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Java Programming: Program Design Including Data Structures
Chapter 9: Arrays Java Programming: Program Design Including Data Structures
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Chapter Objectives Learn about arrays
Explore how to declare and manipulate data into arrays Understand the meaning of “array index out of bounds” Become familiar with the restrictions on array processing Discover how to pass an array as a parameter to a method Discover how to manipulate data in a two-dimensional array Learn about multidimensional arrays Java Programming: Program Design Including Data Structures
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Array A structured data type with a fixed number of components
Every component is of the same type Components are accessed using their relative positions in the array A 1 2 3 4 Data … A[1] Length: First index: 0 Last index: 4 Java Programming: Program Design Including Data Structures
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One-Dimensional Arrays
Syntax to instantiate an array: dataType[ ] arrayName; arrayName = new dataType[intExp] dataType[ ] arrayName = new dataType[intExp] dataType[ ] arrayName1, arrayName2; Example int[] A; A = new int[5]; int[] B = new int[5]; int[] C = {11, 22, 33, 44, 55}; int[] E, F; Java Programming: Program Design Including Data Structures
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One-Dimensional Arrays
Syntax to access an array component: arrayName[indexExp] intExp = number of components in array >= 0 0 <= indexExp <= intExp Example A[0] = 100; A[4] = 500; A[2] = A[4] – A[0] + 1; A[5] = … error (index out of bound) Java Programming: Program Design Including Data Structures
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Array num int[] num = new int[5];
Java Programming: Program Design Including Data Structures
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Array list Java Programming: Program Design Including Data Structures
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Default Values All entries of an array are first initialized to the proper data type default value. Example int[] A = new A[3]; Currently the array is A[0] = 0 A[1] = 0 A[2] = 0 Type Default Value int double 0.0 boolean false String “” (empty) Java Programming: Program Design Including Data Structures
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Using Arrays int[] A; A = new int[5]; //all entries are set to zero int[] E, F; A[0] = 100; A[4] = 500; for (int i=0; i<A.length; i++) { System.out.println(i + " " + A[i]); } E = A; //E same as A 0 100 1 0 2 0 3 0 4 0 Java Programming: Program Design Including Data Structures
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Specifying Array Size During Program Execution
… int arraySize; System.out.print("Enter the size of the array: "); arraySize = console.nextInt(); int[] list = new int[arraySize]; .. . Java Programming: Program Design Including Data Structures
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Array Initialization During Declaration
double[] sales = {12.25, 32.50, 16.90, 23, 45.68}; The values, called initial values, are placed between braces and separated by commas sales[0]= 12.25, sales[1]= 32.50, etc. Array size is determined by the number of initial values within the braces If an array is declared and initialized simultaneously, do not use the operator new to instantiate the array object Java Programming: Program Design Including Data Structures
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Arrays and the Instance Variable length
A public instance variable length is associated with each array that has been instantiated length contains the size of the array length can be directly accessed in a program using the array name and the dot operator Valid indices of an array (say A) are: 0 … A.length - 1 Example: Here list.length is 6 int[] list = {10, 20, 30, 40, 50, 60}; List[0] List[5] Java Programming: Program Design Including Data Structures
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Arrays and the Instance Variable length
Create the array myList of 10 components and initialize each component to 0 int[] myList = new int[10]; The value of myList.length is 10 Java Programming: Program Design Including Data Structures
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Arrays and the Instance Variable length (continued)
These statements store 5, 10, 15, and 20, respectively, in the first four components of myList myList[0] = 5; myList[1] = 10; myList[2] = 15; myList[3] = 20; Can store the number of filled elements, in the array in a variable, say noOfElement Java Programming: Program Design Including Data Structures
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Processing One-Dimensional Arrays
Loops used to step through elements in array and perform operations int[] list = new int[100]; int i; for (i = 0; i < list.length; i++) //process list[i], the (i + 1)th //element of list list[i] = console.nextInt(); System.out.print(list[i] + " "); Java Programming: Program Design Including Data Structures
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Arrays Some operations on arrays: Initialize Input data
Output stored data Find largest/smallest/sum/average of elements double[] sales = new double[10]; int index; double largestSale, sum, average; Java Programming: Program Design Including Data Structures
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Code to Initialize Array to Specific Value (10.00)
for (index = 0; index < sales.length; index++) sales[index] = 10.00; Java Programming: Program Design Including Data Structures
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Code to Read Data into Array
for (index = 0; index < sales.length; index++) sales[index] = console.nextDouble(); Java Programming: Program Design Including Data Structures
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Code to Print Array for (index = 0; index < sales.length; index++)
System.out.print(sales[index] + " "); Java Programming: Program Design Including Data Structures
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Code to Find Sum and Average of Array
for (index = 0; index < sales.length; index++) sum = sum + sales[index]; if (sales.length != 0) average = sum / sales.length; else average = 0.0; Java Programming: Program Design Including Data Structures
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Determining Largest Element in Array
maxIndex = 0; for (index = 1; index < sales.length; index++) if (sales[maxIndex] < sales[index]) maxIndex = index; largestSale = sales[maxIndex]; Java Programming: Program Design Including Data Structures
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Determining Largest Element in Array (continued)
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Array Index Out of Bounds
An array is in bounds if: 0 <= index <= arraySize – 1 If index < 0 or index > arraySize: ArrayIndexOutOfBoundsException exception is thrown Base address: location of the first array component Java Programming: Program Design Including Data Structures
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Declaring Arrays as Formal Parameters to Methods
General syntax to declare an array as a formal parameter: dataType[] arrayName //receiving the call from the caller public static void myMethod1 (int[] listA, double[] listB, int num) { //...do something here } //making the call to a method int[] intList = new int[10]; double[] doublemyList = new double[15]; int number; myMethod1 (intList, doublemyList, number); Java Programming: Program Design Including Data Structures
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Declaring Arrays as Formal Parameters to Methods
Example: Method is called with an array parameter //receiving the call from the caller public static void myMethod1 (int[] listA, double[] listB, int num) { //...do something here } ... //making the call to a method int[] intList = {10, 20, 30, 40}; Int[] myMethod1 (intList, doublemyList, number); Java Programming: Program Design Including Data Structures
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Declaring Arrays as Formal Parameters to Methods
0 11 1 21 2 31 3 41 Example: Method is called using an array parameter ... int[] intList = {10, 20, 30, 40}; int listSize = intList.length; myMethod1 (intList, listSize); for (int i=0; i<listSize; i++) { System.out.println(i + " " + intList[i]); } private static void myMethod1(int[] A, int n) { for (int i=0; i<n; i++) { A[i] += 1; System.out.println(i + " " + A[i]); 0 11 1 21 2 31 3 41 Java Programming: Program Design Including Data Structures
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The Assignment Operators and Arrays
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The Assignment Operators and Arrays (continued)
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The Assignment Operators and Arrays (continued)
for (int index = 0; index < listA.length; index++) listB[index] = listA[index]; Java Programming: Program Design Including Data Structures
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Relational Operators Arrays
if (listA == listB) ... The expression listA == listB determines if the values of listA and listB are the same (refer to the same array) To determine whether listA and listB contain the same elements, compare them component by component You can write a method that returns true if two int arrays contain the same elements Java Programming: Program Design Including Data Structures
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Relational Operators and Arrays (continued)
boolean isEqualArrays(int[] firstArray, int[] secondArray) { if (firstArray.length != secondArray.length) return false; for (int index = 0; index < firstArray.length; index++) if (firstArray[index] != secondArray[index]) return true; } if (isEqualArrays(listA, listB)) ... Java Programming: Program Design Including Data Structures
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Methods for Array Processing
//capture data from the keyboard public static void fillArray(int[] list, int noOfElements) { int index; for (index = 0; index < noOfElements; index++) list[index] = console.nextInt(); } Java Programming: Program Design Including Data Structures
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Methods for Array Processing (continued)
public static void printArray(int[] list, int noOfElements) { int index; for (index = 0; index < noOfElements; index++) System.out.print(list[index] + " "); } public static int sumArray(int[] list, int sum = 0; sum = sum + list[index]; return sum; Java Programming: Program Design Including Data Structures
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Methods for Array Processing (continued)
public static int indexLargestElement(int[] list, int noOfElements) { int index; int maxIndex = 0; for (index = 1; index < noOfElements; index++) if (list[maxIndex] < list[index]) maxIndex = index; return maxIndex; } public static void copyArray(int[] list1, int[] list2, for (index = 0; index < noOfElements; index++) list2[index] = list1[index]; Java Programming: Program Design Including Data Structures
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Parallel Arrays firstName lastName Maria Macarena 1 2 3 Juan Valdez Arrays are parallel if the corresponding components hold related information Java Programming: Program Design Including Data Structures
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Arrays of Objects Can use arrays to manipulate objects
Example: Create an array named array1 with N objects of type T: T[] array1 = new T[N] Can instantiate array1 as follows: for(int j=0; j <array1.length; j++) array1[j] = new T(); Java Programming: Program Design Including Data Structures
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Array of String Objects
String[] nameList = new String[5]; nameList[0] = "Amanda Green"; nameList[1] = "Vijay Arora"; nameList[2] = "Sheila Mann"; nameList[3] = "Rohit Sharma"; nameList[4] = "Mandy Johnson"; Java Programming: Program Design Including Data Structures
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Array of String Objects (continued)
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Clock[] arrivalTimeEmp = new Clock[100];
Arrays of Objects Clock[] arrivalTimeEmp = new Clock[100]; Java Programming: Program Design Including Data Structures
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Instantiating Array Objects
for (int j = 0; j < arrivalTimeEmp.length; j++) arrivalTimeEmp[j] = new Clock(); Java Programming: Program Design Including Data Structures
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Instantiating Array Objects
arrivalTimeEmp[49].setTime(8, 5, 10); Java Programming: Program Design Including Data Structures
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Arrays and Variable Length Parameter List
The syntax to declare a variable length formal parameter (list) is: dataType ... identifier three dots It could be called using actual parameters such as myMethod (2, 4, 6, 1, 100, 3); myMethod (myArray); Java Programming: Program Design Including Data Structures
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Arrays and Variable Length Parameter List (continued)
public static double largest(int ... myList) { double max; int index; if (myList.length != 0) max = list[0]; for (index = 1; index < myList.length; index++) if (max < myList [index]) max = myList [index]; } return max; return 0.0; Instead of: int[] myList Java Programming: Program Design Including Data Structures
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Arrays and Variable Length Parameter List (continued)
double num1 = largest(34, 56); double num2 = largest(12.56, 84, 92); double num3 = largest(98.32, 77, 64.67, 56); System.out.println(largest(22.50, 67.78, 92.58, 45, 34, 56)); double[] numberList = {18. 50, 44, 56.23, 17.89 92.34, 112.0, 77, 11, 22, 86.62); System.out.println(largest(numberList)); Java Programming: Program Design Including Data Structures
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foreach loop The syntax to use for loop to process the elements of an array is: for (dataType identifier : arrayName) statements identifier is a variable, and the data type of identifier is the same as the data type of the array components Java Programming: Program Design Including Data Structures
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foreach loop The for statement is read for each num in list
sum = 0; for (double num : myDoubleList) sum = sum + num; The for statement is read for each num in list The identifier num is initialized to list[0] In the next iteration, the value of num is list[1], and so on Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays
Data is sometimes in table form (difficult to represent using a one-dimensional array) To declare/instantiate a two-dimensional array: dataType[ ][ ] arrayName = new dataType[intExp1][intExp2]; int [][] dayHourTemperature = new int[31][25]; int [][] genderEmployeeDept = double int [2][10]; Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays
To access a component of a two-dimensional array: arrayName[indexExp1][indexExp2]; intExp1, intExp2 >= 0 indexExp1 = row position indexExp2 = column position dayHourTemperature[01][01] = 41; … dayHourTemperature[01][24] = 40; dayHourTemperature[30][24] = 38; Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays (continued)
Can specify different number of columns for each row (ragged arrays) Three ways to process two-dimensional arrays: Entire array Particular row of array (row processing) Particular column of array (column processing) Processing algorithms is similar to processing algorithms of one-dimensional arrays Java Programming: Program Design Including Data Structures
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double[][]sales = new double[10][5];
Two-Dimensional Arrays (continued) double[][]sales = new double[10][5]; Java Programming: Program Design Including Data Structures
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Accessing Two-Dimensional Array Components
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Two-Dimensional Arrays: Special Cases
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Two-Dimensional Arrays: Processing
Initialization for (row = 0; row < matrix.length; row++) for (col = 0; col < matrix[row].length; col++) matrix[row][col] = 10; Print for (row = 0; row < matrix.length; row++) { for (col = 0; col < matrix[row].length; col++) System.out.printf("%7d", matrix[row][col]); System.out.println(); } Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays: Processing (continued)
Input for (row = 0; row < matrix.length; row++) for (col = 0; col < matrix[row].length; col++) matrix[row][col] = console.nextInt(); Sum by Row for (row = 0; row < matrix.length; row++) { sum = 0; for (col = 0; col < matrix[row].length; col++) sum = sum + matrix[row][col]; System.out.println("Sum of row " + (row + 1) + " = "+ sum); } Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays: Processing (continued)
Sum by Column for (col = 0; col < matrix[0].length; col++) { sum = 0; for (row = 0; row < matrix.length; row++) sum = sum + matrix[row][col]; System.out.println("Sum of column " + (col + 1) + " = " + sum); } Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays: Processing (continued)
Largest Element in Each Row for (row = 0; row < matrix.length; row++) { largest = matrix[row][0]; for (col = 1; col < matrix[row].length; col++) if (largest < matrix[row][col]) largest = matrix[row][col]; System.out.println("The largest element of row " + (row + 1) + " = " + largest); } Java Programming: Program Design Including Data Structures
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Two-Dimensional Arrays: Processing (continued)
Largest Element in Each Column for (col = 0; col < matrix[0].length; col++) { largest = matrix[0][col]; for (row = 1; row < matrix.length; row++) if (largest < matrix[row][col]) largest = matrix[row][col]; System.out.println("The largest element of col " + (col + 1) + " = " + largest); } Java Programming: Program Design Including Data Structures
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Multidimensional Arrays
Can define three-dimensional arrays or n-dimensional arrays (n can be any number) Syntax to declare and instantiate array: dataType[][]…[] arrayName = new dataType[intExp1][intExp2]…[intExpn]; Syntax to access component: arrayName[indexExp1][indexExp2]…[indexExpn] intExp1, intExp2, ..., intExpn = positive integers indexExp1,indexExp2, ..., indexExpn = non-negative integers Java Programming: Program Design Including Data Structures
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Loops to Process Multidimensional Arrays
double[][][] carDealers = new double[10][5][7]; For (i = 0; i < 10; i++) for (j = 0; j < 5; j++) for (k = 0; k < 7; k++) carDealers[i][j][k] = 10.00; Java Programming: Program Design Including Data Structures
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Programming Example: Text Processing
Reads given text; outputs the text as is; prints number of lines and number of times each letter appears in text Input: File containing text to be processed Output: File containing text, number of lines, number of times each letter appears in text Java Programming: Program Design Including Data Structures
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Programming Example Solution: Text Processing
An array of 26 representing the letters in the alphabet Three methods: copyText characterCount writeTotal Value in appropriate index is incremented using methods and depends on character read from text Java Programming: Program Design Including Data Structures
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Chapter Summary Arrays Different arrays Definition Uses
One-dimensional Two-dimensional Multidimensional (n-dimensional) Arrays of objects Parallel arrays Java Programming: Program Design Including Data Structures
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Chapter Summary (continued)
Declaring arrays Instantiating arrays Processing arrays Entire array Row processing Column processing Common operations and methods performed on arrays Manipulating data in arrays Java Programming: Program Design Including Data Structures
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