clippy moment

This commit is contained in:
TriMill 2022-09-11 13:02:18 -04:00
parent 4ef3fdb46d
commit 509c9d3c04
15 changed files with 82 additions and 79 deletions

View file

@ -3,9 +3,9 @@ use std::{rc::Rc, cell::RefCell, fs};
use complexpr::{eval::Environment, interpreter::interpret, value::Value, stdlib}; use complexpr::{eval::Environment, interpreter::interpret, value::Value, stdlib};
use rustyline::{self, error::ReadlineError}; use rustyline::{self, error::ReadlineError};
const C_RESET: &'static str = "\x1b[0m"; const C_RESET: &str = "\x1b[0m";
const C_BLUE: &'static str = "\x1b[94m"; const C_BLUE: &str = "\x1b[94m";
const PROMPT: &'static str = "\x1b[94m>> \x1b[0m"; const PROMPT: &str = "\x1b[94m>> \x1b[0m";
fn main() -> Result<(), Box<dyn std::error::Error>> { fn main() -> Result<(), Box<dyn std::error::Error>> {
let args: Vec<String> = std::env::args().collect(); let args: Vec<String> = std::env::args().collect();

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@ -23,12 +23,12 @@ impl Environment {
Self { parent: Some(parent), map: HashMap::new() } Self { parent: Some(parent), map: HashMap::new() }
} }
pub fn get(&self, name: &str) -> Result<Value,()> { pub fn get(&self, name: &str) -> Option<Value> {
match self.map.get(name) { match self.map.get(name) {
Some(v) => Ok(v.clone()), Some(v) => Some(v.clone()),
None => match self.parent { None => match self.parent {
Some(ref p) => p.borrow().get(name), Some(ref p) => p.borrow().get(name),
None => Err(()) None => None
} }
} }
} }
@ -48,6 +48,12 @@ impl Environment {
} }
} }
impl Default for Environment {
fn default() -> Self {
Self::new()
}
}
pub enum Unwind { pub enum Unwind {
Continue{pos: Position}, Break{pos: Position}, Return{pos: Position, value: Value}, Error(RuntimeError) Continue{pos: Position}, Break{pos: Position}, Return{pos: Position, value: Value}, Error(RuntimeError)
} }
@ -69,7 +75,7 @@ impl From<RuntimeError> for Unwind {
} }
} }
fn unwrap_ident_token<'a>(tok: &'a Token) -> &'a Rc<str> { fn unwrap_ident_token(tok: &Token) -> &Rc<str> {
if let Token { ty: TokenType::Ident(s),.. } = tok { if let Token { ty: TokenType::Ident(s),.. } = tok {
s s
} else { } else {
@ -97,31 +103,33 @@ pub fn eval_stmt(stmt: &Stmt, env: EnvRef) -> Result<(), Unwind> {
for ic in if_clauses { for ic in if_clauses {
let cond = eval_expr(&ic.0, env.clone())?; let cond = eval_expr(&ic.0, env.clone())?;
if cond.truthy() { if cond.truthy() {
return eval_stmt(&ic.1, env.clone()) return eval_stmt(&ic.1, env)
} }
} }
if let Some(ec) = else_clause { if let Some(ec) = else_clause {
return eval_stmt(&ec, env) return eval_stmt(ec, env)
} }
}, },
Stmt::For { var, expr, stmt } => { Stmt::For { var, expr, stmt } => {
let name = unwrap_ident_token(var); let name = unwrap_ident_token(var);
let iter = eval_expr(expr, env.clone())?; let iter = eval_expr(expr, env.clone())?;
env.borrow_mut().declare(name.clone(), Value::Nil); env.borrow_mut().declare(name.clone(), Value::Nil);
if let Ok(i) = iter.iter() { let iterator = iter.iter();
if let Err(e) = iterator {
return Err(RuntimeError { message: e, pos: var.pos.clone() }.into())
}
if let Ok(i) = iterator {
for v in i { for v in i {
let env = env.clone(); let env = env.clone();
env.borrow_mut().set(name.clone(), v).expect("unreachable"); env.borrow_mut().set(name.clone(), v).expect("unreachable");
match eval_stmt(&stmt, env) { match eval_stmt(stmt, env) {
Ok(_) => (), Ok(_) => (),
Err(Unwind::Break{..}) => break, Err(Unwind::Break{..}) => break,
Err(Unwind::Continue{..}) => continue, Err(Unwind::Continue{..}) => continue,
Err(e) => return Err(e) Err(e) => return Err(e)
} }
} }
} else { }
return Err(RuntimeError { message: "Cannot iterate this type".into(), pos: var.pos.clone() }.into())
};
}, },
Stmt::While { expr, stmt } => { Stmt::While { expr, stmt } => {
loop { loop {
@ -129,7 +137,7 @@ pub fn eval_stmt(stmt: &Stmt, env: EnvRef) -> Result<(), Unwind> {
if !cond.truthy() { if !cond.truthy() {
break break
} }
match eval_stmt(&stmt, env.clone()) { match eval_stmt(stmt, env.clone()) {
Ok(_) => (), Ok(_) => (),
Err(Unwind::Break{..}) => break, Err(Unwind::Break{..}) => break,
Err(Unwind::Continue{..}) => continue, Err(Unwind::Continue{..}) => continue,
@ -201,15 +209,15 @@ pub fn eval_ident(token: &Token, env: EnvRef) -> Result<Value, RuntimeError> {
if let Token { ty: TokenType::Ident(name), ..} = token { if let Token { ty: TokenType::Ident(name), ..} = token {
env.borrow_mut() env.borrow_mut()
.get(name) .get(name)
.map_err(|_| RuntimeError { message: "Variable not defined in scope".into(), pos: token.pos.clone() }) .ok_or_else(|| RuntimeError { message: "Variable not defined in scope".into(), pos: token.pos.clone() })
} else { } else {
unreachable!() unreachable!()
} }
} }
pub fn eval_assignment(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> { pub fn eval_assignment(lhs: &Expr, rhs: &Expr, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> {
// lhs must be an identifier (checked in parser) // lhs must be an identifier (checked in parser)
if let Expr::Ident{value: Token{ty: TokenType::Ident(name),..}} = &**lhs { if let Expr::Ident{value: Token{ty: TokenType::Ident(name),..}} = lhs {
if op.ty == TokenType::Equal { if op.ty == TokenType::Equal {
// plain assignment // plain assignment
let r = eval_expr(rhs, env.clone())?; let r = eval_expr(rhs, env.clone())?;
@ -221,7 +229,7 @@ pub fn eval_assignment(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef
// compound assignment // compound assignment
let prev_value = env.borrow_mut() let prev_value = env.borrow_mut()
.get(name) .get(name)
.map_err(|_| RuntimeError { message: "Variable not defined in scope".into(), pos: op.pos.clone()})?; .ok_or_else(|| RuntimeError { message: "Variable not defined in scope".into(), pos: op.pos.clone()})?;
let r = eval_expr(rhs, env.clone())?; let r = eval_expr(rhs, env.clone())?;
let result = match op.ty { let result = match op.ty {
@ -237,7 +245,7 @@ pub fn eval_assignment(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef
.set(name.clone(), result.clone()).expect("unreachable"); .set(name.clone(), result.clone()).expect("unreachable");
Ok(result) Ok(result)
} }
} else if let Expr::Index { lhs, index, pos } = &**lhs { } else if let Expr::Index { lhs, index, pos } = lhs {
let l = eval_expr(lhs, env.clone())?; let l = eval_expr(lhs, env.clone())?;
let idx = eval_expr(index, env.clone())?; let idx = eval_expr(index, env.clone())?;
if op.ty == TokenType::Equal { if op.ty == TokenType::Equal {
@ -263,7 +271,7 @@ pub fn eval_assignment(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef
} }
} }
pub fn eval_binary(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> { pub fn eval_binary(lhs: &Expr, rhs: &Expr, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> {
let l = eval_expr(lhs, env.clone())?; let l = eval_expr(lhs, env.clone())?;
let r = eval_expr(rhs, env)?; let r = eval_expr(rhs, env)?;
match op.ty { match op.ty {
@ -276,7 +284,7 @@ pub fn eval_binary(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) ->
}.map_err(|e| RuntimeError { message: e, pos: op.pos.clone() }) }.map_err(|e| RuntimeError { message: e, pos: op.pos.clone() })
} }
pub fn eval_boolean(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> { pub fn eval_boolean(lhs: &Expr, rhs: &Expr, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> {
let l = eval_expr(lhs, env.clone())?; let l = eval_expr(lhs, env.clone())?;
match op.ty { match op.ty {
TokenType::DoubleAmper => if l.truthy() { TokenType::DoubleAmper => if l.truthy() {
@ -293,7 +301,7 @@ pub fn eval_boolean(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) -
} }
} }
pub fn eval_comp(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> { pub fn eval_comp(lhs: &Expr, rhs: &Expr, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> {
let l = eval_expr(lhs, env.clone())?; let l = eval_expr(lhs, env.clone())?;
let r = eval_expr(rhs, env)?; let r = eval_expr(rhs, env)?;
let mk_err = || RuntimeError { let mk_err = || RuntimeError {
@ -322,7 +330,7 @@ pub fn eval_comp(lhs: &Box<Expr>, rhs: &Box<Expr>, op: &Token, env: EnvRef) -> R
} }
} }
pub fn eval_unary(arg: &Box<Expr>, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> { pub fn eval_unary(arg: &Expr, op: &Token, env: EnvRef) -> Result<Value, RuntimeError> {
let a = eval_expr(arg, env)?; let a = eval_expr(arg, env)?;
match op.ty { match op.ty {
TokenType::Minus => -a, TokenType::Minus => -a,

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@ -49,7 +49,7 @@ impl fmt::Debug for Expr {
impl Expr { impl Expr {
pub fn is_lvalue(&self) -> bool { pub fn is_lvalue(&self) -> bool {
return matches!(self, Expr::Ident{..} | Expr::Index{..}) matches!(self, Expr::Ident{..} | Expr::Index{..})
} }
pub fn is_assignment(&self) -> bool { pub fn is_assignment(&self) -> bool {

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@ -15,7 +15,7 @@ pub struct Lexer {
impl Lexer { impl Lexer {
pub fn new(code: &str, filename: Option<String>) -> Self { pub fn new(code: &str, filename: Option<String>) -> Self {
Self { filename: filename.map(|s| Rc::from(s)), line: 1, col: 1, tokens: vec![], start: 0, current: 0, code: code.chars().collect() } Self { filename: filename.map(Rc::from), line: 1, col: 1, tokens: vec![], start: 0, current: 0, code: code.chars().collect() }
} }
pub fn into_tokens(self) -> Vec<Token> { pub fn into_tokens(self) -> Vec<Token> {
@ -181,7 +181,7 @@ impl Lexer {
// TODO Escapes // TODO Escapes
} }
if self.at_end() { return Err(self.mk_error("Unexpected EOF in character literal")) } if self.at_end() { return Err(self.mk_error("Unexpected EOF in character literal")) }
self.expect(&['\'']).ok_or(self.mk_error("Expected ' to terminate character literal"))?; self.expect(&['\'']).ok_or_else(|| self.mk_error("Expected ' to terminate character literal"))?;
self.add_token(TokenType::Char(c), self.collect_literal()); self.add_token(TokenType::Char(c), self.collect_literal());
Ok(()) Ok(())
} }

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@ -126,10 +126,10 @@ impl Parser {
} }
} }
let next = self.next(); let next = self.next();
return match next.ty { match next.ty {
TokenType::Semicolon => Ok(Stmt::Let{lhs: tok, rhs: Some(*rhs)}), TokenType::Semicolon => Ok(Stmt::Let{lhs: tok, rhs: Some(*rhs)}),
_ => Err(self.mk_error("Missing semicolon after 'let' statement".to_owned())) _ => Err(self.mk_error("Missing semicolon after 'let' statement".to_owned()))
}; }
} else { } else {
Err(self.mk_error("Invalid expression after 'let'".to_owned())) Err(self.mk_error("Invalid expression after 'let'".to_owned()))
} }
@ -142,10 +142,10 @@ impl Parser {
} }
} }
let next = self.next(); let next = self.next();
return match next.ty { match next.ty {
TokenType::Semicolon => Ok(Stmt::Let{lhs: tok, rhs: None}), TokenType::Semicolon => Ok(Stmt::Let{lhs: tok, rhs: None}),
_ => Err(self.mk_error("Missing semicolon after 'let' statement".to_owned())) _ => Err(self.mk_error("Missing semicolon after 'let' statement".to_owned()))
}; }
} else { } else {
Err(self.mk_error("Invalid expression after 'let'".to_owned())) Err(self.mk_error("Invalid expression after 'let'".to_owned()))
} }
@ -164,15 +164,13 @@ impl Parser {
_ => break _ => break
} }
} }
let else_clause; let else_clause = if ec {
if ec { Some(Box::new(self.statement()?))
else_clause = Some(Box::new(self.statement()?));
} else { } else {
else_clause = None; None
} };
return Ok(Stmt::If{ Ok(Stmt::If{
if_clauses: if_clauses, if_clauses, else_clause
else_clause: else_clause
}) })
} }
@ -210,7 +208,7 @@ impl Parser {
} }
self.err_on_eof()?; self.err_on_eof()?;
self.next(); self.next();
return Ok(Stmt::Block{ stmts }) Ok(Stmt::Block{ stmts })
} }
// Generic method for left-associative operators // Generic method for left-associative operators
@ -320,7 +318,7 @@ impl Parser {
fn fncall_inner(&mut self, expr: Expr) -> Result<Expr, ParserError> { fn fncall_inner(&mut self, expr: Expr) -> Result<Expr, ParserError> {
let lparen = self.next(); let lparen = self.next();
let args = self.commalist(TokenType::RParen, Self::assignment)?; let args = self.commalist(TokenType::RParen, Self::assignment)?;
Ok(Expr::FuncCall { func: Box::new(expr), args, pos: lparen.pos.clone() }) Ok(Expr::FuncCall { func: Box::new(expr), args, pos: lparen.pos })
} }
fn arrindex_inner(&mut self, expr: Expr) -> Result<Expr, ParserError> { fn arrindex_inner(&mut self, expr: Expr) -> Result<Expr, ParserError> {
@ -328,9 +326,9 @@ impl Parser {
let index = self.assignment()?; let index = self.assignment()?;
self.err_on_eof()?; self.err_on_eof()?;
if self.next().ty != TokenType::RBrack { if self.next().ty != TokenType::RBrack {
return Err(ParserError { message: "Expected RBrack after collection index".into(), pos: lbrack.pos.clone() }); return Err(ParserError { message: "Expected RBrack after collection index".into(), pos: lbrack.pos });
} }
Ok(Expr::Index { lhs: Box::new(expr), index: Box::new(index), pos: lbrack.pos.clone() }) Ok(Expr::Index { lhs: Box::new(expr), index: Box::new(index), pos: lbrack.pos })
} }
fn expr_base(&mut self) -> Result<Expr, ParserError> { fn expr_base(&mut self) -> Result<Expr, ParserError> {

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@ -1,4 +1,4 @@
use std::{rc::Rc, io::Write}; use std::{rc::Rc, io::Write, cmp::Ordering};
use num_traits::ToPrimitive; use num_traits::ToPrimitive;
@ -53,7 +53,7 @@ fn fn_input(_: Vec<Value>) -> Result<Value, String> {
let mut buffer = String::new(); let mut buffer = String::new();
let stdin = std::io::stdin(); let stdin = std::io::stdin();
stdin.read_line(&mut buffer).map_err(|e| e.to_string())?; stdin.read_line(&mut buffer).map_err(|e| e.to_string())?;
if buffer.ends_with("\n") { if buffer.ends_with('\n') {
buffer.pop(); buffer.pop();
} }
Ok(Value::from(buffer)) Ok(Value::from(buffer))
@ -84,14 +84,12 @@ fn fn_range(args: Vec<Value>) -> Result<Value, String> {
let min = &args[0]; let min = &args[0];
let max = &args[1]; let max = &args[1];
match (min, max) { match (min, max) {
(Value::Int(a), Value::Int(b)) => { (Value::Int(a), Value::Int(b)) => match a.cmp(b) {
if a == b { Ordering::Equal => Ok(Value::from(vec![])),
Ok(Value::from(vec![])) Ordering::Less =>
} else if a < b { Ok(Value::from((*a..*b).map(Value::Int).collect::<Vec<Value>>())),
Ok(Value::from((*a..*b).map(|x| Value::Int(x)).collect::<Vec<Value>>())) Ordering::Greater =>
} else { Ok(Value::from(((*b+1)..(*a+1)).rev().map(Value::Int).collect::<Vec<Value>>()))
Ok(Value::from(((*b+1)..(*a+1)).rev().map(|x| Value::Int(x)).collect::<Vec<Value>>()))
}
}, },
_ => Err("Both arguments to range must be integers".into()) _ => Err("Both arguments to range must be integers".into())
} }

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@ -65,7 +65,7 @@ impl TokenType {
} }
} }
#[derive(Clone,Copy,Debug,PartialEq)] #[derive(Clone,Copy,Debug,PartialEq,Eq)]
pub enum OpType { pub enum OpType {
Assignment, Comparison, Pipeline, Additive, Multiplicative, Exponential, Boolean Assignment, Comparison, Pipeline, Additive, Multiplicative, Exponential, Boolean
} }

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@ -61,28 +61,27 @@ impl Value {
} }
} }
pub fn iter(&self) -> Result<Box<dyn Iterator<Item=Value> + '_>, ()> { pub fn iter(&self) -> Result<Box<dyn Iterator<Item=Value> + '_>, String> {
match self { match self {
Value::String(s) Value::String(s)
=> Ok(Box::new(s.chars() => Ok(Box::new(s.chars()
.map(|c| Value::Char(c)))), .map(Value::Char))),
Value::List(l) => Ok(Box::new(l.borrow().clone().into_iter())), Value::List(l) => Ok(Box::new(l.borrow().clone().into_iter())),
_ => Err(()) v => Err(format!("{:?} is not iterable", v))
} }
} }
pub fn call(&self, args: Vec<Value>, pos: &Position) -> Result<Value, RuntimeError> { pub fn call(&self, args: Vec<Value>, pos: &Position) -> Result<Value, RuntimeError> {
match self { match self {
Value::BuiltinFn(f) => { Value::BuiltinFn(f) => {
if args.len() == f.arg_count { match args.len().cmp(&f.arg_count) {
(f.func)(args).map_err(|e| RuntimeError { message: e, pos: pos.clone() }) Ordering::Equal =>
} else if args.len() < f.arg_count { (f.func)(args).map_err(|e| RuntimeError { message: e, pos: pos.clone() }),
Err(RuntimeError { Ordering::Less => Err(RuntimeError {
message: format!("Not enough arguments for function: expected {}, got {}", f.arg_count, args.len()), message: format!("Not enough arguments for function: expected {}, got {}", f.arg_count, args.len()),
pos: pos.clone() pos: pos.clone()
}) }),
} else { Ordering::Greater => Err(RuntimeError {
Err(RuntimeError {
message: format!("Too many arguments for function: expected {}, got {}", f.arg_count, args.len()), message: format!("Too many arguments for function: expected {}, got {}", f.arg_count, args.len()),
pos: pos.clone() pos: pos.clone()
}) })
@ -133,7 +132,7 @@ impl Value {
Self::String(s) => match idx { Self::String(s) => match idx {
Value::Int(i) if *i >= 0 => s.chars().nth(*i as usize) Value::Int(i) if *i >= 0 => s.chars().nth(*i as usize)
.ok_or_else(|| format!("String index {} out of bounds for length {}", i, s.chars().count())) .ok_or_else(|| format!("String index {} out of bounds for length {}", i, s.chars().count()))
.map(|c| Value::Char(c)), .map(Value::Char),
Value::Int(i) => Err(format!("String index {} cannot be negative", i)), Value::Int(i) => Err(format!("String index {} cannot be negative", i)),
_ => Err(format!("Cannot index {:?} with {:?}", self, idx)) _ => Err(format!("Cannot index {:?} with {:?}", self, idx))
}, },