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use std::collections::HashMap;
use std::fmt;
use std::io;
use std::num::ParseFloatError;
/*
Types
*/
#[derive(Clone)]
enum RispExp {
Bool(bool),
Symbol(String),
Number(f64),
List(Vec<RispExp>),
Func(fn(&[RispExp]) -> Result<RispExp, RispErr>),
}
impl fmt::Display for RispExp {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let str = match self {
RispExp::Bool(a) => a.to_string(),
RispExp::Symbol(s) => s.clone(),
RispExp::Number(n) => n.to_string(),
RispExp::List(list) => {
let xs: Vec<String> = list
.iter()
.map(|x| x.to_string())
.collect();
format!("({})", xs.join(","))
},
RispExp::Func(_) => "Function {}".to_string(),
};
write!(f, "{}", str)
}
}
#[derive(Debug)]
enum RispErr {
Reason(String),
}
#[derive(Clone)]
struct RispEnv {
data: HashMap<String, RispExp>,
}
/*
Parse
*/
fn tokenize(expr: String) -> Vec<String> {
expr
.replace("(", " ( ")
.replace(")", " ) ")
.split_whitespace()
.map(|x| x.to_string())
.collect()
}
fn parse<'a>(tokens: &'a [String]) -> Result<(RispExp, &'a [String]), RispErr> {
let (token, rest) = tokens.split_first()
.ok_or(
RispErr::Reason("could not get token".to_string())
)?;
match &token[..] {
"(" => read_seq(rest),
")" => Err(RispErr::Reason("unexpected `)`".to_string())),
_ => Ok((parse_atom(token), rest)),
}
}
fn read_seq<'a>(tokens: &'a [String]) -> Result<(RispExp, &'a [String]), RispErr> {
let mut res: Vec<RispExp> = vec![];
let mut xs = tokens;
loop {
let (next_token, rest) = xs
.split_first()
.ok_or(RispErr::Reason("could not find closing `)`".to_string()))
?;
if next_token == ")" {
return Ok((RispExp::List(res), rest)) // skip `)`, head to the token after
}
let (exp, new_xs) = parse(&xs)?;
res.push(exp);
xs = new_xs;
}
}
fn parse_atom(token: &str) -> RispExp {
match token.as_ref() {
"true" => RispExp::Bool(true),
"false" => RispExp::Bool(false),
_ => {
let potential_float: Result<f64, ParseFloatError> = token.parse();
match potential_float {
Ok(v) => RispExp::Number(v),
Err(_) => RispExp::Symbol(token.to_string().clone())
}
}
}
}
/*
Env
*/
macro_rules! ensure_tonicity {
($check_fn:expr) => {{
|args: &[RispExp]| -> Result<RispExp, RispErr> {
let floats = parse_list_of_floats(args)?;
let first = floats.first().ok_or(RispErr::Reason("expected at least one number".to_string()))?;
let rest = &floats[1..];
fn f (prev: &f64, xs: &[f64]) -> bool {
match xs.first() {
Some(x) => $check_fn(prev, x) && f(x, &xs[1..]),
None => true,
}
};
Ok(RispExp::Bool(f(first, rest)))
}
}};
}
fn default_env() -> RispEnv {
let mut data: HashMap<String, RispExp> = HashMap::new();
data.insert(
"+".to_string(),
RispExp::Func(
|args: &[RispExp]| -> Result<RispExp, RispErr> {
let sum = parse_list_of_floats(args)?.iter().fold(0.0, |sum, a| sum + a);
Ok(RispExp::Number(sum))
}
)
);
data.insert(
"-".to_string(),
RispExp::Func(
|args: &[RispExp]| -> Result<RispExp, RispErr> {
let floats = parse_list_of_floats(args)?;
let first = *floats.first().ok_or(RispErr::Reason("expected at least one number".to_string()))?;
let sum_of_rest = floats[1..].iter().fold(0.0, |sum, a| sum + a);
Ok(RispExp::Number(first - sum_of_rest))
}
)
);
data.insert(
"=".to_string(),
RispExp::Func(ensure_tonicity!(|a, b| a == b))
);
data.insert(
">".to_string(),
RispExp::Func(ensure_tonicity!(|a, b| a > b))
);
data.insert(
">=".to_string(),
RispExp::Func(ensure_tonicity!(|a, b| a >= b))
);
data.insert(
"<".to_string(),
RispExp::Func(ensure_tonicity!(|a, b| a < b))
);
data.insert(
"<=".to_string(),
RispExp::Func(ensure_tonicity!(|a, b| a <= b))
);
RispEnv {data}
}
fn parse_list_of_floats(args: &[RispExp]) -> Result<Vec<f64>, RispErr> {
args
.iter()
.map(|x| parse_single_float(x))
.collect::<Result<Vec<f64>, RispErr>>()
}
fn parse_single_float(exp: &RispExp) -> Result<f64, RispErr> {
match exp {
RispExp::Number(num) => Ok(*num),
_ => Err(RispErr::Reason("expected a number".to_string())),
}
}
/*
Eval
*/
fn eval(exp: &RispExp, env: &mut RispEnv) -> Result<RispExp, RispErr> {
match exp {
RispExp::Symbol(k) =>
env.data.get(k)
.ok_or(
RispErr::Reason(
format!("unexpected symbol k='{}'", k)
)
)
.map(|x| x.clone())
,
RispExp::Bool(_a) => Ok(exp.clone()),
RispExp::Number(_a) => Ok(exp.clone()),
RispExp::List(list) => {
let first_form = list
.first()
.ok_or(RispErr::Reason("expected a non-empty list".to_string()))?;
let arg_forms = &list[1..];
let first_eval = eval(first_form, env)?;
match first_eval {
RispExp::Func(f) => {
let args_eval = arg_forms
.iter()
.map(|x| eval(x, env))
.collect::<Result<Vec<RispExp>, RispErr>>();
f(&args_eval?)
},
_ => Err(
RispErr::Reason("first form must be a function".to_string())
),
}
},
RispExp::Func(_) => Err(
RispErr::Reason("unexpected form".to_string())
),
}
}
/*
Repl
*/
fn parse_eval(expr: String, env: &mut RispEnv) -> Result<RispExp, RispErr> {
let (parsed_exp, _) = parse(&tokenize(expr))?;
let evaled_exp = eval(&parsed_exp, env)?;
Ok(evaled_exp)
}
fn slurp_expr() -> String {
let mut expr = String::new();
io::stdin().read_line(&mut expr)
.expect("Failed to read line");
expr
}
fn main() {
let env = &mut default_env();
loop {
println!("risp >");
let expr = slurp_expr();
match parse_eval(expr, env) {
Ok(res) => println!("// 🔥 => {}", res),
Err(e) => match e {
RispErr::Reason(msg) => println!("// 🙀 => {}", msg),
},
}
}
}
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