In the k-mappability problem, we are given a string x of length n and
integers m and k, and we are asked to count, for each length-m factor y of x,
the number of other factors of length m of x that are at Hamming distance at
most k from y. We focus here on the version of the problem where k = 1. The
fastest known algorithm for k = 1 requires time O(mn log n/ log log n) and
space O(n). We present two algorithms that require worst-case time O(mn) and
O(n log^2 n), respectively, and space O(n), thus greatly improving the state of
the art. Moreover, we present an algorithm that requires average-case time and
space O(n) for integer alphabets if m = {\Omega}(log n/ log {\sigma}), where
{\sigma} is the alphabet size