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LamCalc: An implementation for Lambda Calculus

docs.rs Crates.io tutorial

LamCalc implements untyped Lambda Calculus, Inspired by Lambda Calculus: Basic Interpreter in Rust (Part 2).

Current status: stabalized v1.

Features

  • lambda! macro for convenient definition.
  • Implemented using De Bruijn index.
  • Parser for expressions/definitions/files.
  • WASM package for web application.

Quick View

use lamcalc::{lambda, Error, parser::parse_exp};

fn main () -> Result<(), Error> {
    // define using macro
    let tt = lambda!(x. y. x); // use macro to define lambda
    let ff = lambda!(x. (y. y)); // add parentheses for clarity
    let and = lambda!(x.y.x y x); // space between dots are not necessary

    // multiple printing format
    println!("and = {}", and);   // print lambda
    println!("and = {:#}", and); // lambda with De Bruijn index
    println!("and = {}", and.purify()); // De Bruijn encoding

    // use braces to refer to previously defined lambda
    let mut and_f_t = lambda!({and} {ff} {tt}); 
    and_f_t.simplify(true)?; // get simplified result
    assert_eq!(and_f_t, ff);

    // parse lambda expression string
    let y_combinator = lambda!(f.(x. f (x x)) (x. f (x x)));
    let y_str = r#"\f.(\x. f (x x)) (\x. f (x x))"#;
    let (y2, _) = parse_exp(y_str)?;
    
    assert_eq!(y2, y_combinator);

    Ok(())
}

See examples/ for more.

Development

You may add

{
    "rust-analyzer.cargo.features": [
        "wasm"
    ]
}

to .vscode/settings.json for better Rust code analyzing.