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Unit 261 Introduction to Searching and Sorting Comparable Interface Comparator Interface Algorithm Complexity Classes Exercises.

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1 Unit 261 Introduction to Searching and Sorting Comparable Interface Comparator Interface Algorithm Complexity Classes Exercises

2 Unit 262 The Comparable Interface The Comparable interface of java.lang public interface Comparable{ public abstract int compareTo(Object object); } If a class implements Comparable interface, the compareTo method defines the natural ordering of its objects when sorted. By repeated calls to compareTo method, The sorting algorithms will be able to sort, according to the natural ordering, a list of objects belonging to a class implementing Comparable interface. Several core Java classes implement Comparable. A user defined class that implements Comparable should implement the compareTo method such that : object1.compareTo(object2) is: 0if object1 “is equal to” object2 > 0if object1 “is greater than” object2 < 0if object1 “is less than” object2

3 Unit 263 The Comparable Interface (cont’d) It is also preferable for object1.compareTo(object2) to return 0 if and only if object1.equals(object2) is true. The compareTo method throws a ClassCastException if the type of this object and the type of the object passed as parameter are not compatible for comparison. Example 1: A BankAccount defining the natural ordering as the ascending order of accountNumbers. import java.util.*; class BankAccount implements Comparable{ private int accountNumber; private String name; private double balance; public int compareTo(Object object){ BankAccount account = (BankAccount) object; if(accountNumber < account.accountNumber) return -1; else if(accountNumber == account.accountNumber) return 0; else return 1; }

4 Unit 264 The Comparable Interface (cont’d) public String toString(){ return "Account#: " + accountNumber + ", Name: " + name + ", Balance: " + balance + " SR"; }} Example: Assuming that account1 and account2 are BankAccount objects, a typical call to the compareTo method is: 1. int comparisonResult = account1.compareTo(account2); 2. if(comparisonResult == 0) 3. System.out.println(“Same account”); 4. else 5. System.out.println(“Different accounts”); If we want to sort objects of a class which does not implement Comparable interface, or the class implements Comparable but we want To order its objects in a way different from the natural ordering defined by Comparable, the java.util.Comparator interface should be used.

5 Unit 265 The Comparator Interface The Comparator interface is one of the java collections framework interfaces. The Java collection framework is a set of important utility classes and interfaces in the java.util package for working with collections. A collection is a group of objects. Comparator interface defines how collection objects are compared. public interface Comparator{ public abstract int compare(Object object1, Object object2); public abstract boolean equals(Object object); } A class that implements Comparator should implement the compare method such that its return value is: 0if object1 “is equal to” object2 > 0if object1 “is greater than” object2 < 0if object1 “is less than” object2

6 Unit 266 The Comparator Interface (cont’d) It is also preferable for the compare method to return 0 if and only if object1.equals(object2) is true. The compare method throws a ClassCastException if the type of object1 and that of object2 are not compatible for comparison. The equals method concerns the Comparator object. It returns true if its parameter is a Comparator object and if it uses the same ordering as the invoking (calling) Comparator object; otherwise it returns false. Note: Since each class inherits the equals method from the Object class, it is not necessary for a class that implements the Comparator interface to implement the equals method. In our examples concerning the Comparator interface, the equals method will not be implemented.

7 Unit 267 The Comparator Interface (cont’d) Example 2: This example sorts the strings in reverse order of the alphabetical one. import java.util.*; class StringReverseComparator implements Comparator{ public int compare(Object object1, Object object2){ String string1 = object1.toString(); String string2 = object2.toString(); // Reverse the comparison return string2.compareTo(string1); } } class Test { public static void main(String[] args) { string[] array={"Ahmad","Mohammad","Ali","Hisham","Omar","Bilal","Hassan"}; Arrays.sort(array,new StringReverseComparator()); System.out.println(Arrays.asList(array)); }} -The sort method,in the Arrays class, sorts the array “array” according to the comparator object. Notice the comparator object provided as a parameter for the sorting method. -After printing, we get the following order: [Omar, Mohammad, Hisham, Hassan, Bilal, Ali, Ahmad]

8 Unit 268 The Comparator Interface (cont’d) Example 3: Here the order of the comparator is the descending order of the absolute values import java.util.*; class yComparator implements Comparator { public int compare(Object obj1, Object obj2) { int i1 = ((Integer)obj1).intValue(); int i2 = ((Integer)obj2).intValue(); return Math.abs(i2) - Math.abs(i1); }} class TestCollections2 { public static void main(String args[]) { Integer[] array = {new Integer(-200),new Integer(100), new Integer(400),new Integer(-300)}; Arrays.sort(array); System.out.println("Natural ordering: " + Arrays.asList(array)); Arrays.sort(array, new yComparator()); System.out.println("My own ordering : " + Arrays.asList(array)); }

9 Unit 269 The Comparator Interface (cont’d) Example 4: Here we want to order the BankAccount objects, not according to their natural ordering as defined before, but according to the opposite of the alphabetical order of the names of their owners. 2 class MyComparator implements Comparator{ 3 public int compare(Object object1, Object object2){ 4 BankAccount account1 = (BankAccount) object1; 5BankAccount account2 = (BankAccount)object2; 6String string1 = account1.getName(); 7String string2 = account2.getName(); 8// Reverse the comparison 9 return string2.compareTo(string1); 10 } 11 }

10 Unit 2610 Algorithm Complexity Classes Different algorithms require different amount of running time and space. The less amount of running time the more time-efficient the algorithm. The less amount of space requirements the more space-efficient the algorithm. The resources (such as time and space) required to solve a problem usually increase with an increase in the size n of the problem. Several factors affect the time and space requirements of an algorithm: hardware, language of implementation, Compiler being used, etc. The average running time of an algorithm is a function f(n) of the problem size n. Algorithms are classified into different groups (called complexity classes) based on f(n)

11 Unit 2611 Algorithm Complexity Classes (cont’d)

12 Unit 2612 Exercises 1. Write a Comparator to compare names by last name. 2. Write a Comparator to compare names by middle name. Assume that each name to be compared, consists of three names: first, middle, and last. 3. Arrange algorithm complexity classes from the most time-efficient to the least time-efficient.

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