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Paper detail

Zig-Zag Numberlink is NP-Complete

When can $t$ terminal pairs in an $m \times n$ grid be connected by $t$ vertex-disjoint paths that cover all vertices of the grid? We prove that this problem is NP-complete. Our hardness result can be compared to two previous NP-hardness proofs: Lynch's 1975 proof without the ``cover all vertices'' constraint, and Kotsuma and Takenaga's 2010 proof when the paths are restricted to have the fewest possible corners within their homotopy class. The latter restriction is a common form of the famous Nikoli puzzle \emph{Numberlink}; our problem is another common form of Numberlink, sometimes called \emph{Zig-Zag Numberlink} and popularized by the smartphone app \emph{Flow Free}.

preprint2014arXivOpen access
Aaron AdcockErik D. DemaineMartin L. DemaineMichael P. O'BrienFelix ReidlFernando Sánchez VillaamilBlair D. Sullivan
Computational Complexity
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Aaron AdcockErik D. DemaineMartin L. DemaineMichael P. O'BrienFelix ReidlFernando Sánchez VillaamilBlair D. Sullivan

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