AbstractWe develop abstract-interpretation domain construction in terms of the inverse-limit construction of denotational semantics and topological principles: we define an abstract domain as a “structural approximation” of a concrete domain if the former exists as a finite approximant in the inverse-limit construction of the latter, and we extract the appropriate Galois connection for sound and complete abstract interpretations. The elements of the abstract domain denote (basic) open sets from the concrete domain’s Scott topology, and we hypothesize that every abstract domain, even non-structural approximations, defines a weakened form of topology on its corresponding concrete domain.We implement this observation by relaxing the definition...