Rewrite rule inference using equality saturation

Many compilers, synthesizers, and theorem provers rely on rewrite rules to simplify expressions or prove equivalences. Developing rewrite rules can be difficult: rules may be subtly incorrect, profitable rules are easy to miss, and rulesets must be rechecked or extended whenever semantics are tweake...

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Veröffentlicht in:Proceedings of ACM on programming languages 2021-10, Vol.5 (OOPSLA), p.1-28
Hauptverfasser: Nandi, Chandrakana, Willsey, Max, Zhu, Amy, Wang, Yisu Remy, Saiki, Brett, Anderson, Adam, Schulz, Adriana, Grossman, Dan, Tatlock, Zachary
Format: Artikel
Sprache:eng
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Zusammenfassung:Many compilers, synthesizers, and theorem provers rely on rewrite rules to simplify expressions or prove equivalences. Developing rewrite rules can be difficult: rules may be subtly incorrect, profitable rules are easy to miss, and rulesets must be rechecked or extended whenever semantics are tweaked. Large rulesets can also be challenging to apply: redundant rules slow down rule-based search and frustrate debugging. This paper explores how equality saturation, a promising technique that uses e-graphs to apply rewrite rules, can also be used to infer rewrite rules. E-graphs can compactly represent the exponentially large sets of enumerated terms and potential rewrite rules. We show that equality saturation efficiently shrinks both sets, leading to faster synthesis of smaller, more general rulesets. We prototyped these strategies in a tool dubbed Ruler. Compared to a similar tool built on CVC4, Ruler synthesizes 5.8× smaller rulesets 25× faster without compromising on proving power. In an end-to-end case study, we show Ruler-synthesized rules which perform as well as those crafted by domain experts, and addressed a longstanding issue in a popular open source tool.
ISSN:2475-1421
2475-1421
DOI:10.1145/3485496