pub(crate) mod block; pub(crate) mod inline; pub(crate) mod line; use self::block::ParseBlock; use crate::elements::tokens::LB; use crate::elements::{Document, ImportAnchor}; use crate::settings::SettingsError; use charred::tapemachine::{CharTapeMachine, TapeError}; use crossbeam_utils::sync::WaitGroup; use regex::Regex; use std::collections::HashMap; use std::fmt; use std::fs::{read_to_string, File}; use std::io::{self, BufReader}; use std::path::PathBuf; use std::sync::{Arc, Mutex, RwLock}; use std::thread; pub type ParseResult = Result; #[derive(Debug)] pub enum ParseError { TapeError(TapeError), SettingsError(SettingsError), IoError(io::Error), } impl fmt::Display for ParseError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { ParseError::TapeError(e) => write!(f, "{}", e), ParseError::SettingsError(e) => write!(f, "{}", e), ParseError::IoError(e) => write!(f, "IO Error: {}", e), } } } impl From for ParseError { fn from(e: TapeError) -> Self { Self::TapeError(e) } } impl From for ParseError { fn from(e: SettingsError) -> Self { Self::SettingsError(e) } } impl From for ParseError { fn from(e: io::Error) -> Self { Self::IoError(e) } } #[derive(Clone, Debug)] pub struct ParserOptions { pub path: Option, pub paths: Arc>>, pub document: Document, pub is_child: bool, } impl Default for ParserOptions { fn default() -> Self { Self { path: None, paths: Arc::new(Mutex::new(Vec::new())), document: Document::new(), is_child: false, } } } impl ParserOptions { /// Adds a path to the parser options pub fn add_path(mut self, path: PathBuf) -> Self { self.path = Some(path.clone()); self.paths.lock().unwrap().push(path); self } } pub struct Parser { pub(crate) options: ParserOptions, pub(crate) ctm: CharTapeMachine, section_nesting: u8, sections: Vec, section_anchors: Vec, section_return: Option, wg: WaitGroup, pub(crate) block_break_at: Vec, pub(crate) inline_break_at: Vec, pub(crate) parse_variables: bool, } impl Parser { /// Creates a new parser with the default values given pub fn with_defaults(options: ParserOptions) -> Self { let text = if let Some(path) = &options.path { let mut text = read_to_string(&path).unwrap(); text = text.replace("\r\n", "\n"); if text.chars().last() != Some('\n') { text.push('\n'); } text } else { "".to_string() }; Self { options, sections: Vec::new(), section_anchors: Vec::new(), section_nesting: 0, section_return: None, wg: WaitGroup::new(), ctm: CharTapeMachine::new(text.chars().collect()), inline_break_at: Vec::new(), block_break_at: Vec::new(), parse_variables: false, } } /// Creates a new child parser fn create_child(&self, path: PathBuf) -> Self { let mut options = self.options.clone().add_path(path.clone()); options.document = self.options.document.create_child(); options.document.path = Some(path.to_str().unwrap().to_string()); options.is_child = true; Self::with_defaults(options) } /// Returns a string of the current position in the file pub(crate) fn get_position_string(&self) -> String { let char_index = self.ctm.get_index(); self.get_position_string_for_index(char_index) } /// Returns a string of the given index position in the file fn get_position_string_for_index(&self, char_index: usize) -> String { let text = self.ctm.get_text(); let mut text_unil = text[..char_index].to_vec(); let line_number = text_unil.iter().filter(|c| c == &&LB).count(); text_unil.reverse(); let mut inline_pos = 0; while inline_pos < text_unil.len() && text_unil[inline_pos] != LB { inline_pos += 1; } if let Some(path) = &self.options.path { format!("{}:{}:{}", path.to_str().unwrap(), line_number, inline_pos) } else { format!("{}:{}", line_number, inline_pos) } } /// transform an import path to be relative to the current parsers file fn transform_path(&mut self, path: String) -> PathBuf { let mut path = PathBuf::from(path); if !path.is_absolute() { if let Some(selfpath) = &self.options.path { if let Some(dir) = selfpath.parent() { path = PathBuf::new().join(dir).join(path); } } } path } /// starts up a new thread to parse the imported document fn import_document(&mut self, path: PathBuf) -> ParseResult>> { if !path.exists() || !path.is_file() { log::error!( "Import of \"{}\" failed: The file doesn't exist.\n\t--> {}\n", path.to_str().unwrap(), self.get_position_string(), ); return Err(self.ctm.assert_error(None).into()); } let anchor = Arc::new(RwLock::new(ImportAnchor::new())); let anchor_clone = Arc::clone(&anchor); let wg = self.wg.clone(); let mut child_parser = self.create_child(path.clone()); let _ = thread::spawn(move || { let document = child_parser.parse(); anchor_clone.write().unwrap().set_document(document); drop(wg); }); Ok(anchor) } /// Imports a bibliography toml file fn import_bib(&mut self, path: PathBuf) -> ParseResult<()> { let f = File::open(path).map_err(|_| self.ctm.err())?; self.options .document .bibliography .read_bib_file(&mut BufReader::new(f)) .map_err(|_| self.ctm.err())?; Ok(()) } /// Returns the text of an imported text file fn import_text_file(&self, path: PathBuf) -> ParseResult { read_to_string(path).map_err(ParseError::from) } fn import_stylesheet(&mut self, path: PathBuf) -> ParseResult<()> { self.options.document.stylesheets.push( self.options .document .downloads .lock() .add_download(path.to_str().unwrap().to_string()), ); Ok(()) } fn import_manifest(&mut self, path: PathBuf) -> ParseResult<()> { self.options .document .config .lock() .merge(path) .map_err(ParseError::from) } /// Imports a glossary fn import_glossary(&self, path: PathBuf) -> ParseResult<()> { let contents = self.import_text_file(path)?; let value = contents .parse::() .map_err(|_| self.ctm.err())?; self.options .document .glossary .lock() .assign_from_toml(value) .unwrap_or_else(|e| log::error!("{}", e)); Ok(()) } /// Imports a path fn import(&mut self, path: String, args: &HashMap) -> ImportType { log::debug!( "Importing file {}\n\t--> {}\n", path, self.get_position_string() ); let path = self.transform_path(path); if !path.exists() { log::error!( "Import of \"{}\" failed: The file doesn't exist.\n\t--> {}\n", path.to_str().unwrap(), self.get_position_string(), ); return ImportType::None; } if let Some(fname) = path .file_name() .and_then(|f| Some(f.to_str().unwrap().to_string())) { let ignore = &self.options.document.config.lock().imports.ignored_imports; if ignore.contains(&fname) { return ImportType::None; } } { let mut paths = self.options.paths.lock().unwrap(); if paths.iter().find(|item| **item == path).is_some() { log::warn!( "Import of \"{}\" failed: Already imported.\n\t--> {}\n", path.to_str().unwrap(), self.get_position_string(), ); return ImportType::None; } paths.push(path.clone()); } match args.get("type").cloned() { Some(s) if s == "stylesheet".to_string() => { ImportType::Stylesheet(self.import_stylesheet(path)) } Some(s) if s == "document".to_string() => { ImportType::Document(self.import_document(path)) } Some(s) if s == "bibliography".to_string() => { ImportType::Bibliography(self.import_bib(path)) } Some(s) if s == "manifest".to_string() || s == "config" => { ImportType::Manifest(self.import_manifest(path)) } Some(s) if s == "glossary".to_string() => { ImportType::Glossary(self.import_glossary(path)) } _ => { lazy_static::lazy_static! { static ref BIB_NAME: Regex = Regex::new(r".*\.bib\.toml$").unwrap(); } if let Some(fname) = path.file_name().and_then(|f| Some(f.to_str().unwrap())) { if BIB_NAME.is_match(fname) { return ImportType::Bibliography(self.import_bib(path)); } } match path.extension().map(|e| e.to_str().unwrap().to_lowercase()) { Some(e) if e == "css" => ImportType::Stylesheet(self.import_stylesheet(path)), Some(e) if e == "toml" => ImportType::Manifest(self.import_manifest(path)), _ => ImportType::Document(self.import_document(path)), } } } } /// parses the given text into a document pub fn parse(&mut self) -> Document { self.options.document.path = if let Some(path) = &self.options.path { Some(path.canonicalize().unwrap().to_str().unwrap().to_string()) } else { None }; while !self.ctm.check_eof() { match self.parse_block() { Ok(block) => self.options.document.add_element(block), Err(err) => { if self.ctm.check_eof() { break; } match err { ParseError::TapeError(t) => { log::error!( "Parse Error: {}\n\t--> {}\n", t, self.get_position_string_for_index(t.get_index()) ) } _ => { log::error!("{}", err) } } break; } } } let wg = self.wg.clone(); self.wg = WaitGroup::new(); if !self.options.is_child { self.import( "Manifest.toml".to_string(), &maplit::hashmap! {"type".to_string() => "manifest".to_string()}, ); } wg.wait(); if !self.options.is_child { self.import_from_config(); } self.options.document.post_process(); let document = std::mem::replace(&mut self.options.document, Document::new()); document } pub fn get_paths(&self) -> Vec { self.options.paths.lock().unwrap().clone() } /// Imports files from the configs import values fn import_from_config(&mut self) { let config = Arc::clone(&self.options.document.config); let mut stylesheets = config.lock().imports.included_stylesheets.clone(); let args = maplit::hashmap! {"type".to_string() => "stylesheet".to_string()}; while let Some(s) = stylesheets.pop() { self.import(s, &args); } let mut bibliography = config.lock().imports.included_bibliography.clone(); let args = maplit::hashmap! {"type".to_string() => "bibliography".to_string()}; while let Some(s) = bibliography.pop() { self.import(s, &args); } let mut glossaries = config.lock().imports.included_glossaries.clone(); let args = maplit::hashmap! {"type".to_string() =>"glossary".to_string()}; while let Some(s) = glossaries.pop() { self.import(s, &args); } } } pub(crate) enum ImportType { Document(ParseResult>>), Stylesheet(ParseResult<()>), Bibliography(ParseResult<()>), Manifest(ParseResult<()>), Glossary(ParseResult<()>), None, }