use std::{ f64::{INFINITY, NAN, NEG_INFINITY}, fmt::{self, Display, Formatter}, }; use chumsky::prelude::*; use crate::error::Error; #[derive(Copy, Clone, Debug, PartialEq)] pub enum Token<'src> { Boolean(bool), Comment(&'src str), Integer(i64), Float(f64), String(&'src str), Identifier(&'src str), Operator(Operator), Control(Control), Keyword(Keyword), } impl<'src> Display for Token<'src> { fn fmt(&self, f: &mut Formatter) -> fmt::Result { match self { Token::Boolean(boolean) => write!(f, "{boolean}"), Token::Comment(comment) => write!(f, "# {comment}"), Token::Integer(integer) => write!(f, "{integer}"), Token::Float(float) => write!(f, "{float}"), Token::String(string) => write!(f, "{string}"), Token::Identifier(string) => write!(f, "{string}"), Token::Operator(operator) => write!(f, "{operator}"), Token::Control(control) => write!(f, "{control}"), Token::Keyword(keyword) => write!(f, "{keyword}"), } } } #[derive(Copy, Clone, Debug, PartialEq)] pub enum Keyword { Any, As, Async, Bool, Break, Else, Float, Fn, Int, If, JsonParse, Length, List, Map, None, Range, ReadFile, ReadLine, Sleep, Struct, Str, Type, Loop, While, WriteLine, } impl Display for Keyword { fn fmt(&self, f: &mut Formatter) -> fmt::Result { match self { Keyword::Any => write!(f, "any"), Keyword::As => write!(f, "as"), Keyword::Async => write!(f, "async"), Keyword::Bool => write!(f, "bool"), Keyword::Break => write!(f, "break"), Keyword::Else => write!(f, "else"), Keyword::Float => write!(f, "float"), Keyword::Fn => write!(f, "fn"), Keyword::Int => write!(f, "int"), Keyword::If => write!(f, "if"), Keyword::List => write!(f, "list"), Keyword::Map => write!(f, "map"), Keyword::None => write!(f, "none"), Keyword::Range => write!(f, "range"), Keyword::Struct => write!(f, "struct"), Keyword::Str => write!(f, "str"), Keyword::Loop => write!(f, "loop"), Keyword::While => write!(f, "while"), Keyword::Type => write!(f, "type"), Keyword::JsonParse => write!(f, "JSON_PARSE"), Keyword::Length => write!(f, "LENGTH"), Keyword::ReadFile => write!(f, "READ_FILE"), Keyword::ReadLine => write!(f, "READ_LINE"), Keyword::Sleep => write!(f, "SLEEP"), Keyword::WriteLine => write!(f, "WRITE_LINE"), } } } #[derive(Copy, Clone, Debug, PartialEq)] pub enum Operator { Add, AddAssign, And, Assign, Divide, Equal, Greater, GreaterOrEqual, Less, LessOrEqual, Modulo, Multiply, Not, NotEqual, Or, SubAssign, Subtract, } impl Display for Operator { fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result { match self { Operator::Add => write!(f, "+"), Operator::AddAssign => write!(f, "+="), Operator::And => write!(f, "&&"), Operator::Assign => write!(f, "="), Operator::Divide => write!(f, "="), Operator::Equal => write!(f, "=="), Operator::Greater => write!(f, ">"), Operator::GreaterOrEqual => write!(f, ">="), Operator::Less => write!(f, "<"), Operator::LessOrEqual => write!(f, "<="), Operator::Modulo => write!(f, "%"), Operator::Multiply => write!(f, "*"), Operator::Not => write!(f, "!"), Operator::NotEqual => write!(f, "!="), Operator::Or => write!(f, "||"), Operator::SubAssign => write!(f, "-="), Operator::Subtract => write!(f, "-"), } } } #[derive(Copy, Clone, Debug, PartialEq)] pub enum Control { CurlyOpen, CurlyClose, SquareOpen, SquareClose, ParenOpen, ParenClose, Pipe, Comma, DoubleColon, Colon, Dollar, Dot, DoubleDot, Semicolon, SkinnyArrow, FatArrow, DoubleUnderscore, } impl Display for Control { fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result { match self { Control::CurlyOpen => write!(f, "{{"), Control::CurlyClose => write!(f, "}}"), Control::Dollar => write!(f, "$"), Control::SquareOpen => write!(f, "["), Control::SquareClose => write!(f, "]"), Control::ParenOpen => write!(f, "("), Control::ParenClose => write!(f, ")"), Control::Pipe => write!(f, "|"), Control::Comma => write!(f, ","), Control::DoubleColon => write!(f, "::"), Control::Colon => write!(f, ":"), Control::Dot => write!(f, "."), Control::Semicolon => write!(f, ";"), Control::DoubleDot => write!(f, ".."), Control::SkinnyArrow => write!(f, "->"), Control::FatArrow => write!(f, "=>"), Control::DoubleUnderscore => write!(f, "__"), } } } pub fn lex<'src>(source: &'src str) -> Result, SimpleSpan)>, Vec> { lexer() .parse(source) .into_result() .map_err(|errors| errors.into_iter().map(|error| error.into()).collect()) } pub fn lexer<'src>() -> impl Parser< 'src, &'src str, Vec<(Token<'src>, SimpleSpan)>, extra::Err>>, > { let line_comment = just("//") .ignore_then( none_of('\n') .repeated() .to_slice() .map(|text: &str| Token::Comment(text.trim())), ) .then_ignore(just('\n').or_not()); let multi_line_comment = just("/*") .ignore_then( none_of('*') .repeated() .to_slice() .map(|text: &str| Token::Comment(text.trim())), ) .then_ignore(just("*/")); let boolean = choice(( just("true").to(Token::Boolean(true)), just("false").to(Token::Boolean(false)), )); let float_numeric = just('-') .or_not() .then(text::int(10)) .then(just('.').then(text::digits(10))) .then(just('e').then(text::digits(10)).or_not()) .to_slice() .map(|text: &str| Token::Float(text.parse().unwrap())); let float = choice(( float_numeric, just("Infinity").to(Token::Float(INFINITY)), just("-Infinity").to(Token::Float(NEG_INFINITY)), just("NaN").to(Token::Float(NAN)), )); let integer = just('-') .or_not() .then(text::int(10)) .to_slice() .map(|text: &str| { let integer = text.parse().unwrap(); Token::Integer(integer) }); let delimited_string = |delimiter| { just(delimiter) .then(none_of(delimiter).repeated()) .then(just(delimiter)) .to_slice() .map(|text: &str| Token::String(&text[1..text.len() - 1])) }; let string = choice(( delimited_string('\''), delimited_string('"'), delimited_string('`'), )); let identifier_and_keyword = text::ident().map(|text: &str| match text { "any" => Token::Keyword(Keyword::Any), "async" => Token::Keyword(Keyword::Async), "as" => Token::Keyword(Keyword::As), "bool" => Token::Keyword(Keyword::Bool), "break" => Token::Keyword(Keyword::Break), "else" => Token::Keyword(Keyword::Else), "float" => Token::Keyword(Keyword::Float), "fn" => Token::Keyword(Keyword::Fn), "int" => Token::Keyword(Keyword::Int), "if" => Token::Keyword(Keyword::If), "list" => Token::Keyword(Keyword::List), "map" => Token::Keyword(Keyword::Map), "none" => Token::Keyword(Keyword::None), "range" => Token::Keyword(Keyword::Range), "struct" => Token::Keyword(Keyword::Struct), "str" => Token::Keyword(Keyword::Str), "type" => Token::Keyword(Keyword::Type), "loop" => Token::Keyword(Keyword::Loop), "while" => Token::Keyword(Keyword::While), "JSON_PARSE" => Token::Keyword(Keyword::JsonParse), "LENGTH" => Token::Keyword(Keyword::Length), "READ_FILE" => Token::Keyword(Keyword::ReadFile), "READ_LINE" => Token::Keyword(Keyword::ReadLine), "SLEEP" => Token::Keyword(Keyword::Sleep), "WRITE_LINE" => Token::Keyword(Keyword::WriteLine), _ => Token::Identifier(text), }); let operator = choice(( // logic just("&&").to(Operator::And), just("==").to(Operator::Equal), just("!=").to(Operator::NotEqual), just(">=").to(Operator::GreaterOrEqual), just("<=").to(Operator::LessOrEqual), just(">").to(Operator::Greater), just("<").to(Operator::Less), just("!").to(Operator::Not), just("!=").to(Operator::NotEqual), just("||").to(Operator::Or), // assignment just("=").to(Operator::Assign), just("+=").to(Operator::AddAssign), just("-=").to(Operator::SubAssign), // math just("+").to(Operator::Add), just("-").to(Operator::Subtract), just("*").to(Operator::Multiply), just("/").to(Operator::Divide), just("%").to(Operator::Modulo), )) .map(Token::Operator); let control = choice(( just("->").to(Control::SkinnyArrow), just("=>").to(Control::FatArrow), just("{").to(Control::CurlyOpen), just("}").to(Control::CurlyClose), just("[").to(Control::SquareOpen), just("]").to(Control::SquareClose), just("(").to(Control::ParenOpen), just(")").to(Control::ParenClose), just("|").to(Control::Pipe), just(",").to(Control::Comma), just(";").to(Control::Semicolon), just("::").to(Control::DoubleColon), just(":").to(Control::Colon), just("..").to(Control::DoubleDot), just(".").to(Control::Dot), just("$").to(Control::Dollar), just("__").to(Control::DoubleUnderscore), )) .map(Token::Control); choice(( line_comment, multi_line_comment, boolean, float, integer, string, identifier_and_keyword, control, operator, )) .map_with(|token, state| (token, state.span())) .padded() .repeated() .collect() } #[cfg(test)] mod tests { use super::*; #[test] fn line_comment() { assert_eq!( lex("// 42").unwrap(), vec![(Token::Comment("42"), (0..5).into())] ); assert_eq!( lex("1// 42//2").unwrap(), vec![ (Token::Integer(1), (0..1).into()), (Token::Comment("42//2"), (1..9).into()), ] ); assert_eq!( lex(" 1 // 42 2 ") .unwrap(), vec![ (Token::Integer(1), (17..18).into()), (Token::Comment("42"), (35..41).into()), (Token::Integer(2), (57..58).into()), ] ); } #[test] fn multi_line_comment() { assert_eq!( lex("/* 42 */").unwrap(), vec![(Token::Comment("42"), (0..8).into())] ); assert_eq!( lex("1/* 42//2 */").unwrap(), vec![ (Token::Integer(1), (0..1).into()), (Token::Comment("42//2"), (1..12).into()), ] ); assert_eq!( lex(" 1 /* 42 */ 2 ") .unwrap(), vec![ (Token::Integer(1), (17..18).into()), (Token::Comment("42"), (35..79).into()), (Token::Integer(2), (96..97).into()), ] ); } #[test] fn range() { assert_eq!( lex("1..10").unwrap(), vec![ (Token::Integer(1), (0..1).into()), (Token::Control(Control::DoubleDot), (1..3).into()), (Token::Integer(10), (3..5).into()) ] ) } #[test] fn math_operators() { assert_eq!( lex("1 + 1").unwrap(), vec![ (Token::Integer(1), (0..1).into()), (Token::Operator(Operator::Add), (2..3).into()), (Token::Integer(1), (4..5).into()) ] ) } #[test] fn keywords() { assert_eq!(lex("int").unwrap()[0].0, Token::Keyword(Keyword::Int)) } #[test] fn identifier() { assert_eq!(lex("x").unwrap()[0].0, Token::Identifier("x")); assert_eq!(lex("foobar").unwrap()[0].0, Token::Identifier("foobar")); assert_eq!(lex("HELLO").unwrap()[0].0, Token::Identifier("HELLO")); } #[test] fn r#true() { assert_eq!(lex("true").unwrap()[0].0, Token::Boolean(true)); } #[test] fn r#false() { assert_eq!(lex("false").unwrap()[0].0, Token::Boolean(false)); } #[test] fn positive_float() { assert_eq!(lex("0.0").unwrap()[0].0, Token::Float(0.0)); assert_eq!(lex("42.0").unwrap()[0].0, Token::Float(42.0)); let max_float = f64::MAX.to_string() + ".0"; assert_eq!(lex(&max_float).unwrap()[0].0, Token::Float(f64::MAX)); let min_positive_float = f64::MIN_POSITIVE.to_string(); assert_eq!( lex(&min_positive_float).unwrap()[0].0, Token::Float(f64::MIN_POSITIVE) ); } #[test] fn negative_float() { assert_eq!(lex("-0.0").unwrap()[0].0, Token::Float(-0.0)); assert_eq!(lex("-42.0").unwrap()[0].0, Token::Float(-42.0)); let min_float = f64::MIN.to_string() + ".0"; assert_eq!(lex(&min_float).unwrap()[0].0, Token::Float(f64::MIN)); let max_negative_float = format!("-{}", f64::MIN_POSITIVE); assert_eq!( lex(&max_negative_float).unwrap()[0].0, Token::Float(-f64::MIN_POSITIVE) ); } #[test] fn other_float() { assert_eq!(lex("Infinity").unwrap()[0].0, Token::Float(f64::INFINITY)); assert_eq!( lex("-Infinity").unwrap()[0].0, Token::Float(f64::NEG_INFINITY) ); if let Token::Float(float) = &lex("NaN").unwrap()[0].0 { assert!(float.is_nan()); } else { panic!("Expected a float.") } } #[test] fn positive_integer() { for i in 0..10 { let source = i.to_string(); let tokens = lex(&source).unwrap(); assert_eq!(tokens[0].0, Token::Integer(i)) } assert_eq!(lex("42").unwrap()[0].0, Token::Integer(42)); let maximum_integer = i64::MAX.to_string(); assert_eq!( lex(&maximum_integer).unwrap()[0].0, Token::Integer(i64::MAX) ); } #[test] fn negative_integer() { for i in -9..1 { let source = i.to_string(); let tokens = lex(&source).unwrap(); assert_eq!(tokens[0].0, Token::Integer(i)) } assert_eq!(lex("-42").unwrap()[0].0, Token::Integer(-42)); let minimum_integer = i64::MIN.to_string(); assert_eq!( lex(&minimum_integer).unwrap()[0].0, Token::Integer(i64::MIN) ); } #[test] fn double_quoted_string() { assert_eq!(lex("\"\"").unwrap()[0].0, Token::String("")); assert_eq!(lex("\"42\"").unwrap()[0].0, Token::String("42")); assert_eq!(lex("\"foobar\"").unwrap()[0].0, Token::String("foobar")); } #[test] fn single_quoted_string() { assert_eq!(lex("''").unwrap()[0].0, Token::String("")); assert_eq!(lex("'42'").unwrap()[0].0, Token::String("42")); assert_eq!(lex("'foobar'").unwrap()[0].0, Token::String("foobar")); } #[test] fn grave_quoted_string() { assert_eq!(lex("``").unwrap()[0].0, Token::String("")); assert_eq!(lex("`42`").unwrap()[0].0, Token::String("42")); assert_eq!(lex("`foobar`").unwrap()[0].0, Token::String("foobar")); } }