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use std::ops::{Deref, DerefMut};
use crate::machine;
use crate::utils::{
control_pat, noncharacter_pat, surrogate_pat, ControlToken, State as InternalState,
};
use crate::{DefaultEmitter, Emitter, Error, IntoReader, Never, Reader};
// this is a stack that can hold 0 to 2 Ts
#[derive(Debug, Default, Clone, Copy)]
struct Stack2<T: Copy>(Option<(T, Option<T>)>);
impl<T: Copy> Stack2<T> {
#[inline]
fn push(&mut self, c: T) {
self.0 = match self.0 {
None => Some((c, None)),
Some((c1, None)) => Some((c1, Some(c))),
Some((_c1, Some(_c2))) => panic!("stack full!"),
}
}
#[inline]
fn pop(&mut self) -> Option<T> {
let (new_self, rv) = match self.0 {
Some((c1, Some(c2))) => (Some((c1, None)), Some(c2)),
Some((c1, None)) => (None, Some(c1)),
None => (None, None),
};
self.0 = new_self;
rv
}
}
/// A HTML tokenizer. See crate-level docs for basic usage.
pub struct Tokenizer<R: Reader, E: Emitter<R> = DefaultEmitter<R, ()>> {
eof: bool,
pub(crate) state: InternalState,
pub(crate) emitter: E,
pub(crate) temporary_buffer: String,
pub(crate) reader: R,
to_reconsume: Stack2<Option<char>>,
pub(crate) character_reference_code: u32,
pub(crate) return_state: Option<InternalState>,
}
impl<R: Reader> Tokenizer<R> {
/// Create a new tokenizer from some input.
///
/// Patches are welcome for providing an efficient implementation over async streams,
/// iterators, files, etc, as long as any dependencies come behind featureflags.
pub fn new<'a, S: IntoReader<'a, Reader = R>>(input: S) -> Self {
Tokenizer::<S::Reader>::new_with_emitter(input, DefaultEmitter::default())
}
}
/// The states you can set the tokenizer to.
#[derive(Debug)]
#[non_exhaustive]
pub enum State {
/// The [Data state](https://html.spec.whatwg.org/#data-state).
Data,
/// The [PLAINTEXT state](https://html.spec.whatwg.org/#plaintext-state).
PlainText,
/// The [RCDATA state](https://html.spec.whatwg.org/#rcdata-state).
RcData,
/// The [RAWTEXT state](https://html.spec.whatwg.org/#rawtext-state).
RawText,
/// The [Script data state](https://html.spec.whatwg.org/#script-data-state).
ScriptData,
/// The [Script data escaped state](https://html.spec.whatwg.org/#script-data-escaped-state).
ScriptDataEscaped,
/// The [Script data double escaped state](https://html.spec.whatwg.org/#script-data-double-escaped-state).
ScriptDataDoubleEscaped,
}
impl From<State> for InternalState {
fn from(state: State) -> Self {
match state {
State::Data => InternalState::Data,
State::PlainText => InternalState::PlainText,
State::RcData => InternalState::RcData,
State::RawText => InternalState::RawText,
State::ScriptData => InternalState::ScriptData,
State::ScriptDataEscaped => InternalState::ScriptDataEscaped,
State::ScriptDataDoubleEscaped => InternalState::ScriptDataDoubleEscaped,
}
}
}
impl<R: Reader, E: Emitter<R>> Tokenizer<R, E> {
/// Construct a new tokenizer from some input and a custom emitter.
///
/// Use this method over [`Tokenizer::new`] when you want to have more control over string allocation for
/// tokens.
pub fn new_with_emitter<'a, S: IntoReader<'a, Reader = R>>(input: S, emitter: E) -> Self {
Tokenizer {
eof: false,
state: InternalState::Data,
emitter,
temporary_buffer: String::new(),
to_reconsume: Stack2::default(),
reader: input.into_reader(),
character_reference_code: 0,
return_state: None,
}
}
/// Test-internal function to override internal state.
///
/// Only available with the `integration-tests` feature which is not public API.
#[cfg(feature = "integration-tests")]
pub fn set_internal_state(&mut self, state: InternalState) {
self.state = state;
}
/// Set the statemachine to start/continue in the given state.
pub fn set_state(&mut self, state: State) {
self.state = state.into();
}
/// Just a helper method for the machine.
#[inline]
pub(crate) fn emit_error(&mut self, error: Error) {
self.emitter.emit_error(error, &self.reader);
}
#[inline]
pub(crate) fn unread_char(&mut self, c: Option<char>) {
self.to_reconsume.push(c);
}
#[inline]
fn validate_char(&mut self, c: char) {
match c as u32 {
surrogate_pat!() => {
self.emit_error(Error::SurrogateInInputStream);
}
noncharacter_pat!() => {
self.emit_error(Error::NoncharacterInInputStream);
}
// control without whitespace or nul
x @ control_pat!()
if !matches!(x, 0x0000 | 0x0009 | 0x000a | 0x000c | 0x000d | 0x0020) =>
{
self.emit_error(Error::ControlCharacterInInputStream);
}
_ => (),
}
}
pub(crate) fn read_char(&mut self) -> Result<Option<char>, R::Error> {
let (c_res, reconsumed) = match self.to_reconsume.pop() {
Some(c) => (Ok(c), true),
None => (self.reader.read_char(), false),
};
let mut c = match c_res {
Ok(Some(c)) => c,
res => return res,
};
if c == '\r' {
c = '\n';
let c2 = self.reader.read_char()?;
if c2 != Some('\n') {
self.unread_char(c2);
}
}
if !reconsumed {
self.validate_char(c);
}
Ok(Some(c))
}
#[inline]
pub(crate) fn try_read_string(
&mut self,
mut s: &str,
case_sensitive: bool,
) -> Result<bool, R::Error> {
debug_assert!(!s.is_empty());
let to_reconsume_bak = self.to_reconsume;
let mut chars = s.chars();
while let Some(c) = self.to_reconsume.pop() {
if let (Some(x), Some(x2)) = (c, chars.next()) {
if x == x2 || (!case_sensitive && x.to_ascii_lowercase() == x2.to_ascii_lowercase())
{
s = &s[x.len_utf8()..];
continue;
}
}
self.to_reconsume = to_reconsume_bak;
return Ok(false);
}
self.reader.try_read_string(s, case_sensitive)
}
pub(crate) fn is_consumed_as_part_of_an_attribute(&self) -> bool {
matches!(
self.return_state,
Some(
InternalState::AttributeValueDoubleQuoted
| InternalState::AttributeValueSingleQuoted
| InternalState::AttributeValueUnquoted
)
)
}
pub(crate) fn flush_code_points_consumed_as_character_reference(&mut self) {
if self.is_consumed_as_part_of_an_attribute() {
self.emitter.push_attribute_value(&self.temporary_buffer);
self.temporary_buffer.clear();
} else {
self.flush_buffer_characters();
}
}
pub(crate) fn next_input_character(&mut self) -> Result<Option<char>, R::Error> {
let rv = self.read_char()?;
self.unread_char(rv);
Ok(rv)
}
pub(crate) fn flush_buffer_characters(&mut self) {
self.emitter.emit_string(&self.temporary_buffer);
self.temporary_buffer.clear();
}
}
impl<R: Reader, E: Emitter<R>> Iterator for Tokenizer<R, E> {
type Item = Result<E::Token, R::Error>;
fn next(&mut self) -> Option<Self::Item> {
loop {
if let Some(token) = self.emitter.pop_token() {
break Some(Ok(token));
} else if !self.eof {
match machine::consume(self) {
Ok(ControlToken::Continue) => (),
Ok(ControlToken::Eof) => {
self.eof = true;
self.emitter.emit_eof();
}
Err(e) => break Some(Err(e)),
}
} else {
break None;
}
}
}
}
/// A kind of tokenizer that directly yields tokens when used as an iterator, so `Token` instead of
/// `Result<Token, _>`.
///
/// This is the return value of [`Tokenizer::infallible`].
pub struct InfallibleTokenizer<R: Reader<Error = Never>, E: Emitter<R>>(Tokenizer<R, E>);
impl<R: Reader<Error = Never>, E: Emitter<R>> Tokenizer<R, E> {
/// Statically assert that this iterator is infallible.
///
/// Call this to get rid of error handling when parsing HTML from strings.
pub fn infallible(self) -> InfallibleTokenizer<R, E> {
InfallibleTokenizer(self)
}
}
impl<R: Reader<Error = Never>, E: Emitter<R>> Iterator for InfallibleTokenizer<R, E> {
type Item = E::Token;
fn next(&mut self) -> Option<Self::Item> {
match self.0.next()? {
Ok(token) => Some(token),
Err(e) => match e {},
}
}
}
impl<R: Reader<Error = Never>, E: Emitter<R>> Deref for InfallibleTokenizer<R, E> {
type Target = Tokenizer<R, E>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl<R: Reader<Error = Never>, E: Emitter<R>> DerefMut for InfallibleTokenizer<R, E> {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
impl<S: crate::spans::Span<R>, R: Reader> Tokenizer<R, DefaultEmitter<R, S>> {
/// Test-internal function to override internal state.
///
/// Only available with the `integration-tests` feature which is not public API.
#[cfg(feature = "integration-tests")]
pub fn set_last_start_tag(&mut self, last_start_tag: &str) {
self.emitter.set_last_start_tag(Some(last_start_tag));
}
}
|