Each diagonal uniform space $(X,\mathcal D)$ can be derived from the covering uniform space $(X,\Sigma_{\mathcal D})$ and each covering uniform space $(X,\Sigma)$ can be derived from the diagonal uniform space $(X,\mathcal D_{\Sigma})$. The precompact reflection $(X,\Sigma)$ is denoted by $(X,p\Sigma)$ where $p\Sigma$ contains any covering for $X$ with a finite refinement in $\Sigma$. Now we can define the precompact reflection of the diagonal uniform space $(X,\mathcal D)$ (denoted by $(X,p\mathcal D)$) as $(X,\mathcal D_{p\Sigma_{\mathcal D}})$. My question is: how can we define the precompact reflection of $(X,\mathcal D)$ directly? (without converting it to covering uniform space). One can easily prove: $$p\mathcal D\subseteq \lbrace D\in \mathcal D \mid (\exists F\subset X: F\text{ is finite})(D[F]=X) \rbrace$$ but it seems $\supseteq$ is not always true. I could not find a counterexample for it.