Recall the notion of a _unitary pre-tabular [[nlab:allegory]]_. [[nlab:bicategory of relations|Bicategories of relations]] are equivalent, but this has yet to be shown rigorously and published, as far as I'm aware. [[all.pdf|This PDF file:file]] makes precise the argument at [[nlab:bicategory of relations]]. Let $\mathbf{A}$ be a unitary pre-tabular allegory. +-- {: .num_lemma} ###### Lemma If $f \colon X \to A$ and $g \colon X \to B$ are maps, then $\langle f, g \rangle = \pi_1^\circ f \cap \pi_2^\circ g$ =-- +-- {: .proof} ###### Proof Let $r = \pi_1^\circ f \cap \pi_2^\circ g$. Then $\pi_1 r = f$ and $\pi_2 r = g$, by the modular law and the fact that projections tabulate top elements. So $r = \langle f, g \rangle$ if and only if it is a map. $$ \begin{aligned} r r^\circ & = (\pi_1^\circ f \cap \pi_2^\circ g)(f^\circ \pi_1 \cap g^\circ \pi_2^\circ) \\ & \leq \pi_1^\circ f f^\circ \pi_1 \cap \pi_2^\circ g g^\circ \pi_2 & \text{(distrib.)} \\ & \leq \pi_1^\circ \pi_1 \cap \pi_2^\circ \pi_2 \\ & = 1 & \text{(proj'ns tabulate)} \end{aligned} $$ For the unit inequality, we have $$ \begin{aligned} r^\circ r & = (f^\circ \pi_1 \cap g^\circ \pi_2^\circ) (\pi_1^\circ f \cap \pi_2^\circ g) \\ & = (f^\circ \pi_1 \cap g^\circ \pi_2^\circ) \pi_1^\circ f \cap (f^\circ \pi_1 \cap g^\circ \pi_2^\circ) \pi_2^\circ g\\ & = (f^\circ \cap g^\circ \pi_2^\circ \pi_1) f \cap (f^\circ \pi_1 \pi_2^\circ \cap g^\circ) g & \text{(mod.)} \\ & = f^\circ f \cap g^\circ g & \text{(dist., proj. tab. top)}\\ & \geq 1 \cap 1 \\ & = 1 \end{aligned} $$ The second equality follows from distributivity $(s \cap t) r \leq s r \cap t r$, which is an equality because $r r^\circ \leq 1$. =--