use super::combinator::context_many_till; use super::error::Res; use super::parser_context::ChainBehavior; use super::parser_context::ContextElement; use super::parser_context::ExitMatcherNode; use super::text::blank_line; use super::text::line_break; use super::text::text_element; use super::token::Paragraph; use super::token::TextElement; use super::token::Token; use super::Context; use nom::branch::alt; use nom::combinator::eof; use nom::combinator::map; use nom::combinator::not; use nom::combinator::recognize; use nom::multi::many1; use nom::sequence::tuple; pub fn paragraph<'r, 's>(context: Context<'r, 's>, i: &'s str) -> Res<&'s str, Paragraph<'s>> { // Add a not(eof) check because many_till cannot match a zero-length string not(eof)(i)?; let paragraph_context = context .with_additional_node(ContextElement::ExitMatcherNode(ExitMatcherNode { exit_matcher: ChainBehavior::AndParent(Some(&context_paragraph_end)), })) .with_additional_node(ContextElement::StartOfParagraph); let (remaining, (many, till)) = context_many_till(¶graph_context, text_element, context_paragraph_end)(i)?; let many = many .into_iter() .filter_map(|token| match token { Token::TextElement(text_element) => Some(text_element), Token::Paragraph(_) => panic!("There should only be text elements in paragraphs."), }) .collect(); Ok(( remaining, Paragraph { contents: many, paragraph_end: till, }, )) } fn context_paragraph_end<'r, 's>( context: Context<'r, 's>, input: &'s str, ) -> Res<&'s str, &'s str> { paragraph_end(input) } fn paragraph_end(input: &str) -> Res<&str, &str> { alt(( recognize(tuple(( map(line_break, TextElement::LineBreak), many1(blank_line), ))), eof, ))(input) }