Sorting
From Wikipedia, the free encyclopedia
Sorting is any process of arranging items in some sequence and/or in different sets, and accordingly, it has two common, yet distinct meanings:
- ordering: arranging items of the same kind, class, nature, etc. in some ordered sequence,
- categorizing: grouping and labelling items with similar properties together (by sorts).
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[edit] Sorting information or data
Sorting n-tuples (depending on context also called e.g. records consisting of fields) can be done based on one or more of its components. More generally objects can be sorted based on a property. Such a component or property is called a sort key.
For example, the items are books, the sort key is the title, subject or author, and the order is alphabetical.
If different items have different sort key values, and the sort key values are totally ordered, then this defines a unique order of the items.
A standard order is often called ascending (corresponding to the fact that the standard order of numbers is ascending, i.e. A to Z, 0 to 9), the reverse order descending (Z to A, 9 to 0).
Now if you sort on different keys, then you get different lists of header information (such as the author's name) with the appended tailing records (such as title or publisher). Sorting in computer science is one of the most extensively researched subjects because of the need to speed up the operation on thousands or millions of records during a search operation; see sorting algorithm.
The main purpose of sorting information is to optimise its usefulness for specific tasks. In general, there are two ways of grouping information: by category e.g. a shopping catalogue where items are compiled together under headings such as 'home', 'sport & leisure', 'women's clothes' etc. (nominal scale) and by the intensity of some property, such as price, e.g. from the cheapest to most expensive (ordinal scale). This is illustrated by the following story:
Managers are on a course of basic computer terms and they are explained the meaning of sorting. The lecturer comes in and throws hundreds of various nails and screws, new, old, rusty and crooked, of different size and material on the table. S/he then tells them to: sort! The students in no time create a dozen or so heaps each with relatively homogeneous members, and with some undecided cases left. The lecturer picks up a straight and strong nail, and hammers it in the wall with his/her shoe sole. "You failed to ask sort what for, or what to sort on" - s/he would tell the puzzled audience.
In the book Information Anxiety by Richard Saul Wurman, he proposes that the most common sorting purposes are Name, by Location and by Time (these are actually special cases of category and hierarchy). Together these give the acronym LATCH (Location, Alphabetical, Time, Category, Hierarchy) and can be used to describe just about every type of ordered information.
Often information is sorted using different methods at different levels of abstraction: e.g. the UK telephone directories which are sorted by location, by category (business or residential) and then alphabetically. New media still subscribe to these basic sorting methods: e.g. a Google search returns a list of web pages in a hierarchical list based on its own scoring system for how closely they match the search criteria (from closest match downwards).
The opposite of sorting, rearranging a sequence of items in a random or meaningless order, is called reshuffling.
[edit] Physical sorting processes
Various sorting tasks are essential in industrial processes. For example, during the extraction of gold from ore, a device called a shaker table uses gravity, vibration, and flow to separate gold from lighter materials in the ore (sorting by size and weight). Sorting is also a naturally occurring process that results in the concentration of ore. Sorting results from the application of some criterion or differential stressor to a mass to separate it into its components based on some variable quality. Materials that are different, but only slightly so, such as the isotopes of uranium, are very difficult to separate.
[edit] See also
[edit] External links
- Demonstration of all Sorting Algorithms Demonstrations of every sort from Bubble to Quick.
