The First-Order Theory of Ground Tree Rewrite Graphs
Abstract
We prove that the complexity of the uniform first-order theory of ground tree rewrite graphs is in ATIME(22poly(n),O(n)). Providing a matching lower bound, we show that there is some fixed ground tree rewrite graph whose first-order theory is hard for ATIME(22poly(n),poly(n)) with respect to logspace reductions. Finally, we prove that there exists a fixed ground tree rewrite graph together with a single unary predicate in form of a regular tree language such that the resulting structure has a non-elementary first-order theory.
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