In the 3SUM-Indexing problem the goal is to preprocess two lists of elements from $U$, $A=(a_1,a_2,ldots,a_n)$ and $B=(b_1,b_2,...,b_n)$, such that given an element $cin U$ one can quickly determine whether there exists a pair $(a,b)in A times B$ where $a+b=c$. Goldstein et al.~[WADS2017] conjectured that there is no algorithm for 3SUM-Indexing which uses $n^{2-Omega(1)}$ space and $n^{1-Omega(1)}$ query time. We show that the conjecture is false by reducing the 3SUM-Indexing problem to the problem of inverting functions, and then applying an algorithm of Fiat and Naor [SICOMP1999] for inverting functions.