use std::env; use std::fs; use std::io; use std::io::Write; use std::process; mod bytecode; mod scanner; mod treewalk; /// Trait for making the different interpreters callable in the same /// way. pub trait Lox { type Value; type Error: std::fmt::Display; fn create() -> Self; fn interpret( &mut self, source: String, ) -> Result<Self::Value, Vec<Self::Error>>; } fn main() { let mut args = env::args(); if args.len() > 2 { println!("Usage: rlox [script]"); process::exit(1); } match env::var("LOX_INTERPRETER").as_ref().map(String::as_str) { Ok("treewalk") => { pick::<treewalk::interpreter::Interpreter>(args.nth(1)) } _ => pick::<bytecode::Interpreter>(args.nth(1)), } } fn pick<I: Lox>(file_arg: Option<String>) { if let Some(file) = file_arg { run_file::<I>(&file); } else { run_prompt::<I>(); } } // Run Lox code from a file and print results to stdout fn run_file<I: Lox>(file: &str) { let contents = fs::read_to_string(file).expect("failed to read the input file"); let mut lox = I::create(); run(&mut lox, contents); } // Evaluate Lox code interactively in a shitty REPL. fn run_prompt<I: Lox>() { let mut line = String::new(); let mut lox = I::create(); loop { print!("> "); io::stdout().flush().unwrap(); io::stdin() .read_line(&mut line) .expect("failed to read user input"); run(&mut lox, std::mem::take(&mut line)); line.clear(); } } fn run<I: Lox>(lox: &mut I, code: String) { if let Err(errors) = lox.interpret(code) { for error in errors { eprintln!("{}", error); } } }