use crate::compiler::compiler::Compiler; use crate::compiler::compiler::Target; use crate::document::document::Document; use crate::document::element::ElemKind; use crate::document::element::Element; use crate::document::element::ReferenceableElement; use crate::lua::kernel::CTX; use crate::parser::parser::Parser; use crate::parser::rule::RegexRule; use crate::parser::source::Source; use crate::parser::source::Token; use ariadne::Fmt; use ariadne::Label; use ariadne::Report; use ariadne::ReportKind; use mlua::Error::BadArgument; use mlua::Function; use mlua::Lua; use regex::Regex; use std::ops::Range; use std::rc::Rc; use std::sync::Arc; #[derive(Debug)] pub struct Section { pub(self) location: Token, pub(self) title: String, // Section title pub(self) depth: usize, // Section depth pub(self) kind: u8, // Section kind, e.g numbered, unnumbred, ... pub(self) reference: Option, // Section reference name } impl Element for Section { fn location(&self) -> &Token { &self.location } fn kind(&self) -> ElemKind { ElemKind::Block } fn element_name(&self) -> &'static str { "Section" } fn to_string(&self) -> String { format!("{self:#?}") } fn as_referenceable(&self) -> Option<&dyn ReferenceableElement> { Some(self) } fn compile(&self, compiler: &Compiler, _document: &dyn Document) -> Result { match compiler.target() { Target::HTML => Ok(format!( "{1}", self.depth, Compiler::sanitize(compiler.target(), self.title.as_str()) )), Target::LATEX => Err("Unimplemented compiler".to_string()), } } } impl ReferenceableElement for Section { fn reference_name(&self) -> Option<&String> { self.reference.as_ref() } fn refcount_key(&self) -> &'static str { "section" } fn compile_reference( &self, compiler: &Compiler, document: &dyn Document, reference: &super::reference::Reference, refid: usize, ) -> Result { todo!() } } pub struct SectionRule { re: [Regex; 1], } impl SectionRule { pub fn new() -> Self { Self { re: [Regex::new(r"(?:^|\n)(#{1,})(?:\{(.*)\})?((\*|\+){1,})?(.*)").unwrap()], } } } pub mod section_kind { pub const NONE: u8 = 0x00; pub const NO_TOC: u8 = 0x01; pub const NO_NUMBER: u8 = 0x02; } impl RegexRule for SectionRule { fn name(&self) -> &'static str { "Section" } fn regexes(&self) -> &[Regex] { &self.re } fn on_regex_match( &self, _: usize, parser: &dyn Parser, document: &dyn Document, token: Token, matches: regex::Captures, ) -> Vec, Range)>> { let mut result = vec![]; let section_depth = match matches.get(1) { Some(depth) => { if depth.len() > 6 { result.push( Report::build(ReportKind::Error, token.source(), depth.start()) .with_message("Invalid section depth") .with_label( Label::new((token.source(), depth.range())) .with_message(format!("Section is of depth {}, which is greather than {} (maximum depth allowed)", depth.len().fg(parser.colors().info), 6.fg(parser.colors().info))) .with_color(parser.colors().error)) .finish()); return result; } depth.len() } _ => panic!("Empty section depth"), }; // [Optional] Reference name let section_refname = matches.get(2).map_or_else( || None, |refname| { /* TODO: Wait for reference rework // Check for duplicate reference if let Some((ref_doc, reference)) = document.get_reference(refname.as_str()) { result.push( Report::build(ReportKind::Warning, token.source(), refname.start()) .with_message("Duplicate reference name") .with_label( Label::new((token.source(), refname.range())) .with_message(format!("Reference with name `{}` is already defined in `{}`", refname.as_str().fg(parser.colors().highlight), ref_doc.source().name().as_str().fg(parser.colors().highlight))) .with_message(format!("`{}` conflicts with previously defined reference to {}", refname.as_str().fg(parser.colors().highlight), reference.element_name().fg(parser.colors().highlight))) .with_color(parser.colors().warning)) .with_label( Label::new((ref_doc.source(), reference.location().start()+1..reference.location().end() )) .with_message(format!("`{}` previously defined here", refname.as_str().fg(parser.colors().highlight))) .with_color(parser.colors().warning)) .with_note(format!("Previous reference was overwritten")) .finish()); } */ Some(refname.as_str().to_string()) }, ); // Section kind let section_kind = match matches.get(3) { Some(kind) => match kind.as_str() { "*+" | "+*" => section_kind::NO_NUMBER | section_kind::NO_TOC, "*" => section_kind::NO_NUMBER, "+" => section_kind::NO_TOC, "" => section_kind::NONE, _ => { result.push( Report::build(ReportKind::Error, token.source(), kind.start()) .with_message("Invalid section numbering kind") .with_label( Label::new((token.source(), kind.range())) .with_message(format!("Section numbering kind must be a combination of `{}` for unnumbered, and `{}` for non-listing; got `{}`", "*".fg(parser.colors().info), "+".fg(parser.colors().info), kind.as_str().fg(parser.colors().highlight))) .with_color(parser.colors().error)) .with_help(format!("Leave empty for a numbered listed section")) .finish()); return result; } }, _ => section_kind::NONE, }; // Spacing + Section name let section_name = match matches.get(5) { Some(name) => { let split = name .as_str() .chars() .position(|c| !c.is_whitespace()) .unwrap_or(0); let section_name = &name.as_str()[split..]; if section_name.is_empty() // No name { result.push( Report::build(ReportKind::Error, token.source(), name.start()) .with_message("Missing section name") .with_label( Label::new((token.source(), name.range())) .with_message("Sections require a name before line end") .with_color(parser.colors().error), ) .finish(), ); return result; } // No spacing if split == 0 { result.push( Report::build(ReportKind::Warning, token.source(), name.start()) .with_message("Missing section spacing") .with_label( Label::new((token.source(), name.range())) .with_message("Sections require at least one whitespace before the section's name") .with_color(parser.colors().warning)) .with_help(format!("Add a space before `{}`", section_name.fg(parser.colors().highlight))) .finish()); return result; } section_name.to_string() } _ => panic!("Empty section name"), }; parser.push( document, Box::new(Section { location: token.clone(), title: section_name, depth: section_depth, kind: section_kind, reference: section_refname, }), ); return result; } fn lua_bindings<'lua>(&self, lua: &'lua Lua) -> Vec<(String, Function<'lua>)> { let mut bindings = vec![]; bindings.push(( "push".to_string(), lua.create_function( |_, (title, depth, kind, reference): (String, usize, String, Option)| { let kind = match kind.as_str() { "*+" | "+*" => section_kind::NO_NUMBER | section_kind::NO_TOC, "*" => section_kind::NO_NUMBER, "+" => section_kind::NO_TOC, "" => section_kind::NONE, _ => { return Err(BadArgument { to: Some("push".to_string()), pos: 3, name: Some("kind".to_string()), cause: Arc::new(mlua::Error::external(format!( "Unknown section kind specified" ))), }) } }; CTX.with_borrow(|ctx| { ctx.as_ref().map(|ctx| { ctx.parser.push( ctx.document, Box::new(Section { location: ctx.location.clone(), title, depth, kind, reference, }), ); }) }); Ok(()) }, ) .unwrap(), )); bindings } }