Containment of Graph Queries Modulo Schema-Reference-Cited by-同舟云学术

Containment of Graph Queries Modulo Schema

Published:2024-05-10 Issue:2 Volume:2 Page:1-26
ISSN:2836-6573
Container-title:Proceedings of the ACM on Management of Data
language:en
Short-container-title:Proc. ACM Manag. Data

Author:

Gutiérrez-Basulto Víctor¹^ORCID,Gutowski Albert²^ORCID,Ibáñez-García Yazmin A.¹^ORCID,Murlak Filip²^ORCID

Affiliation:

1. Cardiff University, Cardiff, United Kingdom

2. University of Warsaw, Warsaw, Poland

Abstract

With multiple graph database systems on the market and a new Graph Query Language standard on the horizon, it is time to revisit some classic static analysis problems. Query containment, arguably the workhorse of static analysis, has already received a lot of attention in the context of graph databases, but not so in the presence of schemas. We aim to change this. Because there is no universal agreement yet on what graph schemas should be, we rely on an abstract formalism borrowed from the knowledge representation community: we assume that schemas are expressed in a description logic (DL). We identify a suitable DL that capture both basic constraints on the labels of incident nodes and edges, and more refined schema features such as participation, cardinality, and unary key constraints. Basing upon, and extending, the rich body of work on DLs, we solve the containment modulo schema problem for unions of conjunctive regular path queries (UCRPQs) and schemas whose descriptions do not mix inverses and counting. For two-way UCRPQs (UC2RPQs) we solve the problem under additional assumptions that tend to hold in practice: we restrict the use of concatenation in queries and participation constraints in schemas.

Funder

NCN

Publisher

Association for Computing Machinery (ACM)

Link

https://dl.acm.org/doi/pdf/10.1145/3651140

Reference35 articles.

1. Foundations of Modern Query Languages for Graph Databases

2. Renzo Angles, Angela Bonifati, Stefania Dumbrava, George Fletcher, Alastair Green, Jan Hidders, Bei Li, Leonid Libkin, Victor Marsault, Wim Martens, Filip Murlak, Stefan Plantikow, Ognjen Savkovic, Michael Schmidt, Juan Sequeda, Slawek Staworko, Dominik Tomaszuk, Hannes Voigt, Domagoj Vrgoc, Mingxi Wu, and Dusan Zivkovic. 2022. PG-Schema: Schemas for Property Graphs. CoRR , Vol. abs/2211.10962 (2022).

3. Renzo Angles, Angela Bonifati, Stefania Dumbrava, George Fletcher, Keith W. Hare, Jan Hidders, Victor E. Lee, Bei Li, Leonid Libkin, Wim Martens, Filip Murlak, Josh Perryman, Ognjen Savkovic, Michael Schmidt, Juan F. Sequeda, Slawek Staworko, and Dominik Tomaszuk. 2021. PG-Keys: Keys for Property Graphs. In SIGMOD Conference. ACM, 2423--2436.

4. The DL-Lite Family and Relations

5. Franz Baader, Ian Horrocks, Carsten Lutz, and Ulrike Sattler. 2017. An Introduction to Description Logic. Cambridge University Press.