use std::{ collections::{BTreeSet, VecDeque}, marker::PhantomData, mem, }; use crate::{Doctype, Emitter, EndTag, Error, StartTag, Token}; /// The default implementation of [`crate::Emitter`], used to produce ("emit") tokens. pub struct DefaultEmitter { current_characters: String, current_token: Option>, last_start_tag: String, current_attribute: Option<(String, String)>, seen_attributes: BTreeSet, emitted_tokens: VecDeque>, reader: PhantomData, } impl Default for DefaultEmitter { fn default() -> Self { DefaultEmitter { current_characters: String::new(), current_token: None, last_start_tag: String::new(), current_attribute: None, seen_attributes: BTreeSet::new(), emitted_tokens: VecDeque::new(), reader: PhantomData::default(), } } } impl DefaultEmitter<(), R> { fn emit_token(&mut self, token: Token<()>) { self.flush_current_characters(); self.emitted_tokens.push_front(token); } fn flush_current_attribute(&mut self) { if let Some((k, v)) = self.current_attribute.take() { match self.current_token { Some(Token::StartTag(ref mut tag)) => { let mut error = None; tag.attributes .entry(k) .and_modify(|_| { error = Some(Error::DuplicateAttribute); }) .or_insert(v); if let Some(e) = error { self.emit_error(e); } } Some(Token::EndTag(_)) => { if !self.seen_attributes.insert(k) { self.emit_error(Error::DuplicateAttribute); } } _ => { debug_assert!(false); } } } } fn flush_current_characters(&mut self) { if self.current_characters.is_empty() { return; } let s = mem::take(&mut self.current_characters); self.emit_token(Token::String(s)); } } impl Emitter for DefaultEmitter<(), R> { type Token = Token<()>; fn set_last_start_tag(&mut self, last_start_tag: Option<&str>) { self.last_start_tag.clear(); self.last_start_tag .push_str(last_start_tag.unwrap_or_default()); } fn emit_eof(&mut self) { self.flush_current_characters(); } fn emit_error(&mut self, error: Error) { // bypass character flushing in self.emit_token: we don't need the error location to be // that exact self.emitted_tokens.push_front(Token::Error(error)); } fn pop_token(&mut self) -> Option { self.emitted_tokens.pop_back() } fn emit_string(&mut self, s: &str) { self.current_characters.push_str(s); } fn init_start_tag(&mut self, _reader: &R) { self.current_token = Some(Token::StartTag(Default::default())); } fn init_end_tag(&mut self, _reader: &R) { self.current_token = Some(Token::EndTag(Default::default())); self.seen_attributes.clear(); } fn init_comment(&mut self, _reader: &R) { self.current_token = Some(Token::Comment(String::new())); } fn emit_current_tag(&mut self) { self.flush_current_attribute(); let mut token = self.current_token.take().unwrap(); match token { Token::EndTag(_) => { if !self.seen_attributes.is_empty() { self.emit_error(Error::EndTagWithAttributes); } self.seen_attributes.clear(); } Token::StartTag(ref mut _tag) => { self.set_last_start_tag(Some(&_tag.name)); } _ => debug_assert!(false), } self.emit_token(token); } fn emit_current_comment(&mut self) { let comment = self.current_token.take().unwrap(); debug_assert!(matches!(comment, Token::Comment(_))); self.emit_token(comment); } fn emit_current_doctype(&mut self) { let doctype = self.current_token.take().unwrap(); debug_assert!(matches!(doctype, Token::Doctype(_))); self.emit_token(doctype); } fn set_self_closing(&mut self) { let tag = self.current_token.as_mut().unwrap(); match tag { Token::StartTag(StartTag { ref mut self_closing, .. }) => { *self_closing = true; } Token::EndTag(_) => { self.emit_error(Error::EndTagWithTrailingSolidus); } _ => { debug_assert!(false); } } } fn set_force_quirks(&mut self) { match self.current_token { Some(Token::Doctype(ref mut doctype)) => doctype.force_quirks = true, _ => debug_assert!(false), } } fn push_tag_name(&mut self, s: &str) { match self.current_token { Some(Token::StartTag(StartTag { ref mut name, .. })) => { name.push_str(s); } Some(Token::EndTag(EndTag { ref mut name, .. })) => { name.push_str(s); } _ => debug_assert!(false), } } fn push_comment(&mut self, s: &str) { match self.current_token { Some(Token::Comment(ref mut data)) => data.push_str(s), _ => debug_assert!(false), } } fn push_doctype_name(&mut self, s: &str) { match self.current_token { Some(Token::Doctype(ref mut doctype)) => doctype.name.push_str(s), _ => debug_assert!(false), } } fn init_doctype(&mut self, _reader: &R) { self.current_token = Some(Token::Doctype(Doctype { name: String::new(), force_quirks: false, public_identifier: None, system_identifier: None, })); } fn init_attribute(&mut self, _reader: &R) { self.flush_current_attribute(); self.current_attribute = Some((String::new(), String::new())); } fn push_attribute_name(&mut self, s: &str) { self.current_attribute.as_mut().unwrap().0.push_str(s); } fn push_attribute_value(&mut self, s: &str) { self.current_attribute.as_mut().unwrap().1.push_str(s); } fn set_doctype_public_identifier(&mut self, value: &str) { if let Some(Token::Doctype(Doctype { ref mut public_identifier, .. })) = self.current_token { *public_identifier = Some(value.to_owned()); } else { debug_assert!(false); } } fn set_doctype_system_identifier(&mut self, value: &str) { if let Some(Token::Doctype(Doctype { ref mut system_identifier, .. })) = self.current_token { *system_identifier = Some(value.to_owned()); } else { debug_assert!(false); } } fn push_doctype_public_identifier(&mut self, s: &str) { if let Some(Token::Doctype(Doctype { public_identifier: Some(ref mut id), .. })) = self.current_token { id.push_str(s); } else { debug_assert!(false); } } fn push_doctype_system_identifier(&mut self, s: &str) { if let Some(Token::Doctype(Doctype { system_identifier: Some(ref mut id), .. })) = self.current_token { id.push_str(s); } else { debug_assert!(false); } } fn current_is_appropriate_end_tag_token(&mut self) -> bool { match self.current_token { Some(Token::EndTag(ref tag)) => { !self.last_start_tag.is_empty() && self.last_start_tag == tag.name } _ => false, } } }