# Shortlex order

In mathematics, and particularly in the theory of formal languages, **shortlex** is a total ordering for finite sequences of objects that can themselves be totally ordered. In the shortlex ordering, sequences are primarily sorted by cardinality (length) with the shortest sequences first, and sequences of the same length are sorted into lexicographical order.^{[1]} Shortlex ordering is also called **radix**, **length-lexicographic**, **military**, or **genealogical** ordering.^{[2]}

In the context of strings on a totally ordered alphabet, the **shortlex order** is identical to the lexicographical order, except that shorter strings precede longer strings. For example, the shortlex order of the set of strings on the English alphabet (in its usual order) is [*ε, a, b, c, ..., z, aa, ab, ac, ..., zz, aaa, aab, aac, ..., zzz, ...*], where ε denotes the empty string.

The strings in this ordering over a fixed finite alphabet can be placed into one-to-one order-preserving correspondence with the non-negative integers, giving the bijective numeration system for representing numbers.^{[3]} The shortlex ordering is also important in the theory of automatic groups.^{[4]}

## ReferencesEdit

**^**Sipser, Michael (2012).*Introduction to the Theory of Computation*(3 ed.). Boston, MA: Cengage Learning. p. 14. ISBN 978-1133187790.**^**Bárány, Vince (2008), "A hierarchy of automatic ω-words having a decidable MSO theory",*RAIRO Theoretical Informatics and Applications*,**42**(3): 417–450, doi:10.1051/ita:2008008, MR 2434027.**^**Smullyan, R. (1961), "9. Lexicographical ordering;*n*-adic representation of integers",*Theory of Formal Systems*, Annals of Mathematics Studies,**47**, Princeton University Press, pp. 34–36.**^**Epstein, David B. A.; Cannon, James W.; Holt, Derek F.; Levy, Silvio V. F.; Paterson, Michael S.; Thurston, William P. (1992),*Word processing in groups*, Boston, MA: Jones and Bartlett Publishers, p. 56, ISBN 0-86720-244-0, MR 1161694.

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