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In the book the following methods are presented:
static void selectionSort(Comparable[] list)static void insertionSort(Comparable[] list)static boolean linearSearch(Comparable[] list, Comparable target) // true if target in liststatic boolean binarySearch(Comparable[] list, Comparable target) // true if target in list
Your task is to implement a class SearchSort, including recursive variants of these methods. The signatures of the methods should correspond to the ones given above. The class should also contain a method static boolean isSorted(Comparable[] list) returning true if and only if the input list is sorted (smallest element rst).
Also write a program SearchSortMain showing and testing all methods.
(a) Describe the steps involved in the process of decision making under uncertainty. (b) Explain the following principles of decision making: (i) Laplace, (ii) Hurwicz. (c
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Step-1: For the current node, verify whether it contain a left child. If it has, then go to step-2 or else go to step-3 Step-2: Repeat step-1 for left child Step-3: Visit (th
Write an algorithm for binary search. Algorithm for Binary Search 1. if (low> high) 2. return (-1) 3. Mid = (low + high)/2 4. if ( X = = a[mid]) 5. return (mid); 6.
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