A Rust library for representing, parsing, and computing with first-order term rewriting systems.
To include as a dependency:
[dependencies]
term_rewriting = "0.7"
To actually make use of the library:
extern crate term_rewriting;
use term_rewriting::{Signature, Term, parse_trs, parse_term};
fn main() {
// We can parse a string representation of SK combinatory logic,
let mut sig = Signature::default();
let sk_rules = "S x_ y_ z_ = (x_ z_) (y_ z_); K x_ y_ = x_;";
let trs = parse_trs(&mut sig, sk_rules).expect("parsed TRS");
// and we can also parse an arbitrary term.
let mut sig = Signature::default();
let term = "S K K (K S K)";
let parsed_term = parse_term(&mut sig, term).expect("parsed term");
// These can also be constructed by hand.
let mut sig = Signature::default();
let app = sig.new_op(2, Some(".".to_string()));
let s = sig.new_op(0, Some("S".to_string()));
let k = sig.new_op(0, Some("K".to_string()));
let constructed_term = Term::Application {
op: app,
args: vec![
Term::Application {
op: app,
args: vec![
Term::Application {
op: app,
args: vec![
Term::Application { op: s, args: vec![] },
Term::Application { op: k, args: vec![] },
]
},
Term::Application { op: k, args: vec![] }
]
},
Term::Application {
op: app,
args: vec![
Term::Application {
op: app,
args: vec![
Term::Application { op: k, args: vec![] },
Term::Application { op: s, args: vec![] },
]
},
Term::Application { op: k, args: vec![] }
]
}
]
};
// This is the same output the parser produces.
assert_eq!(parsed_term, constructed_term);
}
Term Rewriting Systems (TRS) are a simple formalism from theoretical computer science used to model the behavior and evolution of tree-based structures like natural langauge parse trees or abstract syntax trees.
A TRS is defined as a pair (S, R). S is a set of symbols called the signature and together with a disjoint and countably infinite set of variables, defines the set of all possible trees, or terms, which the system can consider. R is a set of rewrite rules. A rewrite rule is an equation, s = t, and is interpreted as follows: any term matching the pattern described by s can be rewritten according to the pattern described by t. Together S and R define a TRS that describes a system of computation, which can be considered as a sort of programming language. term-rewriting-rs provides a way to describe arbitrary first-order TRSs (i.e. no λ-binding in rules).
- Baader & Nipkow (1999). Term rewriting and all that. Cambridge University Press.
- Bezem, Klop, & de Vrijer (Eds.) (2003). Term Rewriting Systems. Cambridge University Press.
- Rewriting. (2017). Wikipedia.