use crate::common::{is_name_char, is_name_start_char, is_whitespace_char};
use crate::reader::error::SyntaxError;
use crate::reader::lexer::Token;
use super::{DoctypeSubstate, PullParser, QuoteToken, Result, State};
impl PullParser {
pub fn inside_doctype(&mut self, t: Token, substate: DoctypeSubstate) -> Option<Result> {
match substate {
DoctypeSubstate::Outside => match t {
Token::TagEnd => self.into_state_continue(State::OutsideTag),
Token::MarkupDeclarationStart => {
self.buf.clear();
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::InsideName))
},
Token::Character('%') => {
self.data.ref_data.clear();
self.data.ref_data.push('%');
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::PEReferenceInDtd))
},
Token::CommentStart => {
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::Comment))
},
Token::SingleQuote | Token::DoubleQuote => {
self.data.quote = super::QuoteToken::from_token(t);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::String))
},
Token::CDataEnd | Token::CDataStart => Some(self.error(SyntaxError::UnexpectedToken(t))),
_ => None,
},
DoctypeSubstate::String => match t {
Token::SingleQuote if self.data.quote != Some(QuoteToken::SingleQuoteToken) => None,
Token::DoubleQuote if self.data.quote != Some(QuoteToken::DoubleQuoteToken) => None,
Token::SingleQuote | Token::DoubleQuote => {
self.data.quote = None;
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::Outside))
},
_ => None,
},
DoctypeSubstate::Comment => match t {
Token::CommentEnd => {
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::Outside))
},
_ => None,
},
DoctypeSubstate::InsideName => match t {
Token::Character(c @ 'A'..='Z') => {
self.buf.push(c);
None
},
Token::Character(c) if is_whitespace_char(c) => {
let buf = self.take_buf();
match buf.as_str() {
"ENTITY" => self.into_state_continue(State::InsideDoctype(DoctypeSubstate::BeforeEntityName)),
"NOTATION" | "ELEMENT" | "ATTLIST" => self.into_state_continue(State::InsideDoctype(DoctypeSubstate::SkipDeclaration)),
_ => Some(self.error(SyntaxError::UnknownMarkupDeclaration(buf.into()))),
}
},
_ => Some(self.error(SyntaxError::UnexpectedToken(t))),
},
DoctypeSubstate::BeforeEntityName => {
self.data.name.clear();
match t {
Token::Character(c) if is_whitespace_char(c) => None,
Token::Character('%') => { self.data.name.push('%');
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::PEReferenceDefinitionStart))
},
Token::Character(c) if is_name_start_char(c) => {
if self.data.name.len() > self.config.max_name_length {
return Some(self.error(SyntaxError::ExceededConfiguredLimit));
}
self.data.name.push(c);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::EntityName))
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
}
},
DoctypeSubstate::EntityName => match t {
Token::Character(c) if is_whitespace_char(c) => {
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::BeforeEntityValue))
},
Token::Character(c) if is_name_char(c) => {
if self.data.name.len() > self.config.max_name_length {
return Some(self.error(SyntaxError::ExceededConfiguredLimit));
}
self.data.name.push(c);
None
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::BeforeEntityValue => {
self.buf.clear();
match t {
Token::Character(c) if is_whitespace_char(c) => None,
Token::Character('S' | 'P') => {
let name = self.data.take_name();
self.entities.entry(name).or_default(); self.into_state_continue(State::InsideDoctype(DoctypeSubstate::SkipDeclaration))
},
Token::SingleQuote | Token::DoubleQuote => {
self.data.quote = super::QuoteToken::from_token(t);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::EntityValue))
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
}
},
DoctypeSubstate::EntityValue => match t {
Token::SingleQuote if self.data.quote != Some(QuoteToken::SingleQuoteToken) => { self.buf.push('\''); None },
Token::DoubleQuote if self.data.quote != Some(QuoteToken::DoubleQuoteToken) => { self.buf.push('"'); None },
Token::SingleQuote | Token::DoubleQuote => {
self.data.quote = None;
let name = self.data.take_name();
let val = self.take_buf();
self.entities.entry(name).or_insert(val); self.into_state_continue(State::InsideDoctype(DoctypeSubstate::SkipDeclaration)) },
Token::ReferenceStart | Token::Character('&') => {
self.data.ref_data.clear();
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::NumericReferenceStart))
},
Token::Character('%') => {
self.data.ref_data.clear();
self.data.ref_data.push('%'); self.into_state_continue(State::InsideDoctype(DoctypeSubstate::PEReferenceInValue))
},
Token::Character(c) if !self.is_valid_xml_char(c) => {
Some(self.error(SyntaxError::InvalidCharacterEntity(c as u32)))
},
Token::Character(c) => {
self.buf.push(c);
None
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::PEReferenceDefinitionStart => match t {
Token::Character(c) if is_whitespace_char(c) => None,
Token::Character(c) if is_name_start_char(c) => {
debug_assert_eq!(self.data.name, "%");
self.data.name.push(c);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::PEReferenceDefinition))
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::PEReferenceDefinition => match t {
Token::Character(c) if is_name_char(c) => {
if self.data.name.len() > self.config.max_name_length {
return Some(self.error(SyntaxError::ExceededConfiguredLimit));
}
self.data.name.push(c);
None
},
Token::Character(c) if is_whitespace_char(c) => {
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::BeforeEntityValue))
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::PEReferenceInDtd => match t {
Token::Character(c) if is_name_char(c) => {
self.data.ref_data.push(c);
None
},
Token::ReferenceEnd | Token::Character(';') => {
let name = self.data.take_ref_data();
match self.entities.get(&name) {
Some(ent) => {
if let Err(e) = self.lexer.reparse(ent) {
return Some(Err(e));
}
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::Outside))
},
None => Some(self.error(SyntaxError::UndefinedEntity(name.into()))),
}
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::PEReferenceInValue => match t {
Token::Character(c) if is_name_char(c) => {
self.data.ref_data.push(c);
None
},
Token::ReferenceEnd | Token::Character(';') => {
let name = self.data.take_ref_data();
match self.entities.get(&name) {
Some(ent) => {
self.buf.push_str(ent);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::EntityValue))
},
None => Some(self.error(SyntaxError::UndefinedEntity(name.into()))),
}
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::NumericReferenceStart => match t {
Token::Character('#') => {
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::NumericReference))
},
Token::Character(c) if !self.is_valid_xml_char(c) => {
Some(self.error(SyntaxError::InvalidCharacterEntity(c as u32)))
},
Token::Character(c) => {
self.buf.push('&');
self.buf.push(c);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::EntityValue))
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::NumericReference => match t {
Token::ReferenceEnd | Token::Character(';') => {
let r = self.data.take_ref_data();
match self.numeric_reference_from_str(&r) {
Ok(c) => {
self.buf.push(c);
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::EntityValue))
},
Err(e) => Some(self.error(e)),
}
},
Token::Character(c) if !self.is_valid_xml_char(c) => {
Some(self.error(SyntaxError::InvalidCharacterEntity(c as u32)))
},
Token::Character(c) => {
self.data.ref_data.push(c);
None
},
_ => Some(self.error(SyntaxError::UnexpectedTokenInEntity(t))),
},
DoctypeSubstate::SkipDeclaration => match t {
Token::TagEnd => {
self.into_state_continue(State::InsideDoctype(DoctypeSubstate::Outside))
},
_ => None,
},
}
}
}