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Remarks on Primitive Regulation

Published 18 May 2026 in math.LO | (2605.18924v1)

Abstract: We prove, and mechanize in Rocq, an abstract obstruction theorem for primitive closure predicates, defined as $C : \mathsf{Form} \to \mathsf{Prop}$ over the closed implication-falsity fragment $A,B ::= \bot \mid A \to B$. Two structurally distinct completeness principles for $C$ enter the result. Evaluation completeness $\mathsf{Eval}(C)$ is generative: every formula-valued behavior of codes admits a representing code, up to closure equivalence $A \simeq_C B \triangleq C(A \to B) \land C(B \to A)$. Excluded-middle completeness $\mathsf{LEM}(C)$ is decisional: every formula is accepted, or its object-level negation is accepted. Yet their conjunction is obstructive: $\mathsf{Eval}(C)$ generates a reflective fixed-point $B \simeq_C \lnot B$, which $\mathsf{LEM}(C)$ forces $C$ to classify. Either branch collapses to $C(\bot)$ under modus ponens, and consistency converts the internal collapse into an external contradiction. A Boolean decision strengthens $\mathsf{LEM}(C)$ and is therefore obstructed, whereas refutation imposes no coverage requirement and is inhabited by the always-false classifier.

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