use nom::branch::alt; use nom::bytes::complete::tag; use nom::character::complete::line_ending; use nom::character::complete::space1; use nom::combinator::eof; use nom::combinator::recognize; use nom::multi::many1; use nom::multi::many1_count; use nom::sequence::tuple; use crate::parser::error::CustomError; use crate::parser::error::MyError; use crate::parser::object::standard_set_object; use crate::parser::parser_context::ChainBehavior; use crate::parser::parser_context::ContextElement; use crate::parser::parser_context::ContextTree; use crate::parser::parser_context::ExitMatcherNode; use super::element::Element; use super::error::Res; use super::parser_with_context::parser_with_context; use super::source::Source; use super::Context; #[derive(Debug)] pub struct Document<'s> { pub source: &'s str, pub zeroth_section: Option>, pub children: Vec>, } #[derive(Debug)] pub struct Heading<'s> { pub source: &'s str, pub children: Vec>, } #[derive(Debug)] pub struct Section<'s> { pub source: &'s str, pub children: Vec>, } #[derive(Debug)] pub enum DocumentElement<'s> { Heading(Heading<'s>), Section(Section<'s>), } impl<'s> Source<'s> for Document<'s> { fn get_source(&'s self) -> &'s str { self.source } } impl<'s> Source<'s> for DocumentElement<'s> { fn get_source(&'s self) -> &'s str { match self { DocumentElement::Heading(obj) => obj.source, DocumentElement::Section(obj) => obj.source, } } } pub fn document(input: &str) -> Res<&str, Document> { let initial_context: ContextTree<'_, '_> = ContextTree::new(); let document_context = initial_context.with_additional_node(ContextElement::DocumentRoot(input)); todo!() } fn section<'r, 's>(context: Context<'r, 's>, input: &'s str) -> Res<&'s str, Section<'s>> { // TODO: The zeroth section is specialized so it probably needs its own parser let parser_context = context .with_additional_node(ContextElement::ExitMatcherNode(ExitMatcherNode { exit_matcher: ChainBehavior::AndParent(Some(§ion_end)), })) .with_additional_node(ContextElement::Context("section")); todo!() } fn section_end<'r, 's>(context: Context<'r, 's>, input: &'s str) -> Res<&'s str, &'s str> { let heading_matcher = parser_with_context!(heading)(context); alt((recognize(heading_matcher), eof))(input) } fn heading<'r, 's>(context: Context<'r, 's>, input: &'s str) -> Res<&'s str, Heading<'s>> { todo!() } fn headline<'r, 's>(context: Context<'r, 's>, input: &'s str) -> Res<&'s str, &'s str> { let document_root = context.get_document_root().unwrap(); let preceding_character = get_one_before(document_root, input) .map(|slice| slice.chars().next()) .flatten(); match preceding_character { Some('\n') => {} Some(_) => { // Not at start of line, cannot be a heading return Err(nom::Err::Error(CustomError::MyError(MyError( "Heading not at start of line", )))); } // If None, we are at the start of the file which allows for headings None => {} }; let parser_context = context.with_additional_node(ContextElement::ExitMatcherNode(ExitMatcherNode { exit_matcher: ChainBehavior::AndParent(Some(&headline_end)), })); let standard_set_object_matcher = parser_with_context!(standard_set_object)(&parser_context); let foo = tuple(( many1_count(tag("*")), space1, many1(standard_set_object_matcher), alt((line_ending, eof)), ))(input)?; todo!() } fn headline_end<'r, 's>(context: Context<'r, 's>, input: &'s str) -> Res<&'s str, &'s str> { line_ending(input) } fn get_one_before<'s>(document: &'s str, current_position: &'s str) -> Option<&'s str> { assert!(is_slice_of(document, current_position)); if document.as_ptr() as usize == current_position.as_ptr() as usize { return None; } let offset = current_position.as_ptr() as usize - document.as_ptr() as usize; let previous_character_offset = document.floor_char_boundary(offset - 1); Some(&document[previous_character_offset..offset]) } fn is_slice_of(parent: &str, child: &str) -> bool { let parent_start = parent.as_ptr() as usize; let parent_end = parent_start + parent.len(); let child_start = child.as_ptr() as usize; let child_end = child_start + child.len(); child_start >= parent_start && child_end <= parent_end } #[cfg(test)] mod tests { use super::*; #[test] fn get_one_before_unicode() { let input = "๐Ÿงก๐Ÿ’›๐Ÿ’š๐Ÿ’™๐Ÿ’œ"; let (green_heart_index, _) = input.char_indices().skip(2).next().unwrap(); let starting_with_green_heart = &input[green_heart_index..]; let yellow_heart = get_one_before(input, starting_with_green_heart).unwrap(); assert!(is_slice_of(input, yellow_heart)); assert_eq!(yellow_heart, "๐Ÿ’›"); } }