use crate::compiler::compiler::Compiler; use crate::compiler::compiler::Target; use crate::document::document::Document; use crate::document::element::ContainerElement; use crate::document::element::ElemKind; use crate::document::element::Element; use crate::lsp::semantic::Semantics; use crate::lua::kernel::CTX; use crate::parser::parser::ParserState; use crate::parser::rule::RegexRule; use crate::parser::source::Source; use crate::parser::source::Token; use crate::parser::source::VirtualSource; use crate::parser::util; use ariadne::Fmt; use ariadne::Label; use ariadne::Report; use ariadne::ReportKind; use mlua::Error::BadArgument; use mlua::Function; use mlua::Lua; use regex::Captures; use regex::Regex; use std::ops::Range; use std::rc::Rc; use std::sync::Arc; #[derive(Debug)] pub struct Link { pub location: Token, /// Display content of link pub display: Vec>, /// Url of link pub url: String, } impl Element for Link { fn location(&self) -> &Token { &self.location } fn kind(&self) -> ElemKind { ElemKind::Inline } fn element_name(&self) -> &'static str { "Link" } fn compile(&self, compiler: &Compiler, document: &dyn Document, cursor: usize) -> Result { match compiler.target() { Target::HTML => { let mut result = format!( "", Compiler::sanitize(compiler.target(), self.url.as_str()) ); for elem in &self.display { result += elem.compile(compiler, document, cursor+result.len())?.as_str(); } result += ""; Ok(result) } _ => todo!(""), } } fn as_container(&self) -> Option<&dyn ContainerElement> { Some(self) } } impl ContainerElement for Link { fn contained(&self) -> &Vec> { &self.display } fn push(&mut self, elem: Box) -> Result<(), String> { if elem.downcast_ref::().is_some() { return Err("Tried to push a link inside of a link".to_string()); } self.display.push(elem); Ok(()) } } #[auto_registry::auto_registry(registry = "rules", path = "crate::elements::link")] pub struct LinkRule { re: [Regex; 1], } impl LinkRule { pub fn new() -> Self { Self { re: [Regex::new(r"\[((?:\\.|[^\\\\])*?)\]\(((?:\\.|[^\\\\])*?)\)").unwrap()], } } } impl RegexRule for LinkRule { fn name(&self) -> &'static str { "Link" } fn previous(&self) -> Option<&'static str> { Some("Link") } fn regexes(&self) -> &[Regex] { &self.re } fn on_regex_match<'a>( &self, _: usize, state: &ParserState, document: &'a (dyn Document<'a> + 'a), token: Token, matches: Captures, ) -> Vec, Range)>> { let mut reports = vec![]; let link_display = match matches.get(1) { Some(display) => { if display.as_str().is_empty() { reports.push( Report::build(ReportKind::Error, token.source(), display.start()) .with_message("Empty link name") .with_label( Label::new((token.source().clone(), display.range())) .with_message("Link name is empty") .with_color(state.parser.colors().error), ) .finish(), ); return reports; } let processed = util::process_escaped('\\', "]", display.as_str()); if processed.is_empty() { reports.push( Report::build(ReportKind::Error, token.source(), display.start()) .with_message("Empty link name") .with_label( Label::new((token.source(), display.range())) .with_message(format!( "Link name is empty. Once processed, `{}` yields `{}`", display.as_str().fg(state.parser.colors().highlight), processed.fg(state.parser.colors().highlight), )) .with_color(state.parser.colors().error), ) .finish(), ); return reports; } if let Some((sems, tokens)) = Semantics::from_source(token.source(), &state.shared.semantics) { sems.add(display.range().start-1..display.range().start, tokens.link_display_sep); } let source = Rc::new(VirtualSource::new( Token::new(display.range(), token.source()), "Link Display".to_string(), processed, )); match util::parse_paragraph(state, source, document) { Err(err) => { reports.push( Report::build(ReportKind::Error, token.source(), display.start()) .with_message("Failed to parse link display") .with_label( Label::new((token.source(), display.range())) .with_message(err.to_string()) .with_color(state.parser.colors().error), ) .finish(), ); return reports; } Ok(mut paragraph) => std::mem::take(&mut paragraph.content), } } _ => panic!("Empty link name"), }; let link_url = match matches.get(2) { Some(url) => { if url.as_str().is_empty() { reports.push( Report::build(ReportKind::Error, token.source(), url.start()) .with_message("Empty link url") .with_label( Label::new((token.source(), url.range())) .with_message("Link url is empty") .with_color(state.parser.colors().error), ) .finish(), ); return reports; } let text_content = util::process_text(document, url.as_str()); if text_content.is_empty() { reports.push( Report::build(ReportKind::Error, token.source(), url.start()) .with_message("Empty link url") .with_label( Label::new((token.source(), url.range())) .with_message(format!( "Link url is empty. Once processed, `{}` yields `{}`", url.as_str().fg(state.parser.colors().highlight), text_content.as_str().fg(state.parser.colors().highlight), )) .with_color(state.parser.colors().error), ) .finish(), ); return reports; } text_content } _ => panic!("Empty link url"), }; state.push( document, Box::new(Link { location: token.clone(), display: link_display, url: link_url, }), ); //if let Some(sems) = state.shared.semantics.as_ref().map(|sems| { // RefMut::filter_map(sems.borrow_mut(), |sems| sems.get_mut(&token.source())) // .ok() // .unwrap() //}) { // let name = matches.get(1).unwrap().range(); // sems.add(token.source(), name.start-1..name.start, sems.token.link_name_sep); // sems.add(token.source(), name.clone(), sems.token.link_name); // sems.add(token.source(), name.end..name.end+1, sems.token.link_name_sep); // let url = matches.get(2).unwrap().range(); // sems.add(token.source(), url.start-1..url.start, sems.token.link_url_sep); // sems.add(token.source(), url.clone(), sems.token.link_url); // sems.add(token.source(), url.end..url.end+1, sems.token.link_url_sep); //} reports } fn register_bindings<'lua>(&self, lua: &'lua Lua) -> Vec<(String, Function<'lua>)> { let mut bindings = vec![]; bindings.push(( "push".to_string(), lua.create_function(|_, (display, url): (String, String)| { let mut result = Ok(()); CTX.with_borrow(|ctx| { ctx.as_ref().map(|ctx| { let source = Rc::new(VirtualSource::new( ctx.location.clone(), "Link Display".to_string(), display, )); let display_content = match util::parse_paragraph(ctx.state, source, ctx.document) { Err(err) => { result = Err(BadArgument { to: Some("push".to_string()), pos: 1, name: Some("display".to_string()), cause: Arc::new(mlua::Error::external(format!( "Failed to parse link display: {err}" ))), }); return; } Ok(mut paragraph) => { std::mem::take(&mut paragraph.content) } }; ctx.state.push( ctx.document, Box::new(Link { location: ctx.location.clone(), display: display_content, url, }), ); }) }); result }) .unwrap(), )); bindings } } #[cfg(test)] mod tests { use crate::elements::paragraph::Paragraph; use crate::elements::style::Style; use crate::elements::text::Text; use crate::parser::langparser::LangParser; use crate::parser::parser::Parser; use crate::parser::source::SourceFile; use crate::{validate_document, validate_semantics}; use super::*; #[test] fn parser() { let source = Rc::new(SourceFile::with_content( "".to_string(), r#" Some [link](url). [**BOLD link**](another url) "# .to_string(), None, )); let parser = LangParser::default(); let (doc, _) = parser.parse(ParserState::new(&parser, None), source, None); validate_document!(doc.content().borrow(), 0, Paragraph { Text { content == "Some " }; Link { url == "url" } { Text { content == "link" }; }; Text { content == "." }; Link { url == "another url" } { Style; Text { content == "BOLD link" }; Style; }; }; ); } #[test] fn lua() { let source = Rc::new(SourceFile::with_content( "".to_string(), r#" Some %%. %< nml.link.push("**BOLD link**", "another url") >% "# .to_string(), None, )); let parser = LangParser::default(); let (doc, _) = parser.parse(ParserState::new(&parser, None), source, None); validate_document!(doc.content().borrow(), 0, Paragraph { Text { content == "Some " }; Link { url == "url" } { Text { content == "link" }; }; Text { content == "." }; Link { url == "another url" } { Style; Text { content == "BOLD link" }; Style; }; }; ); } #[test] fn semantics() { let source = Rc::new(SourceFile::with_content( "".to_string(), r#" [li**n**k](url) "# .to_string(), None, )); let parser = LangParser::default(); let (_, state) = parser.parse(ParserState::new_with_semantics(&parser, None), source.clone(), None); println!("{:#?}", state.shared.semantics); /* let source = Rc::new(SourceFile::with_content( "".to_string(), r#" [link](url) "# .to_string(), None, )); let parser = LangParser::default(); let (_, state) = parser.parse(ParserState::new_with_semantics(&parser, None), source.clone(), None); validate_semantics!(state, source.clone(), 0, link_name_sep { delta_line == 1, delta_start == 0, length == 1 }; link_name { delta_line == 0, delta_start == 1, length == 4 }; link_name_sep { delta_line == 0, delta_start == 4, length == 1 }; link_url_sep { delta_line == 0, delta_start == 1, length == 1 }; link_url { delta_line == 0, delta_start == 1, length == 3 }; link_url_sep { delta_line == 0, delta_start == 3, length == 1 }; ); */ } }