The Proto-Quipper family of programming languages aims to provide a formal foundation for the Quipper quantum programming language. Unfortunately, Proto-Quipper languages have complex operational semantics: they are inherently effectful, and they rely on set-theoretic operations and fresh name generation to manipulate quantum circuits. This makes them difficult to reason about using standard programming language techniques and, ultimately, to mechanize. We introduce Proto-Quipper-A, a rational reconstruction of Proto-Quipper languages for static circuit generation. It uses a linear $\lambda$-calculus to describe quantum circuits with normal forms that closely correspond to box-and-wire circuit diagrams. Adjoint-logical foundations integrate this circuit language with a linear/non-linear functional language and let us reconstruct Proto-Quipper's circuit programming abstractions using more primitive adjoint-logical operations. Proto-Quipper-A enjoys a simple call-by-value reduction semantics, and to illustrate its tractability as a foundation for Proto-Quipper languages, we show that it is normalizing. We show how to use standard logical relations to prove normalization of linear and substructural systems, thereby avoiding the inherent complexity of existing linear logical relations.

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