English

A Complete Logic for Database Abstract State Machines

Logic in Computer Science 2017-06-01 v4

Abstract

In database theory, the term database transformation\textit{database transformation} was used to refer to a unifying treatment for computable queries and updates. Recently, it was shown that non-deterministic database transformations can be captured exactly by a variant of ASMs, the so-called Database Abstract State Machines (DB-ASMs). In this article we present a logic for DB-ASMs, extending the logic of Nanchen and St\"ark for ASMs. In particular, we develop a rigorous proof system for the logic for DB-ASMs, which is proven to be sound and complete. The most difficult challenge to be handled by the extension is a proper formalisation capturing non-determinism of database transformations and all its related features such as consistency, update sets or multisets associated with DB-ASM rules. As the database part of a state of database transformations is a finite structure and DB-ASMs are restricted by allowing quantifiers only over the database part of a state, we resolve this problem by taking update sets explicitly into the logic, i.e. by using an additional modal operator [X][X], where XX is interpreted as an update set Δ\Delta generated by a DB-ASM rule. The DB-ASM logic provides a powerful verification tool to study properties of database transformations.

Keywords

Cite

@article{arxiv.1602.07486,
  title  = {A Complete Logic for Database Abstract State Machines},
  author = {Flavio Ferrarotti and Klaus-Dieter Schewe and Loredana Tec and Qing Wang},
  journal= {arXiv preprint arXiv:1602.07486},
  year   = {2017}
}

Comments

To appear in The Logic Journal of the IGPL

R2 v1 2026-06-22T12:56:44.790Z