mirror of
https://github.com/AleoHQ/leo.git
synced 2024-12-19 23:52:02 +03:00
add string type to tokenizer + lexer
This commit is contained in:
parent
d43605538d
commit
84c0a82008
@ -375,7 +375,7 @@ impl ParserContext<'_> {
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Token::True => Expression::Value(ValueExpression::Boolean("true".into(), span)),
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Token::False => Expression::Value(ValueExpression::Boolean("false".into(), span)),
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Token::AddressLit(value) => Expression::Value(ValueExpression::Address(value, span)),
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Token::StringLit(value) => Expression::Value(ValueExpression::String(value, span)),
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Token::StaticString(value) => Expression::Value(ValueExpression::String(value, span)),
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Token::Ident(name) => {
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let ident = Identifier { name, span };
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Expression::Identifier(ident)
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@ -154,7 +154,7 @@ impl ParserContext<'_> {
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p.bump();
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let SpannedToken { token, span } = p.prev_token.clone();
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string = Some(match token {
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Token::StringLit(chars) => chars,
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Token::StaticString(chars) => chars,
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_ => {
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p.emit_err(ParserError::unexpected_str(token, "formatted string", span));
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Vec::new()
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@ -23,6 +23,7 @@ pub(super) const TYPE_TOKENS: &[Token] = &[
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Token::Field,
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Token::Group,
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Token::Scalar,
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Token::String,
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Token::I8,
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Token::I16,
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Token::I32,
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@ -64,6 +65,7 @@ impl ParserContext<'_> {
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Token::Field => Type::Field,
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Token::Group => Type::Group,
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Token::Scalar => Type::Scalar,
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Token::String => Type::String,
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x => Type::IntegerType(Self::token_to_int_type(x).expect("invalid int type")),
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},
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span,
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@ -39,113 +39,114 @@ fn is_bidi_override(c: char) -> bool {
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}
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impl Token {
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// Eats the parts of the unicode character after \u.
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fn eat_unicode_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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let mut unicode = String::new();
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// Account for the chars '\' and 'u'.
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let mut len = 2;
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// todo: remove this unused code or reference https://github.com/Geal/nom/blob/main/examples/string.rs
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// // Eats the parts of the unicode character after \u.
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// fn eat_unicode_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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// let mut unicode = String::new();
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// // Account for the chars '\' and 'u'.
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// let mut len = 2;
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//
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// if input.next_if_eq(&'{').is_some() {
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// len += 1;
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// } else if let Some(c) = input.next() {
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// return Err(ParserError::lexer_unopened_escaped_unicode_char(c).into());
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// } else {
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// return Err(ParserError::lexer_empty_input_tendril().into());
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// }
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//
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// while let Some(c) = input.next_if(|c| c != &'}') {
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// len += 1;
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// unicode.push(c);
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// }
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//
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// if input.next_if_eq(&'}').is_some() {
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// len += 1;
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// } else {
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// return Err(ParserError::lexer_unclosed_escaped_unicode_char(unicode).into());
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// }
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//
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// // Max of 6 digits.
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// // Minimum of 1 digit.
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// if unicode.len() > 6 || unicode.is_empty() {
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// return Err(ParserError::lexer_invalid_escaped_unicode_length(unicode).into());
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// }
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//
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// if let Ok(hex) = u32::from_str_radix(&unicode, 16) {
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// if let Some(character) = std::char::from_u32(hex) {
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// Ok((len, Char::Scalar(character)))
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// } else if hex <= 0x10FFFF {
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// Ok((len, Char::NonScalar(hex)))
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// } else {
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// Err(ParserError::lexer_invalid_character_exceeded_max_value(unicode).into())
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// }
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// } else {
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// Err(ParserError::lexer_expected_valid_hex_char(unicode).into())
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// }
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// }
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if input.next_if_eq(&'{').is_some() {
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len += 1;
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} else if let Some(c) = input.next() {
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return Err(ParserError::lexer_unopened_escaped_unicode_char(c).into());
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} else {
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return Err(ParserError::lexer_empty_input_tendril().into());
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}
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// // Eats the parts of the hex character after \x.
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// fn eat_hex_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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// let mut hex = String::new();
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// // Account for the chars '\' and 'x'.
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// let mut len = 2;
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//
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// // First hex character.
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// if let Some(c) = input.next_if(|c| c != &'\'') {
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// len += 1;
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// hex.push(c);
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// } else if let Some(c) = input.next() {
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// return Err(ParserError::lexer_expected_valid_hex_char(c).into());
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// } else {
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// return Err(ParserError::lexer_empty_input_tendril().into());
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// }
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//
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// // Second hex character.
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// if let Some(c) = input.next_if(|c| c != &'\'') {
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// len += 1;
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// hex.push(c);
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// } else if let Some(c) = input.next() {
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// return Err(ParserError::lexer_expected_valid_hex_char(c).into());
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// } else {
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// return Err(ParserError::lexer_empty_input_tendril().into());
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// }
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//
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// if let Ok(ascii_number) = u8::from_str_radix(&hex, 16) {
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// // According to RFC, we allow only values less than 128.
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// if ascii_number > 127 {
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// return Err(ParserError::lexer_expected_valid_hex_char(hex).into());
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// }
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//
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// Ok((len, Char::Scalar(ascii_number as char)))
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// } else {
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// Err(ParserError::lexer_expected_valid_hex_char(hex).into())
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// }
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// }
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while let Some(c) = input.next_if(|c| c != &'}') {
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len += 1;
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unicode.push(c);
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}
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// fn eat_escaped_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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// match input.next() {
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// None => Err(ParserError::lexer_empty_input_tendril().into()),
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// // Length of 2 to account the '\'.
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// Some('0') => Ok((2, Char::Scalar(0 as char))),
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// Some('t') => Ok((2, Char::Scalar(9 as char))),
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// Some('n') => Ok((2, Char::Scalar(10 as char))),
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// Some('r') => Ok((2, Char::Scalar(13 as char))),
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// Some('\"') => Ok((2, Char::Scalar(34 as char))),
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// Some('\'') => Ok((2, Char::Scalar(39 as char))),
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// Some('\\') => Ok((2, Char::Scalar(92 as char))),
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// Some('u') => Self::eat_unicode_char(input),
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// Some('x') => Self::eat_hex_char(input),
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// Some(c) => Err(ParserError::lexer_expected_valid_escaped_char(c).into()),
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// }
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// }
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if input.next_if_eq(&'}').is_some() {
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len += 1;
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} else {
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return Err(ParserError::lexer_unclosed_escaped_unicode_char(unicode).into());
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}
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// Max of 6 digits.
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// Minimum of 1 digit.
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if unicode.len() > 6 || unicode.is_empty() {
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return Err(ParserError::lexer_invalid_escaped_unicode_length(unicode).into());
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}
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if let Ok(hex) = u32::from_str_radix(&unicode, 16) {
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if let Some(character) = std::char::from_u32(hex) {
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Ok((len, Char::Scalar(character)))
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} else if hex <= 0x10FFFF {
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Ok((len, Char::NonScalar(hex)))
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} else {
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Err(ParserError::lexer_invalid_character_exceeded_max_value(unicode).into())
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}
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} else {
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Err(ParserError::lexer_expected_valid_hex_char(unicode).into())
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}
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}
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// Eats the parts of the hex character after \x.
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fn eat_hex_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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let mut hex = String::new();
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// Account for the chars '\' and 'x'.
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let mut len = 2;
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// First hex character.
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if let Some(c) = input.next_if(|c| c != &'\'') {
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len += 1;
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hex.push(c);
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} else if let Some(c) = input.next() {
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return Err(ParserError::lexer_expected_valid_hex_char(c).into());
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} else {
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return Err(ParserError::lexer_empty_input_tendril().into());
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}
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// Second hex character.
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if let Some(c) = input.next_if(|c| c != &'\'') {
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len += 1;
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hex.push(c);
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} else if let Some(c) = input.next() {
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return Err(ParserError::lexer_expected_valid_hex_char(c).into());
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} else {
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return Err(ParserError::lexer_empty_input_tendril().into());
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}
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if let Ok(ascii_number) = u8::from_str_radix(&hex, 16) {
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// According to RFC, we allow only values less than 128.
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if ascii_number > 127 {
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return Err(ParserError::lexer_expected_valid_hex_char(hex).into());
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}
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Ok((len, Char::Scalar(ascii_number as char)))
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} else {
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Err(ParserError::lexer_expected_valid_hex_char(hex).into())
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}
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}
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fn eat_escaped_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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match input.next() {
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None => Err(ParserError::lexer_empty_input_tendril().into()),
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// Length of 2 to account the '\'.
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Some('0') => Ok((2, Char::Scalar(0 as char))),
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Some('t') => Ok((2, Char::Scalar(9 as char))),
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Some('n') => Ok((2, Char::Scalar(10 as char))),
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Some('r') => Ok((2, Char::Scalar(13 as char))),
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Some('\"') => Ok((2, Char::Scalar(34 as char))),
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Some('\'') => Ok((2, Char::Scalar(39 as char))),
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Some('\\') => Ok((2, Char::Scalar(92 as char))),
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Some('u') => Self::eat_unicode_char(input),
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Some('x') => Self::eat_hex_char(input),
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Some(c) => Err(ParserError::lexer_expected_valid_escaped_char(c).into()),
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}
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}
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/// Returns a `char` if a character can be eaten, otherwise returns [`None`].
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fn eat_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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match input.next() {
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None => Err(ParserError::lexer_empty_input_tendril().into()),
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Some('\\') => Self::eat_escaped_char(input),
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Some(c) => Ok((c.len_utf8(), Char::Scalar(c))),
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}
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}
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// /// Returns a `char` if a character can be eaten, otherwise returns [`None`].
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// fn eat_char(input: &mut Peekable<impl Iterator<Item = char>>) -> Result<(usize, Char)> {
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// match input.next() {
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// None => Err(ParserError::lexer_empty_input_tendril().into()),
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// Some('\\') => Self::eat_escaped_char(input),
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// Some(c) => Ok((c.len_utf8(), Char::Scalar(c))),
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// }
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// }
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/// Returns a tuple: [(integer length, integer token)] if an integer can be eaten, otherwise returns [`None`].
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/// An integer can be eaten if its bytes are at the front of the given `input_tendril` string.
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@ -183,27 +184,25 @@ impl Token {
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return Ok((1, Token::WhiteSpace));
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}
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Some('"') => {
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let mut string: Vec<leo_ast::Char> = Vec::new();
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input.next();
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let mut string = String::from("\"");
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let mut len = 0;
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while let Some(c) = input.peek() {
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if is_bidi_override(*c) {
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let mut ended = false;
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while let Some(c) = input.next() {
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if is_bidi_override(c) {
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return Err(ParserError::lexer_bidi_override().into());
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}
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if c == &'"' {
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string.push(c);
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if c == '"' {
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ended = true;
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break;
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}
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let (char_len, character) = Self::eat_char(&mut input)?;
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len += char_len;
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string.push(character.into());
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}
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if input.next_if_eq(&'"').is_some() {
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return Ok((len + 2, Token::StringLit(string)));
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if !ended {
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return Err(ParserError::lexer_string_not_closed(string).into());
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}
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return Err(ParserError::lexer_string_not_closed(leo_ast::Chars(string)).into());
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return Ok((string.len(), Token::StaticString(string)));
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}
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Some(x) if x.is_ascii_digit() => {
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return Self::eat_integer(&mut input);
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@ -50,7 +50,7 @@ pub enum Token {
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// Literals
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CommentLine(String),
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CommentBlock(String),
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StringLit(Vec<leo_ast::Char>),
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StaticString(String),
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Ident(Symbol),
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Int(String),
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True,
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@ -96,6 +96,7 @@ pub enum Token {
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Field,
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Group,
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Scalar,
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String,
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I8,
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I16,
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I32,
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@ -150,6 +151,7 @@ pub const KEYWORD_TOKENS: &[Token] = &[
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Token::Public,
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Token::Return,
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Token::Scalar,
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Token::String,
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Token::True,
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Token::U8,
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Token::U16,
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@ -189,6 +191,7 @@ impl Token {
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Token::Public => sym::Public,
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Token::Return => sym::Return,
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Token::Scalar => sym::scalar,
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Token::String => sym::string,
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Token::True => sym::True,
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Token::U8 => sym::u8,
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Token::U16 => sym::u16,
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@ -206,13 +209,7 @@ impl fmt::Display for Token {
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match self {
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CommentLine(s) => write!(f, "{}", s),
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CommentBlock(s) => write!(f, "{}", s),
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StringLit(string) => {
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write!(f, "\"")?;
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for character in string.iter() {
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write!(f, "{}", character)?;
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}
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write!(f, "\"")
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}
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StaticString(s) => write!(f, "{}", s),
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Ident(s) => write!(f, "{}", s),
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Int(s) => write!(f, "{}", s),
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True => write!(f, "true"),
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@ -255,6 +252,7 @@ impl fmt::Display for Token {
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Field => write!(f, "field"),
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Group => write!(f, "group"),
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Scalar => write!(f, "scalar"),
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String => write!(f, "string"),
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I8 => write!(f, "i8"),
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I16 => write!(f, "i16"),
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I32 => write!(f, "i32"),
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@ -137,6 +137,7 @@ symbols! {
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scalar,
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Star: "*",
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std,
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string,
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Struct: "struct",
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test,
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True: "true",
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