6533b872fe1ef96bd12d2de2

RESEARCH PRODUCT

Loop-free Gray code algorithm for the e-restricted growth functions

Toufik MansourVincent VajnovszkiGhalib Nassar

subject

Discrete mathematicsPrefix codeGeneralizationOrder (ring theory)Computer Science ApplicationsTheoretical Computer ScienceCombinatoricsSet (abstract data type)Gray codeTree (descriptive set theory)Signal ProcessingFunction representationRepresentation (mathematics)AlgorithmInformation SystemsMathematics

description

The subject of Gray codes algorithms for the set partitions of {1,2,...,n} had been covered in several works. The first Gray code for that set was introduced by Knuth (1975) [5], later, Ruskey presented a modified version of [email protected]?s algorithm with distance two, Ehrlich (1973) [3] introduced a loop-free algorithm for the set of partitions of {1,2,...,n}, Ruskey and Savage (1994) [9] generalized [email protected]?s results and give two Gray codes for the set of partitions of {1,2,...,n}, and recently, Mansour et al. (2008) [7] gave another Gray code and loop-free generating algorithm for that set by adopting plane tree techniques. In this paper, we introduce the set of e-restricted growth functions (a generalization of restricted growth functions) and extend the aforementioned results by giving a Gray code with distance one for this set; and as a particular case we obtain a new Gray code for set partitions in restricted growth function representation. Our Gray code satisfies some prefix properties and can be implemented by a loop-free generating algorithm using classical techniques; such algorithms can be used as a practical solution of some difficult problems. Finally, we give some enumerative results concerning the restricted growth functions of order d.

yearjournalcountryeditionlanguage
2011-05-01Information Processing Letters
https://doi.org/10.1016/j.ipl.2011.03.006