INF120 Basics in JAVA Programming AUBG, COS dept, Spring 2014

1. INF120 Basics in JAVA Programming AUBG, COS dept, Spring 2014 Lecture 10 Title: Arrays, Part 2 Multidimensional Arrays Reference: MalikFarrell, chap 1, Liang, Ch 7

2. Lecture Contents: • Arrays classified • Multidimensional Rectangular Arrays • Multidimensional Ragged Arrays • Associative Arrays

3. Predefined classes for array processing Only if not discussed in previous lesson The following predefined classes are available for Java developer’s convenience The Arrays predefined class The ArrayList predefined class

4. The Arrays predefined class The Arrays predefined class Arrays is a class used to implement arrays in Java. It is defined within java.util package and therefore needs import java.util.Arrays; command.

5. The Arrays predefined class Philosophy of using Arrays predefined class: Arrays class provides a set of methods like toString(), sort(), binarySearch(), etc The user defined array appears as an argument in a stmt that invokes Arrays’ methods int[] ar = { 10, 50, 30, 20, 70, 15 }; System.out.println(Arrays.toString(ar)); Arrays.sort(ar); System.out.println("Index of 55 is: “ + Arrays.binarySearch(ar,55)); System.out.println("Index of 30 is: “ + Arrays.binarySearch(ar,30)); 5

6. The Arrays.binarySearch() Method Since binary search is frequently used in programming, Java provides several overloaded binarySearch methods for searching a key in an array of int, double, char, short, long, and float in the java.util.Arrays class. For example, the following code searches the keys in an array of numbers and an array of characters. int[] list = {2, 4, 7, 10, 11, 45, 50, 59, 60, 66, 69, 70, 79}; System.out.println("Index is " + java.util.Arrays.binarySearch(list, 11)); char[] chars = {'a', 'c', 'g', 'x', 'y', 'z'}; System.out.println("Index is " + java.util.Arrays.binarySearch(chars, 't')); For the binarySearch method to work, the array must be pre-sorted in increasing order. Return is 4 Return is –4 (insertion point is 3, so return is -3-1) 6

7. The Arrays.sort() Method Since sorting is frequently used in programming, Java provides several overloaded sort methods for sorting an array of int, double, char, short, long, and float in the java.util.Arrays class. For example, the following code sorts an array of numbers and an array of characters. double[] numbers = {6.0, 4.4, 1.9, 2.9, 3.4, 3.5}; java.util.Arrays.sort(numbers); char[] chars = {'a', 'A', '4', 'F', 'D', 'P'}; java.util.Arrays.sort(chars);

8. Tasks to train arrays int[] ar = { 10, 50, 30, 20, 70, 15 }; int i; System.out.println(Arrays.toString(ar)); for (i=0; i<ar.length; i++) {System.out.print(" "+ar[i]); } System.out.println(); Arrays.sort(ar); for (i=0; i<ar.length; i++) {System.out.print(" "+ar[i]); } System.out.println(); System.out.println(Arrays.toString(ar)); System.out.println("Index of value 55 is: “ + Arrays.binarySearch(ar,55)); System.out.println("Index of value 30 is: “ + Arrays.binarySearch(ar,30));

9. The ArrayList predefined class The ArrayList predefined class The ArrayList class implements an array as a list. Its size may change dynamically. In order to use this class, import java.util.ArrayList; command is must.

10. The ArrayList predefined class Philosophy of using Arraylist predefined class: Before all an object of the ArrayList class must be created as an empty array. ArrayList ar = new ArrayList();. Arraylist class provides a set of methods like add(), remove(), get(), toString() etc see next slide. The add() and remove() methods serve to add and remove array elements Any ArrayList method gets invoked as a method of the user defined array in the following context: ar.add("Varna"); ar.add("Bourgas"); ar.add("Plovdiv"); ar.remove("Sofia");

11. The ArrayList Class You can create an array to store objects. But the array’s size is fixed once the array is created. Java provides the ArrayList class that can be used to store an unlimited number of objects.

12. Generic Type ArrayList is known as a generic class with a generic type E. You can specify a concrete type to replace E when creating an ArrayList. For example, the following statement creates an ArrayList and assigns its reference to variable cities. This ArrayList object can be used to store strings. ArrayList<String> cities = new ArrayList<String>(); TestArrayList Run

13. Differences and Similarities between Arrays and ArrayList DistinctNumbers Run

14. Tasks to train arrays package sbarraylist; import java.util.ArrayList; public class SBArrayList { public static void main(String[] args) { ArrayList ar = new ArrayList(); ar.add("Sofia"); ar.add("Varna"); ar.add("Bourgas"); ar.add("Plovdiv"); System.out.println(ar.toString()); for (int i=ar.size()-1; i>=0; i--) System.out.print(ar.get(i) + " "); } }

15. Arrays Classified Static Arrays Dynamic Arrays Stack-Based and Heap-Based Arrays Single-Dimensional Arrays Multi-Dimensional Rectangular Arrays Multi-Dimensional Ragged Arrays Associative Arrays

16. Static Arrays Тerm “static array” is used in two different contexts: Arrays with size defined at compile time. Arrays qualified static when declared (storage class: static in C++).

17. Dynamic Arrays Term “dynamic array” is used in the following two contexts: Arrays with size to be defined or modified at run time. Arrays, implemented as a list (array list).

18. Stack-Based and Heap-Based Arrays Conventional computer programs are structured to include a code segment and a data segment. Data may be allocated in two alternate memory areas – the stack and the heap. Value types in Java occupy the stack. Arrays in Java are reference types. They are dynamically allocated, occupy the heap and access to them is by an array reference variable.

19. Single-Dimensional Arrays Already discussed in details

20. MultidimensionalRectangular arrays Multidimensional Rectangular arrays

21. MultidimensionalRectangular arrays These arrays have more than one dimension. There are two approaches to interpret and implement multidimensional arrays: matrix-style multidimensional arrays; array of arrays style. With matrix style, two-dimensional arrays are considered as a table or a matrix. A rule dictates that the first/left-most/ dimension means the number of array rows and the second dimension is for the number of array columns, and so on in case of more dimensions. Two-dimensional arrays suppose consecutive element location which may implement by columns or by rows. The address value to access individual elements gets computed as an offset to the base address using one of following formulas (N-number of row, M-number of column): Allocation by columns: Address/Offset(A[i,j]) = (j - 1) * N + i Allocation by rows: Address/Offset(A[i,j]) = (i - 1) * M + j

22. MultidimensionalRectangular arrays The alternate “array of arrays” style is the Java style. It means a two-dimensional array is nothing else but an array of arrays, or one-dimensional array of one-dimensional arrays or one-dimensional array of vectors or vector of vectors. Same approach may apply to arrays with more than two dimensions. A three-dimensional array is presented as a one-dimensional array of two-dimensional arrays, or as a vector of matrices.

23. Motivations Thus far, you have used one-dimensional arrays to model linear collections of elements. You can use a two-dimensional array to represent a matrix or a table. For example, the following table that describes the distances between the cities can be represented using a two-dimensional array.

24. Declare/Create Two-dimensional Arrays // Declare array ref var dataType[][] refVar; // create anonymous array new dataType[10][10]; // Create array and assign its reference to variable refVar = new dataType[10][10]; // Combine declaration and creation in one statement dataType[][] refVar = new dataType[10][10]; // Alternative syntax – not recommended, forget it dataType refVar[][] = new dataType[10][10];

25. Declaring Variables of Two-dimensional Arrays and Creating Two-dimensional Arrays int[][] matrix = new int[10][10]; matrix[0][0] = 3; for (int i = 0; i < matrix.length; i++) for (int j = 0; j < matrix[i].length; j++) matrix[i][j] = (int)(Math.random() * 1000); double[][] x; // What is x?

26. Two-dimensional Array Illustration matrix.length? 5 matrix[0].length? 5 array.length? 4 array[0].length? 3

27. Declaring, Creating, and Initializing Using Shorthand Notations You can also use an array initializer to declare, create and initialize a two-dimensional array. For example, int[][] array = { {1, 2, 3}, {4, 5, 6}, {7, 8, 9}, {10, 11, 12} }; int[][] array = new int[4][3]; array[0][0] = 1; array[0][1] = 2; array[0][2] = 3; array[1][0] = 4; array[1][1] = 5; array[1][2] = 6; array[2][0] = 7; array[2][1] = 8; array[2][2] = 9; array[3][0] = 10; array[3][1] = 11; array[3][2] = 12; Same as

28. Multidimensional arrays To introduce a concept: Array of arrays 2d array or matrix = 1d array of 1d arrays OK 3d array = 1d array of 2d arrays or matrices OK 3d array = 2d array of 1d arrays. NOT OK

29. Lengths of Two-dimensional Arrays int[][] x = new int[3][4];

30. Lengths of Two-dimensional Arrays, cont. int[][] array = { {1, 2, 3}, {4, 5, 6}, {7, 8, 9}, {10, 11, 12} }; array.length array[0].length array[1].length array[2].length array[3].length array[4].length ArrayIndexOutOfBoundsException

31. Processing Two-Dimensional Arrays See the examples in the text. (Initializing arrays with input values) (Printing arrays) (Summing all elements) (Summing all elements by column) (Which row has the largest sum) (Finding the smallest index of the largest element) (Random shuffling) 31

32. Initializing arrays with input values java.util.Scanner cin = new Scanner(System.in); System.out.println("Enter " + matrix.length + " rows and " + matrix[0].length + " columns: "); for (int row = 0; row < matrix.length; row++) { for (int column = 0; column < matrix[row].length; column++) { matrix[row][column] = cin.nextInt(); } } 32

33. Initializing arrays with random values for (int row = 0; row < matrix.length; row++) { for (int column = 0; column < matrix[row].length; column++) { matrix[row][column] = (int)(Math.random() * 100); } } 33

34. Printing arrays for (int row = 0; row < matrix.length; row++) { for (int column = 0; column < matrix[row].length; column++) { System.out.print(matrix[row][column] + " "); } System.out.println(); } 34

35. Summing all elements int total = 0; for (int row = 0; row < matrix.length; row++) { for (int column = 0; column < matrix[row].length; column++) { total += matrix[row][column]; } } 35

36. Summing elements by column for (int column = 0; column < matrix[0].length; column++) { int total = 0; for (int row = 0; row < matrix.length; row++) { total += matrix[row][column]; } System.out.println("Sum for column "+column+" is " + total); } 36

37. Random shuffling for (int i = 0; i < matrix.length; i++) { for (int j = 0; j < matrix[i].length; j++) { int i1 = (int)(Math.random() * matrix.length); int j1 = (int)(Math.random() * matrix[i].length); // Swap matrix[i][j] with matrix[i1][j1] int temp = matrix[i][j]; matrix[i][j] = matrix[i1][j1]; matrix[i1][j1] = temp; } } 37

38. Passing Two-Dimensional Arrays to Methods PassTwoDimensionalArray Run 38

39. Multidimensional Arrays Occasionally, you will need to represent n-dimensional data structures. In Java, you can create n-dimensional arrays for any integer n. The way to declare two-dimensional array variables and create two-dimensional arrays can be generalized to declare n-dimensional array variables and create n-dimensional arrays for n >= 3. 39

40. Multidimensional Arrays double[][][] scores = { {{7.5, 20.5}, {9.0, 22.5}, {15, 33.5}, {13, 21.5}, {15, 2.5}}, {{4.5, 21.5}, {9.0, 22.5}, {15, 34.5}, {12, 20.5}, {14, 9.5}}, {{6.5, 30.5}, {9.4, 10.5}, {11, 33.5}, {11, 23.5}, {10, 2.5}}, {{6.5, 23.5}, {9.4, 32.5}, {13, 34.5}, {11, 20.5}, {16, 7.5}}, {{8.5, 26.5}, {9.4, 52.5}, {13, 36.5}, {13, 24.5}, {16, 2.5}}, {{9.5, 20.5}, {9.4, 42.5}, {13, 31.5}, {12, 20.5}, {16, 6.5}}}; 40

41. Tasks to train arrays System.out.println("\n\n2D arrays - matrix"); int[][] matrix1 = new int[3][5]; for (i=0; i<3; i++) { for (j=0; j<5; j++) { matrix1[i][j] = i*5 + j*10; } } for (i=0; i<3; i++) { for (j = 0; j < 5; j++) { System.out.print(" " + matrix1[i][j]); } System.out.println(); }

42. Tasks to train arrays System.out.println("\n\n2D arrays - matrix"); // OR System.out.println(); for (i=0; i<matrix1.length; i++) { for (j = 0; j < matrix1[i].length; j++) { System.out.print(" " + matrix1[i][j]); } System.out.println(); }

43. Tasks to train arrays System.out.println("\n\n2D arrays - matrix"); // OR System.out.println(); // iteration based on data structures - for for (i=0; i<3; i++) { for (int idd : matrix1[i]) { System.out.print(" " + idd); } System.out.println(); }

44. Tasks to train arrays System.out.println("\n\n2D arrays - matrix"); // OR i=0; for (int[] id : matrix1) { for (int idd : matrix1[i]) { System.out.print(" " + idd); } i=i+1; System.out.println(); } System.out.println();

45. Tasks to train arrays // two-dimensional arrays - list of initializers System.out.println("\n2D array and list of initializers"); int[][] matrix2 = { { 51,52,53,54,55 }, { 61,62,63,64,65 }, { 71,72,73,74,75 } }; for (i=0; i<matrix2.length; i++) { for (j = 0; j < matrix2[i].length; j++) { System.out.print(" " + matrix2[i][j]); } System.out.println(); } System.out.println();

46. MultidimensionalRagged arrays Multidimensional Ragged arrays

47. Intro • Processing multidimensional rectangular arrays has some drawbacks. Here is an example to illustrate them. • The problem: to save in memory all month names as strings of characters. • Two optional solutions are given. • First solution is a two-dimensional rectangular array. We need a two-dimensional array with 12 rows as the number of months and 10 columns which is necessary to save the string with longest name, i.e. September. It’s easy to guess that after initializing the array, all rows except one have been allocated some more than needed, i.e. useless memory. This drawback may resolve using a more flexible memory location scheme. • Second solution is based on the following concept. It is reasonable for each month name to allocate only the needed number of elements. The advantage is that there is no superfluous storage space and the total memory need is less than the product of twelve months and the maximum number which needs to save the month with longest name. • This type of array is called a ragged array or a or jagged array.

48. Intro Problem: to save the names of all months of the year using array Solution 1: to use a rectangular table – matrix, size of 12 x 10 Solution 2: to use a more flexible data structure – ragged array or jagged array

49. 2D rectangular array 2D ragged array

50. Ragged Arrays Each row in a two-dimensional array is itself an array. So, the rows can have different lengths. Such an array is known as a ragged array. For example, int[][] matrix = { {1, 2, 3, 4, 5}, {2, 3, 4, 5}, {3, 4, 5}, {4, 5}, {5} }; matrix.length is 5 matrix[0].length is 5 matrix[1].length is 4 matrix[2].length is 3 matrix[3].length is 2 matrix[4].length is 1