use std::io; use std::io::Write; use std::io::BufRead; use std::process; use std::cell::RefCell; use std::collections::HashMap; use tokenizer::tokenize; use parser::{parse, ParseResult}; use evaluate::{evaluate, Environment}; mod tokenizer; mod parser; mod evaluate; type BinopTable = HashMap<&'static str, i32>; thread_local!(static BINOP_TABLE: RefCell = RefCell::new(HashMap::new())); fn main() { println!("Unnamed language 0.01"); init_binop_table(); repl(); } fn init_binop_table() { BINOP_TABLE.with(|hm| { macro_rules! insert_precedence { ($op:expr, $prec:expr) => { hm.borrow_mut().insert($op, $prec) } } insert_precedence!("+", 20); insert_precedence!("-", 20); insert_precedence!("*", 40); insert_precedence!("/", 40); insert_precedence!("==", 10); insert_precedence!(">", 15); insert_precedence!("<", 15); insert_precedence!("<=>", 15); }); } fn repl() { let stdin = io::stdin(); let mut stdout = io::stdout(); let mut buf = String::with_capacity(20); let mut env = Environment::new(); loop { buf.clear(); print!(">> "); stdout.flush().ok(); let line = stdin.lock().read_line(&mut buf); match line { Ok(_) => { if buf.is_empty() { break; } if handle_interpreter_directive(&buf, &env) { continue; } let tokens = tokenize(&buf); println!("Tokens: {:?}", tokens); match parse(tokens) { ParseResult::Ok(ast) => { println!("AST: {:?}", ast); let (eval, new_env) = evaluate(ast, env); println!("{}", eval); env = new_env; }, ParseResult::Err(err) => println!("Error: {}", err) } }, Err(err) => { println!("Error: {}", err); } } } } fn handle_interpreter_directive(input: &str, env: &Environment) -> bool { match input.chars().nth(0) { Some('.') => (), _ => return false } let commands: Vec<&str> = input.split(|c: char| c.is_whitespace()).collect(); match commands.get(0) { Some(s) if *s == ".quit" => { println!("Siturei simasu"); process::exit(0); }, Some(s) if *s == ".env" => { env.display(); }, Some(s) => { println!("Unknown directive: {}", s); }, None => () //should never happen } return true; }