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|
use crate::{
app::AppState,
keybind::Keybind,
lisp::{
error::{EvalError, LispError},
expr::{Arity, Ident, LispExpr, LispFunction},
Environment,
},
type_match,
};
use std::{convert::TryInto, str::FromStr};
use log::{error, info};
pub type Context = Vec<String>;
pub struct Evaluator<'ctx, 'global> {
pub app: &'global mut AppState<'ctx>,
pub context: Context,
}
impl<'ctx, 'global> Evaluator<'ctx, 'global>
where
'ctx: 'global,
{
pub fn eval(&mut self, expr: &LispExpr) -> Result<LispExpr, LispError> {
match expr {
LispExpr::Unit => Ok(expr.clone()),
LispExpr::StringLit(_) => Ok(expr.clone()),
LispExpr::Char(_) => Ok(expr.clone()),
LispExpr::Number(_) => Ok(expr.clone()),
LispExpr::BoolLit(_) => Ok(expr.clone()),
LispExpr::Ident(ref id) => lookup(&self.app.lisp_env, id),
LispExpr::Quote(item, _) => Ok(apply_quote(&item.as_ref())),
LispExpr::List(li) => {
let func_expr = &li[0];
match func_expr {
LispExpr::Ident(s) => match s.as_ref() {
"define" => self.define_var(&li[1..]),
"set!" => self.set_var(&li[1..]),
"lambda" => create_lambda(&li[1..]),
"if" => self.eval_if(&li[1..]),
"cond" => self.eval_cond(&li[1..]),
"for" => self.eval_for(&li[1..]),
"quote" => Ok(apply_quote(&li[1])),
"let" => self.eval_let(&li[1..]),
"bind-key" => self.eval_bind_key(&li[1..]),
_ => {
let mut new_ls = vec![self.eval(&func_expr)?];
new_ls.extend(li[1..].to_vec());
self.eval(&(LispExpr::List(new_ls)))
}
},
LispExpr::PrimitiveFunc(f) => {
let mut args = Vec::new();
// context.push(f.name.to_string());
for item in li[1..].iter() {
args.push(self.eval(item)?);
}
f.call(&args, &mut self.app)
}
LispExpr::Function(f) => {
let mut args = Vec::new();
for item in li[1..].iter() {
let i = self.eval(item)?;
args.push(i);
}
if f.params.len() != args.len() {
info!("too many or too little number of args");
Err(EvalError::ArgumentCount(Arity::Exact(f.params.len())).into())
} else {
let nested_env: Environment =
f.params.clone().into_iter().zip(args).collect();
self.app.lisp_env.push(nested_env);
let result = self.eval(&f.body);
self.app.lisp_env.pop();
result
}
}
LispExpr::List(_) => {
info!("list as funciton");
let func_expr = self.eval(&func_expr)?;
let mut new_ls = vec![func_expr];
new_ls.extend(li[1..].to_vec());
self.eval(&(LispExpr::List(new_ls)))
}
_ => Err(EvalError::BadForm.into()),
}
}
_ => Err(EvalError::BadForm.into()),
}
}
pub fn define_var(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Exact(2);
if !arity.check(args) {
return Err(arity.to_error());
}
match args {
[LispExpr::Ident(id), expr] => {
let value = self.eval(&expr)?;
let local_env = &mut self.app.lisp_env.last_mut();
if let Some(env) = local_env {
env.insert(id.into(), value);
} else {
error!("Unable to create global definition");
return Err(EvalError::BadForm.into());
}
Ok(LispExpr::Unit)
}
[LispExpr::List(shorthand), body] => {
// (define (func arg) <body>) shorthand
let id = shorthand[0].unwrap_ident();
let params = if shorthand.len() > 1 {
&shorthand[1..]
} else {
&[]
}
.to_vec()
.into_iter()
.map(|arg| arg.try_into())
.collect::<Result<Vec<Ident>, LispError>>()?;
let value = LispExpr::Function(LispFunction {
params,
body: Box::new(body.clone()),
});
let local_env = &mut self.app.lisp_env.last_mut();
if let Some(env) = local_env {
env.insert(id, value);
} else {
error!("Unable to create global definition");
return Err(EvalError::BadForm.into());
}
Ok(LispExpr::Unit)
}
_ => {
error!("Invalid usage of `define`");
Err(EvalError::BadForm.into())
}
}
}
pub fn set_var(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Exact(2);
if !arity.check(args) {
return Err(arity.to_error());
}
match args {
[LispExpr::Ident(id), expr] => {
let value = self.eval(&expr)?;
let local_env = self.app.lisp_env.last_mut();
if let Some(env) = local_env {
env.insert(id.into(), value)
.ok_or_else(|| EvalError::UnboundVariable(id.into()).into())
} else {
error!("Unable to set in global env!");
Err(EvalError::BadForm.into())
}
}
_ => {
error!("Invalid usage of `set!`");
Err(EvalError::BadForm.into())
}
}
}
pub fn eval_if(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Exact(3);
if !arity.check(args) {
Err(arity.to_error())
} else {
match args {
[predicate, then, else_] => {
let predicate = self.eval(&predicate)?;
if matches!(predicate, LispExpr::BoolLit(false)) {
self.eval(&else_)
} else {
self.eval(&then)
}
}
_ => {
panic!("panicked at `if` expression")
}
}
}
}
pub fn eval_cond(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Atleast(1);
let valid_cond_stmt = |expr: &LispExpr| matches!(expr, LispExpr::List(v) if v.len() == 2);
if !arity.check(args) {
Err(arity.to_error())
} else {
for cond_stmt in args {
if valid_cond_stmt(cond_stmt) {
match &cond_stmt.unwrap_list()[..] {
[predicate, then] => {
if self.eval(&predicate)?.cast_bool() {
return self.eval(&then);
}
}
_ => return Err(EvalError::BadForm.into()),
}
} else {
error!("bad `cond` form");
return Err(EvalError::BadForm.into());
}
}
Ok(LispExpr::Unit)
}
}
pub fn eval_for(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Exact(2);
let valid_binding_stmt = |expr: &LispExpr| {
matches!(
expr,
LispExpr::List(v)
if v.len() == 2
&& matches!(v[0], LispExpr::Ident(_)))
};
if !arity.check(args) {
Err(arity.to_error())
} else {
let nested_env = Environment::new();
self.app.lisp_env.push(nested_env);
match args {
[binding, body] => {
if valid_binding_stmt(binding) {
let binding = binding.unwrap_list();
let binding_name = binding[0].unwrap_ident();
let binding_ls = self.eval(&binding[1])?;
if matches!(binding_ls, LispExpr::List(_)) {
let binding_ls = binding_ls.unwrap_list();
let mut result = vec![];
for bind_val in binding_ls.iter() {
let value = self.eval(&bind_val)?;
if let Some(env) = self.app.lisp_env.last_mut() {
env.insert(binding_name.clone(), value);
}
result.push(self.eval(body)?);
}
self.app.lisp_env.pop();
Ok(LispExpr::List(result))
} else {
error!("invalid binding form");
Err(EvalError::BadForm.into())
}
} else {
error!("invalid binding form");
Err(EvalError::BadForm.into())
}
}
_ => {
error!("invalid for loop args");
Err(EvalError::BadForm.into())
}
}
}
}
pub fn eval_let(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Exact(2);
let valid_binding_stmt =
|expr: &LispExpr| matches!(expr, LispExpr::List(v) if v.len() == 2);
if !arity.check(args) {
Err(arity.to_error())
} else {
let nested_env = Environment::new();
self.app.lisp_env.push(nested_env);
match args {
[LispExpr::List(bindings), body] => {
for binding_stmt in bindings {
if valid_binding_stmt(binding_stmt) {
match &binding_stmt.unwrap_list()[..] {
[LispExpr::Ident(id), bind_val] => {
let value = self.eval(&bind_val)?;
if let Some(env) = self.app.lisp_env.last_mut() {
env.insert(id.into(), value);
}
}
_ => {
error!("bad let binding form");
return Err(EvalError::BadForm.into());
}
}
} else {
error!("bad `let` form");
return Err(EvalError::BadForm.into());
}
}
let result = self.eval(&body);
self.app.lisp_env.pop();
result
}
_ => {
error!("bad `let` form");
Err(EvalError::BadForm.into())
}
}
}
}
pub fn eval_bind_key(&mut self, args: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity = Arity::Exact(2);
if !arity.check(args) {
Err(arity.to_error())
} else {
match args {
[LispExpr::StringLit(s), body] => {
let bind = Keybind::from_str(&s).map_err(EvalError::KeybindError)?;
self.app.keybinds.insert(bind, body.clone());
Ok(LispExpr::Unit)
}
_ => Err(EvalError::BadForm.into()),
}
}
}
}
pub fn apply_quote(arg: &LispExpr) -> LispExpr {
match arg {
i @ LispExpr::Unit
| i @ LispExpr::StringLit(_)
| i @ LispExpr::Char(_)
| i @ LispExpr::Number(_)
| i @ LispExpr::BoolLit(_) => i.clone(),
LispExpr::Quote(expr, depth) => LispExpr::Quote(Box::clone(expr), depth + 1),
LispExpr::List(ls) => LispExpr::List(ls.iter().map(|a| apply_quote(a)).collect::<Vec<_>>()),
_ => arg.clone(),
}
}
pub fn create_lambda(cdr: &[LispExpr]) -> Result<LispExpr, LispError> {
let arity: Arity = Arity::Exact(2);
if !arity.check(cdr) {
return Err(arity.to_error());
}
match cdr {
[LispExpr::List(params), body] if type_match!(params, (..) => LispExpr::Ident(_)) => {
Ok(LispExpr::Function(LispFunction {
params: params.iter().map(|p| p.unwrap_ident()).collect::<Vec<_>>(),
body: Box::new(body.clone()),
}))
}
_ => {
error!("Invalid usage of `lambda`");
Err(EvalError::BadForm.into())
}
}
}
pub fn lookup(env_list: &[Environment], key: &str) -> Result<LispExpr, LispError> {
if env_list.is_empty() {
Err(EvalError::UnboundVariable(key.into()).into())
} else {
let local_env = env_list.last().unwrap();
if let Some(val) = local_env.get(key) {
Ok(val.clone())
} else {
lookup(&env_list[..env_list.len() - 1], key)
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::lisp::{expr::LispExpr, lex::Lexer, number::LispNumber, parse::Parser};
fn run(code: &str, app: &mut AppState) -> LispExpr {
let mut parser = Parser::new(Lexer::new(code));
let mut evaluator = Evaluator {
app,
context: Vec::new(),
};
evaluator
.eval(&parser.parse_single_expr().unwrap())
.unwrap()
}
#[test]
fn eval_all() {
let sdl_context = sdl2::init().unwrap();
let ttf_context = sdl2::ttf::init().unwrap();
let mut app = AppState::init(100, 100, &sdl_context, &ttf_context, None, None).unwrap();
eval_arithmetic(&mut app);
eval_logical(&mut app);
eval_looping(&mut app);
eval_quote(&mut app);
eval_std_tests(&mut app);
}
fn eval_arithmetic(app: &mut AppState) {
assert_eq!(
run("(+ 1 2 3)", app),
LispExpr::Number(LispNumber::Integer(6))
);
assert_eq!(
run("(+ 1.1 2.2 3.3)", app),
LispExpr::Number(LispNumber::Float(6.6))
);
assert_eq!(
run("(* 1 2 3 4 5)", app),
LispExpr::Number(LispNumber::Integer(120))
);
assert_eq!(run("(< 1 2)", app), LispExpr::BoolLit(true));
assert_eq!(run("(> 6 5 4 3 2 1)", app), LispExpr::BoolLit(true));
assert_eq!(run("(< 1 2 3 4 5 6)", app), LispExpr::BoolLit(true));
assert_eq!(run("(>= 5 5 4 3 2 1)", app), LispExpr::BoolLit(true));
assert_eq!(run("(<= 2 2 3 4 5 6)", app), LispExpr::BoolLit(true));
}
fn eval_quote(app: &mut AppState) {
assert!(run("(quote a)", app).cast_bool());
assert!(run("(eq? 'a 'a)", app).cast_bool());
assert!(run("(eq? '(1 2 3) '(1 2 3))", app).cast_bool());
assert!(run("(eq? '(1 '(1 2 3)) '(1 '(1 2 3)))", app).cast_bool(),);
assert!(run("(eq? '#t '#t)", app).cast_bool());
assert!(run("(eq? 1 '1)", app).cast_bool());
assert_eq!(
run("'(1 2 3)", app),
LispExpr::List(
vec![1, 2, 3]
.into_iter()
.map(LispNumber::Integer)
.map(LispExpr::Number)
.collect()
),
);
assert_eq!(
run("(caar (cdr '(1 (4 5))))", app),
LispExpr::Number(LispNumber::Integer(4))
);
assert_eq!(run("''1", app), LispExpr::Number(LispNumber::Integer(1)));
}
fn eval_logical(app: &mut AppState) {
assert!(run("(and #t #t)", app).cast_bool());
assert!(run("(or #f #t)", app).cast_bool());
assert!(!run("(not #t)", app).cast_bool());
assert_eq!(run("(not #f)", app), run("(not (not #t))", app));
}
fn eval_looping(app: &mut AppState) {
assert_eq!(
run("(for (i '(1 2 3)) (+ i 2))", app),
run("(map (lambda (x) (+ x 2)) '(1 2 3))", app)
);
}
fn eval_std_tests(app: &mut AppState) {
crate::utils::load_script("src/lisp/test.lisp", app).unwrap();
}
}
|