On the structural and combinatorial properties in 2-swap word permutation graphs

07/04/2023
by   Duncan Adamson, et al.
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In this paper, we study the graph induced by the 2-swap permutation on words with a fixed Parikh vector. A 2-swap is defined as a pair of positions s = (i, j) where the word w induced by the swap s on v is v[1] v[2] … v[i - 1] v[j] v[i+1] … v[j - 1] v[i] v[j + 1] … v[n]. With these permutations, we define the Configuration Graph, G(P) defined over a given Parikh vector. Each vertex in G(P) corresponds to a unique word with the Parikh vector P, with an edge between any pair of words v and w if there exists a swap s such that v ∘ s = w. We provide several key combinatorial properties of this graph, including the exact diameter of this graph, the clique number of the graph, and the relationships between subgraphs within this graph. Additionally, we show that for every vertex in the graph, there exists a Hamiltonian path starting at this vertex. Finally, we provide an algorithm enumerating these paths from a given input word of length n with a delay of at most O(log n) between outputting edges, requiring O(n log n) preprocessing.

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