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IN S TRU C TO R : S HIH-S HIN H HUANG
Windows Programming Using Java
Chapter6: Methods: A Deeper Look
Contents
IntroductionMethod Declaration and Usagestatic Method and FieldsDeclaration ScopeMethod OverloadingCase Study
Introduction
Why Methods Divide-and-Conquer: develop a large
application from small and simple pieces.
Reusability: existing methods can be used as building block to create new applications.
Repeating code can be avoided. Code maintain will become easy.
3
Introduction
Method Hierarchy A method is invoked by a method call The called method performs the task It returns the result or control to the
caller.
4
boss
worker1 worker2 worker3
worker4 worker5
Introduction
Program Modules in Java There are three kinds of modules in Java: 1)
Methods, 2) Classes, and 3)Packages. Related classes are grouped into packages. The Java API provides a rich collection of
predefined classes Mathematical Calculation String Manipulation. Input/Output Operations …………
Introduction
Program Modules in Java import statements specify location of
classesimport java.util.Scanner;
public class GradeBook {………public void DetermineAverage(){
Scanner input = new Scanner(System.in);
while(count < 5){…………
}/* End of while-loop */………
}/* End of DetermineAverage */}/* End of GradeBook */
Introduction
Program Modules in JavaPackage Description
java.applet Java applet-programs that execute in web browsers
java.awt Create and manipulate GUIs
java.awt.event Enable event handling in GUIs
java.io Enable programs to input and output data
java.lang It is imported by the Java compiler
java.net Enable program to communicate via network
java.text Enable program to manipulate numbers, dates,…
java.util Utility classes
java.swing Provide support for portable GUIs
java.swing.event
Enable event handling for GUI components
Method Declaration and Usage
Method Declaration Format
Method-name: any valid identifier Return-value-type: data type of the result
void - method returns nothing Return at most one value
Parameter-list: comma separated list
return-value-type method-name( parameter-list ){ declarations and statements}
Method Declaration and Usage
Method Declaration Format Constructors cannot return value even
“void”public class Triangle {
/* constructor */
public Triangle(int layer, char ch){
}/* End of constructor */
/* show the triangle pattern */
public void ShowTriangle(){
}/* ENd of ShowTriangle */
}/* End of Triangle */
Method Declaration and Usage
Method Usage 1) Methods of the Class: method name and
arguments
public class GradeBook{
public String GetCourseName(){
return courseName;
} // end method getCourseName
public void DisplayMessage(){
System.out.printf( "Welcome to the grade book for
%s!\n", GetCourseName() );
}/* End of DisplayMessage */
}/* End of GradeBook */
Method Declaration and Usage
Method Usage 2) Outside the Class: dot operator with
references to objectspublic class GradeBook{
Void DisplayMessage(){System.out.println(“Welcome to Java
Course!”);}/* End of DisplayMessage */}/* End of class GradeBook */
public class GradeBookTest {public static void main(String args[]){
GradeBook javaGradeBook = new GradeBook();javaGradeBook.DisplayMessage();
}/* End of main */}/* End of GradeBookTest */
Method Declaration and Usage
Method Usage 3) Class Method: dot operator with
references to class name.Math.sqrt(900.0);
Each argument must be consistent with the type of the corresponding
parameters.public int Maximum(int x, float y, char z){..}/* End of Maximum */
int result = Maximum(1, 1.0, ‘a’);
Method Declaration and Usage
Maximum Example Read three values from user Find the maximum among them Print the maximum value
UML (Unified Modeling Language) Class Diagram
Method Declaration and Usage
import java.util.Scanner;
public class MaximumFinder {
public void DetermineMaximum(){
Scanner input = new Scanner(System.in);
System.out.print("Enter three floating-point separated by
spaces:");
double number1 = input.nextDouble();
double number2 = input.nextDouble();
double number3 = input.nextDouble();
double result = Maximum(number1, number2, number3);
System.out.printf("Maximum is: %f", result);
}/* End of DetremineMaximum */
private double Maximum(double x, double y, double z){……}
}/* End of MaximumFinder */
Method Declaration and Usage
import java.util.Scanner;
public class MaximumFinder {
public void DetermineMaximum(){
………
}/* End of DetremineMaximum */
private double Maximum(double x, double y, double z){
double maxValue = x;
if(y > maxValue) maxValue = y;
if(z > maxValue) maxValue = z;
return maxValue;
}/* End of Maximum */
}/* End of MaximumFinder */
Method Declaration and Usage
public class MaximumFinderTest {
public static void main(String args[]){
MaximumFinder maximumFinder = new MaximumFinder();
maximumFinder.DetermineMaximum();
}/* End of main */
}/* End of MaxiumumFinderTest */
Enter three floating-point separated by spaces:133.1 300 200Maximum is: 300.000000
17
Method Declaration and Usage
Argument Promotion It implicitly converts an argument’s type
to that the method expects to receive.
Maximum(4, 100.0, 150);
private double Maximum(double x, double y, double z)
{...};
Maximum(4.0, 100.0, 150.0);
Invoke Maximum()
Method Declaration and Usage
Argument Promotion The conversion may lead to compilation
error if Java’s promotion rule is violated. Promotion Rule: the conversions should be
performed without losing data.
Method Declaration and Usage
Casting You can force the type conversion without
compiling error by using “cast” operator.
Maximum(4, (int) 100.0, 150)
public double Maximum(int x, int y, int z){......};
Invoke Maximum()
static Method and Fields
static Fields Instance Variable: Variables that every
object maintains its own copy in memory. Class Variable: Only one copy of a
particular variable shared by all objects. The keyword “static” is placed before the type
to declare as the class variable. It can be accessed by the use of class name
followed by a dot “.”.
static Method and Fields
public class Math{
private static double PI=3.14159;
private static double E=2.718281;
private int x;
………
}/* End of Math */
public class MathTest {
public static void main(String args[]){
Math math1 = new Math();
Math math2 = new Math();
}/* End of main */
}/* End of MaxiumumFinderTest */
static Method and Fields
Math.PI; // class variable
Math.E; // class variable
Math.x; // not accessible
math1.x; // instance variable
math2.x; // instance variable
static Method and Fields
static Method Static methods have behavior global to the
class and not specific to an instance. We can declare a method as static by
placing the keyword “static” before return type.
Invoke Syntax: ClassName.methodName();
public static void Main(string[] args){ }
static Method and Fields
static Method It can manipulate only class variables.
public class Counter{
private int m_iCount;
private static int m_iClassCount;
public static void Increase(void){
m_iClassCount = 0;
m_iCount = 0;
}/* End of Counter */
}/* End of class Counter */
25
Declaration Scope
Program Execution Stack Stack is a last-in-first-out (LIFO) data
structure. When an application calls a method, the
return address is pushed onto the stack. This stack is referred to program
execution stack / method-call stack
Push Pop
26
Declaration Scope
Program Execution Stack When the method is called, the memory of
the local variables is also allocated in the stack.
This portion is called activation record. If stack for storing activation record is not
enough, an stack overflow error occurs. The local variables can not be accessed anymore, if the corresponding activation record is popped off.
Declaration Scope
Scope Rules The scope of parameter declaration is the
method body where it appears. The scope of local variable is from the
declaration point to the end of method. The scope of local variable in the for
header is the body of for statement. The scope of a method and fields of a class
is the body of the class.
Declaration Scope
public void ScopeExample(int a) {
int b;
if (...) {
int b; // error: b is already declared in the outer block
int c;
...
} else {
int a; // error: a is already declared in the outer block
}/* End of if-then-else */
for (int i = 0; ...) {...}
for (int i = 0; ...) {...}
int c; // error: c is already declared in a nested block
}/* End of Scope Example*/
Declaration Scope
public class Scope {private int x=1;
public void Example(){int x=5;………
}/* End of Example */
private void UseLocalVariable(){int x=25;System.out.printf(“x in method UseLocalVariable is %d\n",x);x = x + 1;System.out.printf(“x in method UseLocalVariable is %d\n",x);
}/* End of UseLocalVariable */
private void UseClassField(){System.out.printf(“x in method UseClassField is %d\n",x);x = x * 10;System.out.printf(“x in method UseClassField is %d\n",x);
}/* End of UseClassField */}/* End of Scope */
Declaration Scope
public class Scope {private int x=1;
public void Example(){int x=5;System.out.printf("Local x in method Example is %d\n",x);UseLocalVariable();UseClassField();UseLocalVariable();UseClassField();System.out.printf("Local x in method Example is %d\n",x);
}/* End of Example */
private void UseLocalVariable(){……}private void UseClassField(){……}}/* End of Scope */
Declaration Scope
x in method Example is 5
x in method UseLocalVariable is 25
x in method UseLocalVariable is 26
x in method UseClassField is 1
x in method UseClassField is 10
x in method UseLocalVariable is 25
x in method UseLocalVariable is 26
x in method UseClassField is 10
x in method UseClassField is 100
x in method Example is 5
public class ScopeTest {
public static void main(String args[]){
Scope scope = new Scope();
scope.Example();
}/* End of main */
}/* End of ScopeTest */
Method Overloading
Overloading Description Methods of the same name can be
declared in the same class. It is commonly used to create several
methods that perform the same or similar tasks.
Method signature is used to distinguish overloaded methods. Parameter Number Parameter Type Parameter Order
void Maximum(int a, int b, int c);
void Maximum(float a, float b);
void Maximum(int a, int b);
Method Overloading
public class MethodOverload {
public int Square(int intValue){
System.out.println("Method Square(int) ");
return intValue * intValue;
}/* End of Square */
public double Square(double doubleValue){
System.out.println("Method Square(float)");
return doubleValue * doubleValue;
}/* End of Square */
}/* MethodOverload */
Method Overloading
public class MethodOverloadTest {public static void main(String args[]){
MethodOverload methodOverload = new MethodOverload();int intResult = methodOverload.Square(7);System.out.printf("Square: %d\n", intResult);
double doubleResult = methodOverload.Square(7.0);System.out.printf("Square: %f\n", doubleResult);
}/* End of main */}/* End of MethodOverloadTest */
Method Square(int) Square: 49Method Square(float)Square: 49.000000
Method Overloading
Remark Method calls can not be distinguished only
by return value.
35
public class MethodOverload{
public int Square(int x){return x * x;}
public double Square(int y){return y * y;}
}/* End of MethodOverload */
Error: MethodOverload' already defines a member called
'Square' with the same parameter types