Abstract
The compact directed acyclic word graph (CDAWG) of a string $T$ is an index occupying $O(\mathsf{e})$ space, where $\mathsf{e}$ is the number of right extensions of maximal repeats in $T$. For highly repetitive datasets, the measure $\mathsf{e}$ typically is small compared to the length $n$ of $T$ and, thus, the CDAWG serves as a compressed index. Unlike other compressibility measures (as LZ77, string attractors, BWT runs, etc.), $\mathsf{e}$ is very unstable with respect to reversals: the CDAWG of the reversed string $\overset{{}_{\leftarrow}}{T} = T[n] \cdots T[2] T[1]$ has size $O(\overset{{}_{\leftarrow}}{\mathsf{e}})$, where $\overset{{}_{\leftarrow}}{\mathsf{e}}$ is the number of left extensions of maximal repeats in $T$, and there are strings $T$ with $\frac{\overset{{}_{\leftarrow}}{\mathsf{e}}}{\mathsf{e}} \in \Omega(\sqrt{n})$. In this note, we prove that this lower bound is tight: $\frac{\overset{{}_{\leftarrow}}{\mathsf{e}}}{\mathsf{e}} \in O(\sqrt{n})$. Furthermore, given the alphabet size $\sigma$, we establish the alphabet-dependent bound $\frac{\overset{{}_{\leftarrow}}{\mathsf{e}}}{\mathsf{e}} \le \min\{\frac{2n}{\sigma}, \sigma\}$ and we show that it is asymptotically tight.