Cover Data Structures and Algorithms with Object-Oriented Design Patterns in Java
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Example-Binary Search

 

Consider the problem of finding the position of an item in a sorted list. That is, given the sorted sequence tex2html_wrap_inline67389 and an item x, find i (if it exists) such that tex2html_wrap_inline67395. The usual solution to this problem is binary search .

Binary search is a divide-and-conquer strategy. The sequence S is split into two subsequences, tex2html_wrap_inline67399 and tex2html_wrap_inline67401. The original problem is split into two subproblems: Find x in tex2html_wrap_inline67405 or tex2html_wrap_inline67407. Of course, since the original list is sorted, we can quickly determine the list in which x must appear. Therefore, we only need to solve one subproblem.

Program gif defines the method binarySearch which takes four arguments, array, x, i and n. This method looks for the position in array at which item x is found. Specifically, it considers the following elements of the array:

displaymath67387

   program32423
Program: Divide-and-conquer example--binary search.

The running time of the algorithm is clearly a function of n, the number of elements to be searched. Although Program gif works correctly for arbitrary values of n, it is much easier to determine the running time if we assume that n is a power of two. In this case, the running time is given by the recurrence

  equation32431

Equation gif is easily solved using repeated substitution:

eqnarray32437

Setting tex2html_wrap_inline67417 gives tex2html_wrap_inline67419.


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Bruno Copyright © 1998 by Bruno R. Preiss, P.Eng. All rights reserved.