Path spaces of higher inductive types in homotopy type theory

Nicolai Kraus; Jakob von Raumer

doi:10.1109/LICS.2019.8785661

Path spaces of higher inductive types in homotopy type theory

Nicolai Kraus, Jakob von Raumer

Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

5 Citations (Scopus)

260 Downloads (Pure)

Abstract

The study of equality types is central to homotopy type theory. Characterizing these types is often tricky, and various strategies, such as the encode-decode method, have been developed. We prove a theorem about equality types of coequalizers and pushouts, reminiscent of an induction principle and without any restrictions on the truncation levels. This result makes it possible to reason directly about certain equality types and to streamline existing proofs by eliminating the necessity of auxiliary constructions. To demonstrate this, we give a very short argument for the calculation of the fundamental group of the circle (Licata and Shulman [1]), and for the fact that pushouts preserve embeddings. Further, our development suggests a higher version of the Seifert-van Kampen theorem, and the set-truncation operator maps it to the standard Seifert-van Kampen theorem (due to Favonia and Shulman [2]). We provide a formalization of the main technical results in the proof assistant Lean.

Original language	English
Title of host publication	2019 34th Annual ACM/IEEE Symposium on Logic in Computer Science (LICS)
Publisher	IEEE Computer Society Press
Number of pages	13
ISBN (Electronic)	9781728136080, 9781728136073
ISBN (Print)	9781728136097
DOIs	https://doi.org/10.1109/LICS.2019.8785661
Publication status	Published - 27 Jun 2019
Event	Thirty-Fourth Annual ACM/IEEE Symposium on Logic in Computer Science (LICS 2019) - Vancouver, Canada Duration: 24 Jun 2019 → 27 Jun 2019

Conference

Conference	Thirty-Fourth Annual ACM/IEEE Symposium on Logic in Computer Science (LICS 2019)
Country/Territory	Canada
City	Vancouver
Period	24/06/19 → 27/06/19

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Accepted author manuscript, 345 KBLicence: None: All rights reserved

https://ieeexplore.ieee.org/document/8785661Licence: None: All rights reserved

Cite this

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title = "Path spaces of higher inductive types in homotopy type theory",

abstract = "The study of equality types is central to homotopy type theory. Characterizing these types is often tricky, and various strategies, such as the encode-decode method, have been developed. We prove a theorem about equality types of coequalizers and pushouts, reminiscent of an induction principle and without any restrictions on the truncation levels. This result makes it possible to reason directly about certain equality types and to streamline existing proofs by eliminating the necessity of auxiliary constructions. To demonstrate this, we give a very short argument for the calculation of the fundamental group of the circle (Licata and Shulman [1]), and for the fact that pushouts preserve embeddings. Further, our development suggests a higher version of the Seifert-van Kampen theorem, and the set-truncation operator maps it to the standard Seifert-van Kampen theorem (due to Favonia and Shulman [2]). We provide a formalization of the main technical results in the proof assistant Lean.",

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AB - The study of equality types is central to homotopy type theory. Characterizing these types is often tricky, and various strategies, such as the encode-decode method, have been developed. We prove a theorem about equality types of coequalizers and pushouts, reminiscent of an induction principle and without any restrictions on the truncation levels. This result makes it possible to reason directly about certain equality types and to streamline existing proofs by eliminating the necessity of auxiliary constructions. To demonstrate this, we give a very short argument for the calculation of the fundamental group of the circle (Licata and Shulman [1]), and for the fact that pushouts preserve embeddings. Further, our development suggests a higher version of the Seifert-van Kampen theorem, and the set-truncation operator maps it to the standard Seifert-van Kampen theorem (due to Favonia and Shulman [2]). We provide a formalization of the main technical results in the proof assistant Lean.

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