use std::ops::RangeInclusive; use winnow::combinator::peek; use winnow::combinator::separated; use winnow::combinator::trace; use winnow::token::any; use winnow::token::take_while; use crate::key::Key; use crate::parser::error::CustomError; use crate::parser::prelude::*; use crate::parser::strings::{basic_string, literal_string}; use crate::parser::trivia::{from_utf8_unchecked, ws}; use crate::repr::{Decor, Repr}; use crate::InternalString; use crate::RawString; // key = simple-key / dotted-key // dotted-key = simple-key 1*( dot-sep simple-key ) pub(crate) fn key(input: &mut Input<'_>) -> PResult> { let mut key_path = trace( "dotted-key", separated( 1.., (ws.span(), simple_key, ws.span()).map(|(pre, (raw, key), suffix)| { Key::new(key) .with_repr_unchecked(Repr::new_unchecked(raw)) .with_dotted_decor(Decor::new( RawString::with_span(pre), RawString::with_span(suffix), )) }), DOT_SEP, ) .context(StrContext::Label("key")) .try_map(|k: Vec<_>| { // Inserting the key will require recursion down the line RecursionCheck::check_depth(k.len())?; Ok::<_, CustomError>(k) }), ) .parse_next(input)?; let mut leaf_decor = Decor::new("", ""); { let first_dotted_decor = key_path .first_mut() .expect("always at least one key") .dotted_decor_mut(); if let Some(prefix) = first_dotted_decor.prefix().cloned() { leaf_decor.set_prefix(prefix); first_dotted_decor.set_prefix(""); } } let last_key = &mut key_path.last_mut().expect("always at least one key"); { let last_dotted_decor = last_key.dotted_decor_mut(); if let Some(suffix) = last_dotted_decor.suffix().cloned() { leaf_decor.set_suffix(suffix); last_dotted_decor.set_suffix(""); } } *last_key.leaf_decor_mut() = leaf_decor; Ok(key_path) } // simple-key = quoted-key / unquoted-key // quoted-key = basic-string / literal-string pub(crate) fn simple_key(input: &mut Input<'_>) -> PResult<(RawString, InternalString)> { trace( "simple-key", dispatch! {peek(any); crate::parser::strings::QUOTATION_MARK => basic_string .map(|s: std::borrow::Cow<'_, str>| s.as_ref().into()), crate::parser::strings::APOSTROPHE => literal_string.map(|s: &str| s.into()), _ => unquoted_key.map(|s: &str| s.into()), } .with_span() .map(|(k, span)| { let raw = RawString::with_span(span); (raw, k) }), ) .parse_next(input) } // unquoted-key = 1*( ALPHA / DIGIT / %x2D / %x5F ) ; A-Z / a-z / 0-9 / - / _ fn unquoted_key<'i>(input: &mut Input<'i>) -> PResult<&'i str> { trace( "unquoted-key", take_while(1.., UNQUOTED_CHAR) .map(|b| unsafe { from_utf8_unchecked(b, "`is_unquoted_char` filters out on-ASCII") }), ) .parse_next(input) } pub(crate) fn is_unquoted_char(c: u8) -> bool { use winnow::stream::ContainsToken; UNQUOTED_CHAR.contains_token(c) } const UNQUOTED_CHAR: ( RangeInclusive, RangeInclusive, RangeInclusive, u8, u8, ) = (b'A'..=b'Z', b'a'..=b'z', b'0'..=b'9', b'-', b'_'); // dot-sep = ws %x2E ws ; . Period const DOT_SEP: u8 = b'.'; #[cfg(test)] #[cfg(feature = "parse")] #[cfg(feature = "display")] mod test { use super::*; #[test] fn keys() { let cases = [ ("a", "a"), (r#""hello\n ""#, "hello\n "), (r"'hello\n '", "hello\\n "), ]; for (input, expected) in cases { dbg!(input); let parsed = simple_key.parse(new_input(input)); assert_eq!( parsed, Ok((RawString::with_span(0..(input.len())), expected.into())), "Parsing {input:?}" ); } } }