7.1 Introduction
Entire books have been written on sorting and searching with computers. We introduce the topic here only to stress, once again, that writing programs is not the target of computer science; solving problems efficiently and effectively with the limited resources found in a computer is the real goal.
It turns out that computers spend a tremendous amount of time sorting. Just as we discussed different algorithms for computing prime numbers, we will now discuss three basic, comparison-based sorting algorithms. None of these are truly efficient. Efficient comparison-based sorting is beyond the scope of this introductory text. Additionally, we introduce a radix sort, one that capitalizes on the nature of the elements stored, rather than individual comparison between elements.
The sorting problem is described as follows:
Given a list of elements provided as input in any arbitrary order, these elements having an established ordinal value, namely a collating sequence, reorder them so that they appear according to their ordinal value from lowest to highest.
Gem of Wisdom
A common conjecture is that computers around the world spend the majority of their time sorting. Hence, it is difficult to talk much about computer science without talking about sorting. There are many sorting approaches.
For example, consider the following list of numbers as input: 5, 3, 7, 5, 2, 9. A sorted output corresponding to this input is: 2, 3, 5, 5, 7, 9.
In the following subsections, we will describe ...
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