours worked: ");
hours = Integer.parseInt (in.readLine());
System.out.print ("Enter pay rate per hour: ");
rate = Double.parseDouble (in.readLine());
System.out.println ();
pay = hours * rate;
NumberFormat fmt = NumberFormat.getCurrencyInstance();
System.out.println (name + ", your pay is: " + fmt.format(pay));
Nested Classes
 In addition to containing data and methods, a class can
contain other classes
 A class declared within another class is called a nested
class
Enclosing Class
Nested Class
Nested Classes
 A nested class has access to the variables and methods
of the enclosing class, even if they are declared private
 In certain situations this makes the implementation of the
classes easier because they can share information easily
 Furthermore, the nested class can be protected by the
enclosing class from external use
 This is a special relationship and should be used with
care
Nested Classes
 A nested class produces a separate bytecode file
 If a nested class called Inside is declared in an outer
class called Outside, two bytecode files are produced:
Outside.class
Outside$Inside.class
 Nested classes can be declared as static, in which case
they cannot refer to instance variables or methods
Inner Classes
 A nonstatic nested class is called an inner class
 An inner class is associated with each instance of the
enclosing class
 An instance of an inner class can exist only within an
instance of an enclosing class
 See TestInner.java (page 291)
 See Outer.java (page 292)
TestInner.java
public class TestInner
{ public static void main (String[] args)
{ Outer out = new Outer();
System.out.println (out);
System.out.println();
out.changeMessages();
System.out.println (out);
}}
Outer.java
public class Outer
{ private int num;
private Inner in1, in2;
public Outer()
{num = 9876;
in1 = new Inner ("Half of the problem is 90% mental.");
in2 = new Inner ("Another deadline. Another miracle."); }
public void changeMessages()
{ in1.message = "Life is uncertain. Eat dessert first.";
in2.message = "One seventh of your life is spent on Mondays."; }
public String toString() { return in1 + "\n" + in2; }
private class Inner
{ public String message;
public Inner (String str) { message = str; }
}}}
public String toString()
{ num++;
return message + "\nOuter num = " + num;
Summary
 Chapter 5 has focused on:
•
•
•
•
•
object references and aliases
passing objects references as parameters
the static modifier
wrapper classes
nested classes and inner classes