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Java I

Java I. Chapter 4 Control Structures: Part I. Structured Programming. “ There is No goto in Java ” • Structured programming: the building blocks • There are 3 different kinds of operations in a program: perform a sequence of actions,

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Java I

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  1. Java I

  2. Chapter 4 Control Structures: Part I

  3. Structured Programming “ There is No goto in Java ” • Structured programming: the building blocks • There are 3 different kinds of operations in a program: perform a sequence of actions, perform a selection between alternative actions, or perform a repetition or iteration of the same action. Sequence, Selection, Iteration

  4. Structured Programming • Sequence: one thing after another task1 task2 task3

  5. Structured Programming • Selection: making choices ? YES taskA NO Structured programming, only one entrance, only one exit. taskB

  6. Structured Programming • Repetition, Part I: doing the same thing again until there’s a reason to stop. expression ? TRUE taskA FALSE Do while: maybe won’t ever do taskA even once. “A while loop repeats as long as a condition is true.”

  7. Structured Programming • Repetition, Part II: doing the same thing again until there’s a reason to stop. taskA ? TRUE FALSE Do until: will always do taskA at least once. “A Do Until loop repeats as long as a condition is false.”

  8. Structured Programming Procedural Structured Programming • Begin at the top, move to the bottom. • Each program unit has only one entrance and only one exit.

  9. Selection in Java Object Oriented Programming • Within a method, procedural code. • Simple ‘if’ with or without brackets. if( expression ) statement; if( expression ) { statement; }

  10. Selection in Java Object Oriented Programming • Simple ‘if’ with or without brackets. if( expression ) statement; if( expression ) { statement; } • Within brackets, a “block.”

  11. Selection in Java Object Oriented Programming • Simple ‘if’ / ‘else’ without brackets. if( expression ) statement; else statement; • Without brackets, limit of only one statement per branch.

  12. Selection in Java w Object Oriented Programming • Simple ‘if’ / ‘else’ with brackets. if( expression ) { statement; statement; } else { statement; statement; }

  13. Selection in Java • Compound ‘if’ / ‘else if’ / ‘else if’ / ‘else’. if( expression ) { statement; } else if( expression ) { statement; } else { statement; }

  14. Selection in Java • Special “Ternary” ? : Operator—shorthand ‘if’ / ‘else’ System.out.print(expression? “True” : “False”) 1.) expression must evaluate to True or False. 2.) If expression is True, execute the command before the colon. 3.) If expression is False, execute the command after the colon. Do this if expression is False Do this if expression is True

  15. Repetition: while Part I while—“the Do While” • The Test is First while( expression ) statement;

  16. Repetition: while Part I w while—“the Do While” • The Test is First The while { “Do While” } is used when you can’t predict exactly how many times your loop will be executed. The while may not be executed even once. It executes the loop while the expression is still true. while( expression ) { statement; statement; }

  17. // DoUntil.java // Even though "c" begins the loop false, // it still executes at least once. public class DoUntil { public static void main( String args[] ) { boolean c = false; do { System.out.println( ”Execute DoUntil at least once " ); } while( c ); System.exit( 0 ); } }

  18. Repetition: while Part II w while—“the Do Until” • The Test is Last This do/while {“Do Until”} is also used when you can’t predict exactly how many times your loop will be executed. It executes at least once. It executes Until the expression becomes false. do { statement; statement; } while( expression );

  19. // WhileTest.java // Since "c" is already false when it reaches the // test, the loop never executes. public class DoWhile { public static void main( String args[] ) { boolean c = false while( c ) { System.out.println( ”Execute DoWhile while c is true" ); } System.exit( 0 ); } }

  20. // SelectionTest.java import javax.swing.*; public class SelectionTest { public static void main( String args[] ) { int b, s; String big, small, out; big = JOptionPane.showInputDialog( "Big Number" ); small = JOptionPane.showInputDialog( "Small Number" ); b = Integer.parseInt( big ); s = Integer.parseInt( small ); out = ( b > s ? "Big was larger" : "Small was larger" ); JOptionPane.showMessageDialog( null, out, "Results", JOptionPane.INFORMATION_MESSAGE); System.exit( 0 ); } } • Test Ternary Operator

  21. // DoWhileTest.java import javax.swing.*; public class DoWhileTest { public static void main( String args[] ) { int b = 2, s = 1; String big, small, out = “Big is still Bigger”; while( b > s ) { JOptionPane.showMessageDialog( null, out, "Results", JOptionPane.INFORMATION_MESSAGE); big = JOptionPane.showInputDialog( "Big Number" ); small = JOptionPane.showInputDialog( "Small Number" ); b = Integer.parseInt( big ); s = Integer.parseInt( small ); } System.exit( 0 ); } } • Test DoWhile

  22. // DoUntilTest.java import javax.swing.*; public class DoUntilTest { public static void main( String args[] ) { int b = 2, s = 1; // preload variables. String big, small, out = “Big is still Bigger”; do { JOptionPane.showMessageDialog( null, out, "Results", JOptionPane.INFORMATION_MESSAGE); big = JOptionPane.showInputDialog( "Big Number" ); small = JOptionPane.showInputDialog( "Small Number" ); b = Integer.parseInt( big ); s = Integer.parseInt( small ); } while( b > s ); System.exit( 0 ); } } • Test DoUntil

  23. Repetition: while Loops • The majority of applications use the plain while loop. • Choose either while loop when you can’t know in advance how many times the loop will be executed. • The loop is repeated until it encounters a sentinel value, that announces that the loop has finished.

  24. Assignment Operators • We are already familiar with this statement: int x; x = 15; • This means the value 15 is placed into the variable x. • We say, “15 is assigned to x.” • In Java, a single equals sign is the assignment operator.

  25. Assignment Operators • Another common bit of code is this: int x; Declares x as an int. x = 15; After this assignment, x contains 15. x = x + 5; After this assignment, x contains 20. First the addition on the right is done. Then, the result is assigned to the the variable on the left.

  26. Assignment Operators += • Java offers a shortcut to the statement below: int x = 15; x = x + 5; After this assignment, x contains 20. x += 5; After this assignment, x contains 20.

  27. Assignment Operators -= • Java offers a shortcut to the statement below: int x = 15; x = x - 5; After this assignment, x contains 10. x -= 5; After this assignment, x contains 10.

  28. Assignment Operators *= • Java offers a shortcut to the statement below: int x = 15; x = x * 5; After this assignment, x contains 75. x *= 5; After this assignment, x contains 75.

  29. Assignment Operators /= • Java offers a shortcut to the statement below: int x = 15; x = x / 5; After this assignment, x contains 3. x /= 5; After this assignment, x contains 3.

  30. Assignment Operators %= • Java offers a shortcut to the statement below: int x = 15; x = x % 5; After this assignment, x contains 0. x %= 5; After this assignment, x contains 0.

  31. Increment/Decrement Operators • There is one addition statement in Java that is so common, it gets its own operator. • It means, simply, “Add one to the variable.” x++ x--

  32. Increment/Decrement Operators • Java offers a shortcut to the statement below: int x = 2; x = x + 1; After this assignment, x contains 3. x++; After this assignment, x contains 3. x++

  33. Increment/Decrement Operators • Java offers a shortcut to the statement below: int x = 2; x = x - 1; After this assignment, x contains 1. x--; After this assignment, x contains 1. x--

  34. Increment/Decrement Operators • You can do a pre-increment, or a post-increment. Pre Post ++x; x++; --x; x--; • If each of these statements is on a line by itself, there is no difference in the effect of doing a pre- or post-increment.

  35. Increment/Decrement Operators • If each of these statements is on a line by itself, there is no difference in the effect of doing a pre- or post-increment. • However, if the variable—which is having the pre- or post-increment applied to it—is used within another statement, your choice of pre- or post-increment can alter your results.

  36. // PrePostIncrement.java public class PrePostIncrement { public static void main( String args[] ) { int x=0; System.out.println( " Baseline, x = " + x ); System.out.println( "\n Pre-increment = ++x = " + ++x ); System.out.println( "\n After increment, x = " + x ); x = 0; System.out.println( "\n 2nd Baseline, x = " + x ); System.out.println( "\n Post-increment = x++ = " + x++ ); System.out.println( "\n After increment, x = " + x ); System.exit( 0 ); } } w Baseline, x = 0 Pre-increment = ++x = 1 After increment, x = 1 2nd Baseline, x = 0 Post-increment = x++ = 0 After increment, x = 1

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