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Diffstat (limited to 'src/tree_builder/mod.rs')
-rw-r--r-- | src/tree_builder/mod.rs | 1681 |
1 files changed, 1681 insertions, 0 deletions
diff --git a/src/tree_builder/mod.rs b/src/tree_builder/mod.rs new file mode 100644 index 0000000..a6fa8bf --- /dev/null +++ b/src/tree_builder/mod.rs @@ -0,0 +1,1681 @@ +// Copyright 2014-2017 The html5ever Project Developers. See the +// COPYRIGHT file at the top-level directory of this distribution. +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. + +#![allow(warnings)] + +//! The HTML5 tree builder. + +pub use crate::interface::{create_element, ElementFlags, NextParserState, Tracer, TreeSink}; +pub use crate::interface::{AppendNode, AppendText, Attribute, NodeOrText}; +pub use crate::interface::{LimitedQuirks, NoQuirks, Quirks, QuirksMode}; + +use self::types::*; + +use crate::tendril::StrTendril; +use crate::{ExpandedName, LocalName, Namespace, QualName}; + +use crate::tokenizer; +use crate::tokenizer::states as tok_state; +use crate::tokenizer::{Doctype, EndTag, StartTag, Tag, TokenSink, TokenSinkResult}; + +use crate::util::str::is_ascii_whitespace; + +use std::borrow::Cow::Borrowed; +use std::collections::VecDeque; +use std::default::Default; +use std::iter::{Enumerate, Rev}; +use std::mem::replace; +use std::{fmt, slice}; + +use crate::tokenizer::states::{RawData, RawKind}; +use crate::tree_builder::tag_sets::*; +use crate::tree_builder::types::*; +use crate::util::str::to_escaped_string; +use log::{debug, log_enabled, warn, Level}; +use mac::{_tt_as_expr_hack, format_if, matches}; + +pub use self::PushFlag::*; + +#[macro_use] +mod tag_sets; + +mod data; +mod types; + +include!(concat!(env!("OUT_DIR"), "/rules.rs")); + +/// Tree builder options, with an impl for Default. +#[derive(Copy, Clone)] +pub struct TreeBuilderOpts { + /// Report all parse errors described in the spec, at some + /// performance penalty? Default: false + pub exact_errors: bool, + + /// Is scripting enabled? + pub scripting_enabled: bool, + + /// Is this an `iframe srcdoc` document? + pub iframe_srcdoc: bool, + + /// Should we drop the DOCTYPE (if any) from the tree? + pub drop_doctype: bool, + + /// Obsolete, ignored. + pub ignore_missing_rules: bool, + + /// Initial TreeBuilder quirks mode. Default: NoQuirks + pub quirks_mode: QuirksMode, +} + +impl Default for TreeBuilderOpts { + fn default() -> TreeBuilderOpts { + TreeBuilderOpts { + exact_errors: false, + scripting_enabled: true, + iframe_srcdoc: false, + drop_doctype: false, + ignore_missing_rules: false, + quirks_mode: NoQuirks, + } + } +} + +/// The HTML tree builder. +pub struct TreeBuilder<Handle, Sink> { + /// Options controlling the behavior of the tree builder. + opts: TreeBuilderOpts, + + /// Consumer of tree modifications. + pub sink: Sink, + + /// Insertion mode. + mode: InsertionMode, + + /// Original insertion mode, used by Text and InTableText modes. + orig_mode: Option<InsertionMode>, + + /// Stack of template insertion modes. + template_modes: Vec<InsertionMode>, + + /// Pending table character tokens. + pending_table_text: Vec<(SplitStatus, StrTendril)>, + + /// Quirks mode as set by the parser. + /// FIXME: can scripts etc. change this? + quirks_mode: QuirksMode, + + /// The document node, which is created by the sink. + doc_handle: Handle, + + /// Stack of open elements, most recently added at end. + open_elems: Vec<Handle>, + + /// List of active formatting elements. + active_formatting: Vec<FormatEntry<Handle>>, + + //§ the-element-pointers + /// Head element pointer. + head_elem: Option<Handle>, + + /// Form element pointer. + form_elem: Option<Handle>, + //§ END + /// Frameset-ok flag. + frameset_ok: bool, + + /// Ignore a following U+000A LINE FEED? + ignore_lf: bool, + + /// Is foster parenting enabled? + foster_parenting: bool, + + /// The context element for the fragment parsing algorithm. + context_elem: Option<Handle>, + + /// Track current line + current_line: u64, + // WARNING: If you add new fields that contain Handles, you + // must add them to trace_handles() below to preserve memory + // safety! + // + // FIXME: Auto-generate the trace hooks like Servo does. +} + +impl<Handle, Sink> TreeBuilder<Handle, Sink> +where + Handle: Clone, + Sink: TreeSink<Handle = Handle>, +{ + /// Create a new tree builder which sends tree modifications to a particular `TreeSink`. + /// + /// The tree builder is also a `TokenSink`. + pub fn new(mut sink: Sink, opts: TreeBuilderOpts) -> TreeBuilder<Handle, Sink> { + let doc_handle = sink.get_document(); + TreeBuilder { + opts: opts, + sink: sink, + mode: Initial, + orig_mode: None, + template_modes: vec![], + pending_table_text: vec![], + quirks_mode: opts.quirks_mode, + doc_handle: doc_handle, + open_elems: vec![], + active_formatting: vec![], + head_elem: None, + form_elem: None, + frameset_ok: true, + ignore_lf: false, + foster_parenting: false, + context_elem: None, + current_line: 1, + } + } + + /// Create a new tree builder which sends tree modifications to a particular `TreeSink`. + /// This is for parsing fragments. + /// + /// The tree builder is also a `TokenSink`. + pub fn new_for_fragment( + mut sink: Sink, + context_elem: Handle, + form_elem: Option<Handle>, + opts: TreeBuilderOpts, + ) -> TreeBuilder<Handle, Sink> { + let doc_handle = sink.get_document(); + let context_is_template = sink.elem_name(&context_elem) == expanded_name!(html "template"); + let mut tb = TreeBuilder { + opts: opts, + sink: sink, + mode: Initial, + orig_mode: None, + template_modes: if context_is_template { + vec![InTemplate] + } else { + vec![] + }, + pending_table_text: vec![], + quirks_mode: opts.quirks_mode, + doc_handle: doc_handle, + open_elems: vec![], + active_formatting: vec![], + head_elem: None, + form_elem: form_elem, + frameset_ok: true, + ignore_lf: false, + foster_parenting: false, + context_elem: Some(context_elem), + current_line: 1, + }; + + // https://html.spec.whatwg.org/multipage/#parsing-html-fragments + // 5. Let root be a new html element with no attributes. + // 6. Append the element root to the Document node created above. + // 7. Set up the parser's stack of open elements so that it contains just the single element root. + tb.create_root(vec![]); + // 10. Reset the parser's insertion mode appropriately. + tb.mode = tb.reset_insertion_mode(); + + tb + } + + // https://html.spec.whatwg.org/multipage/#concept-frag-parse-context + // Step 4. Set the state of the HTML parser's tokenization stage as follows: + pub fn tokenizer_state_for_context_elem(&self) -> tok_state::State { + let elem = self.context_elem.as_ref().expect("no context element"); + let name = match self.sink.elem_name(elem) { + ExpandedName { + ns: &ns!(html), + local, + } => local, + _ => return tok_state::Data, + }; + match *name { + local_name!("title") | local_name!("textarea") => tok_state::RawData(tok_state::Rcdata), + + local_name!("style") | + local_name!("xmp") | + local_name!("iframe") | + local_name!("noembed") | + local_name!("noframes") => tok_state::RawData(tok_state::Rawtext), + + local_name!("script") => tok_state::RawData(tok_state::ScriptData), + + local_name!("noscript") => { + if self.opts.scripting_enabled { + tok_state::RawData(tok_state::Rawtext) + } else { + tok_state::Data + } + }, + + local_name!("plaintext") => tok_state::Plaintext, + + _ => tok_state::Data, + } + } + + /// Call the `Tracer`'s `trace_handle` method on every `Handle` in the tree builder's + /// internal state. This is intended to support garbage-collected DOMs. + pub fn trace_handles(&self, tracer: &Tracer<Handle = Handle>) { + tracer.trace_handle(&self.doc_handle); + for e in &self.open_elems { + tracer.trace_handle(e); + } + for e in &self.active_formatting { + match e { + &Element(ref h, _) => tracer.trace_handle(h), + _ => (), + } + } + self.head_elem.as_ref().map(|h| tracer.trace_handle(h)); + self.form_elem.as_ref().map(|h| tracer.trace_handle(h)); + self.context_elem.as_ref().map(|h| tracer.trace_handle(h)); + } + + #[allow(dead_code)] + fn dump_state(&self, label: String) { + println!("dump_state on {}", label); + print!(" open_elems:"); + for node in self.open_elems.iter() { + let name = self.sink.elem_name(node); + match *name.ns { + ns!(html) => print!(" {}", name.local), + _ => panic!(), + } + } + println!(""); + print!(" active_formatting:"); + for entry in self.active_formatting.iter() { + match entry { + &Marker => print!(" Marker"), + &Element(ref h, _) => { + let name = self.sink.elem_name(h); + match *name.ns { + ns!(html) => print!(" {}", name.local), + _ => panic!(), + } + }, + } + } + println!(""); + } + + fn debug_step(&self, mode: InsertionMode, token: &Token) { + if log_enabled!(Level::Debug) { + debug!( + "processing {} in insertion mode {:?}", + to_escaped_string(token), + mode + ); + } + } + + fn process_to_completion(&mut self, mut token: Token) -> TokenSinkResult<Handle> { + // Queue of additional tokens yet to be processed. + // This stays empty in the common case where we don't split whitespace. + let mut more_tokens = VecDeque::new(); + + loop { + let should_have_acknowledged_self_closing_flag = matches!( + token, + TagToken(Tag { + self_closing: true, + kind: StartTag, + .. + }) + ); + let result = if self.is_foreign(&token) { + self.step_foreign(token) + } else { + let mode = self.mode; + self.step(mode, token) + }; + match result { + Done => { + if should_have_acknowledged_self_closing_flag { + self.sink + .parse_error(Borrowed("Unacknowledged self-closing tag")); + } + token = unwrap_or_return!( + more_tokens.pop_front(), + tokenizer::TokenSinkResult::Continue + ); + }, + DoneAckSelfClosing => { + token = unwrap_or_return!( + more_tokens.pop_front(), + tokenizer::TokenSinkResult::Continue + ); + }, + Reprocess(m, t) => { + self.mode = m; + token = t; + }, + ReprocessForeign(t) => { + token = t; + }, + SplitWhitespace(mut buf) => { + let p = buf.pop_front_char_run(is_ascii_whitespace); + let (first, is_ws) = unwrap_or_return!(p, tokenizer::TokenSinkResult::Continue); + let status = if is_ws { Whitespace } else { NotWhitespace }; + token = CharacterTokens(status, first); + + if buf.len32() > 0 { + more_tokens.push_back(CharacterTokens(NotSplit, buf)); + } + }, + Script(node) => { + assert!(more_tokens.is_empty()); + return tokenizer::TokenSinkResult::Script(node); + }, + ToPlaintext => { + assert!(more_tokens.is_empty()); + return tokenizer::TokenSinkResult::Plaintext; + }, + ToRawData(k) => { + assert!(more_tokens.is_empty()); + return tokenizer::TokenSinkResult::RawData(k); + }, + } + } + } + + /// Are we parsing a HTML fragment? + pub fn is_fragment(&self) -> bool { + self.context_elem.is_some() + } + + /// https://html.spec.whatwg.org/multipage/#appropriate-place-for-inserting-a-node + fn appropriate_place_for_insertion( + &mut self, + override_target: Option<Handle>, + ) -> InsertionPoint<Handle> { + use self::tag_sets::*; + + declare_tag_set!(foster_target = "table" "tbody" "tfoot" "thead" "tr"); + let target = override_target.unwrap_or_else(|| self.current_node().clone()); + if !(self.foster_parenting && self.elem_in(&target, foster_target)) { + if self.html_elem_named(&target, local_name!("template")) { + // No foster parenting (inside template). + let contents = self.sink.get_template_contents(&target); + return LastChild(contents); + } else { + // No foster parenting (the common case). + return LastChild(target); + } + } + + // Foster parenting + let mut iter = self.open_elems.iter().rev().peekable(); + while let Some(elem) = iter.next() { + if self.html_elem_named(&elem, local_name!("template")) { + let contents = self.sink.get_template_contents(&elem); + return LastChild(contents); + } else if self.html_elem_named(&elem, local_name!("table")) { + return TableFosterParenting { + element: elem.clone(), + prev_element: (*iter.peek().unwrap()).clone(), + }; + } + } + let html_elem = self.html_elem(); + LastChild(html_elem.clone()) + } + + fn insert_at(&mut self, insertion_point: InsertionPoint<Handle>, child: NodeOrText<Handle>) { + match insertion_point { + LastChild(parent) => self.sink.append(&parent, child), + BeforeSibling(sibling) => self.sink.append_before_sibling(&sibling, child), + TableFosterParenting { + element, + prev_element, + } => self + .sink + .append_based_on_parent_node(&element, &prev_element, child), + } + } +} + +impl<Handle, Sink> TokenSink for TreeBuilder<Handle, Sink> +where + Handle: Clone, + Sink: TreeSink<Handle = Handle>, +{ + type Handle = Handle; + + fn process_token( + &mut self, + token: tokenizer::Token, + line_number: u64, + ) -> TokenSinkResult<Handle> { + if line_number != self.current_line { + self.sink.set_current_line(line_number); + } + let ignore_lf = replace(&mut self.ignore_lf, false); + + // Handle `ParseError` and `DoctypeToken`; convert everything else to the local `Token` type. + let token = match token { + tokenizer::ParseError(e) => { + self.sink.parse_error(e); + return tokenizer::TokenSinkResult::Continue; + }, + + tokenizer::DoctypeToken(dt) => { + if self.mode == Initial { + let (err, quirk) = data::doctype_error_and_quirks(&dt, self.opts.iframe_srcdoc); + if err { + self.sink.parse_error(format_if!( + self.opts.exact_errors, + "Bad DOCTYPE", + "Bad DOCTYPE: {:?}", + dt + )); + } + let Doctype { + name, + public_id, + system_id, + force_quirks: _, + } = dt; + if !self.opts.drop_doctype { + self.sink.append_doctype_to_document( + name.unwrap_or(StrTendril::new()), + public_id.unwrap_or(StrTendril::new()), + system_id.unwrap_or(StrTendril::new()), + ); + } + self.set_quirks_mode(quirk); + + self.mode = BeforeHtml; + return tokenizer::TokenSinkResult::Continue; + } else { + self.sink.parse_error(format_if!( + self.opts.exact_errors, + "DOCTYPE in body", + "DOCTYPE in insertion mode {:?}", + self.mode + )); + return tokenizer::TokenSinkResult::Continue; + } + }, + + tokenizer::TagToken(x) => TagToken(x), + tokenizer::CommentToken(x) => CommentToken(x), + tokenizer::NullCharacterToken => NullCharacterToken, + tokenizer::EOFToken => EOFToken, + + tokenizer::CharacterTokens(mut x) => { + if ignore_lf && x.starts_with("\n") { + x.pop_front(1); + } + if x.is_empty() { + return tokenizer::TokenSinkResult::Continue; + } + CharacterTokens(NotSplit, x) + }, + }; + + self.process_to_completion(token) + } + + fn end(&mut self) { + for elem in self.open_elems.drain(..).rev() { + self.sink.pop(&elem); + } + } + + fn adjusted_current_node_present_but_not_in_html_namespace(&self) -> bool { + !self.open_elems.is_empty() && + self.sink.elem_name(self.adjusted_current_node()).ns != &ns!(html) + } +} + +pub fn html_elem<Handle>(open_elems: &[Handle]) -> &Handle { + &open_elems[0] +} + +pub struct ActiveFormattingIter<'a, Handle: 'a> { + iter: Rev<Enumerate<slice::Iter<'a, FormatEntry<Handle>>>>, +} + +impl<'a, Handle> Iterator for ActiveFormattingIter<'a, Handle> { + type Item = (usize, &'a Handle, &'a Tag); + fn next(&mut self) -> Option<(usize, &'a Handle, &'a Tag)> { + match self.iter.next() { + None | Some((_, &Marker)) => None, + Some((i, &Element(ref h, ref t))) => Some((i, h, t)), + } + } +} + +pub enum PushFlag { + Push, + NoPush, +} + +enum Bookmark<Handle> { + Replace(Handle), + InsertAfter(Handle), +} + +macro_rules! qualname { + ("", $local:tt) => { + QualName { + prefix: None, + ns: ns!(), + local: local_name!($local), + } + }; + ($prefix: tt $ns:tt $local:tt) => { + QualName { + prefix: Some(namespace_prefix!($prefix)), + ns: ns!($ns), + local: local_name!($local), + } + }; +} + +#[doc(hidden)] +impl<Handle, Sink> TreeBuilder<Handle, Sink> +where + Handle: Clone, + Sink: TreeSink<Handle = Handle>, +{ + fn unexpected<T: fmt::Debug>(&mut self, _thing: &T) -> ProcessResult<Handle> { + self.sink.parse_error(format_if!( + self.opts.exact_errors, + "Unexpected token", + "Unexpected token {} in insertion mode {:?}", + to_escaped_string(_thing), + self.mode + )); + Done + } + + fn assert_named(&mut self, node: &Handle, name: LocalName) { + assert!(self.html_elem_named(&node, name)); + } + + /// Iterate over the active formatting elements (with index in the list) from the end + /// to the last marker, or the beginning if there are no markers. + fn active_formatting_end_to_marker<'a>(&'a self) -> ActiveFormattingIter<'a, Handle> { + ActiveFormattingIter { + iter: self.active_formatting.iter().enumerate().rev(), + } + } + + fn position_in_active_formatting(&self, element: &Handle) -> Option<usize> { + self.active_formatting.iter().position(|n| match n { + &Marker => false, + &Element(ref handle, _) => self.sink.same_node(handle, element), + }) + } + + fn set_quirks_mode(&mut self, mode: QuirksMode) { + self.quirks_mode = mode; + self.sink.set_quirks_mode(mode); + } + + fn stop_parsing(&mut self) -> ProcessResult<Handle> { + Done + } + + //§ parsing-elements-that-contain-only-text + // Switch to `Text` insertion mode, save the old mode, and + // switch the tokenizer to a raw-data state. + // The latter only takes effect after the current / next + // `process_token` of a start tag returns! + fn to_raw_text_mode(&mut self, k: RawKind) -> ProcessResult<Handle> { + self.orig_mode = Some(self.mode); + self.mode = Text; + ToRawData(k) + } + + // The generic raw text / RCDATA parsing algorithm. + fn parse_raw_data(&mut self, tag: Tag, k: RawKind) -> ProcessResult<Handle> { + self.insert_element_for(tag); + self.to_raw_text_mode(k) + } + //§ END + + fn current_node(&self) -> &Handle { + self.open_elems.last().expect("no current element") + } + + fn adjusted_current_node(&self) -> &Handle { + if self.open_elems.len() == 1 { + if let Some(ctx) = self.context_elem.as_ref() { + return ctx; + } + } + self.current_node() + } + + fn current_node_in<TagSet>(&self, set: TagSet) -> bool + where + TagSet: Fn(ExpandedName) -> bool, + { + set(self.sink.elem_name(self.current_node())) + } + + // Insert at the "appropriate place for inserting a node". + fn insert_appropriately(&mut self, child: NodeOrText<Handle>, override_target: Option<Handle>) { + let insertion_point = self.appropriate_place_for_insertion(override_target); + self.insert_at(insertion_point, child); + } + + fn adoption_agency(&mut self, subject: LocalName) { + // 1. + if self.current_node_named(subject.clone()) { + if self + .position_in_active_formatting(self.current_node()) + .is_none() + { + self.pop(); + return; + } + } + + // 2. 3. 4. + for _ in 0..8 { + // 5. + let (fmt_elem_index, fmt_elem, fmt_elem_tag) = unwrap_or_return!( + // We clone the Handle and Tag so they don't cause an immutable borrow of self. + self.active_formatting_end_to_marker() + .filter(|&(_, _, tag)| tag.name == subject) + .next() + .map(|(i, h, t)| (i, h.clone(), t.clone())), + { + self.process_end_tag_in_body(Tag { + kind: EndTag, + name: subject, + self_closing: false, + attrs: vec![], + }); + } + ); + + let fmt_elem_stack_index = unwrap_or_return!( + self.open_elems + .iter() + .rposition(|n| self.sink.same_node(n, &fmt_elem)), + { + self.sink + .parse_error(Borrowed("Formatting element not open")); + self.active_formatting.remove(fmt_elem_index); + } + ); + + // 7. + if !self.in_scope(default_scope, |n| self.sink.same_node(&n, &fmt_elem)) { + self.sink + .parse_error(Borrowed("Formatting element not in scope")); + return; + } + + // 8. + if !self.sink.same_node(self.current_node(), &fmt_elem) { + self.sink + .parse_error(Borrowed("Formatting element not current node")); + } + + // 9. + let (furthest_block_index, furthest_block) = unwrap_or_return!( + self.open_elems + .iter() + .enumerate() + .skip(fmt_elem_stack_index) + .filter(|&(_, open_element)| self.elem_in(open_element, special_tag)) + .next() + .map(|(i, h)| (i, h.clone())), + // 10. + { + self.open_elems.truncate(fmt_elem_stack_index); + self.active_formatting.remove(fmt_elem_index); + } + ); + + // 11. + let common_ancestor = self.open_elems[fmt_elem_stack_index - 1].clone(); + + // 12. + let mut bookmark = Bookmark::Replace(fmt_elem.clone()); + + // 13. + let mut node; + let mut node_index = furthest_block_index; + let mut last_node = furthest_block.clone(); + + // 13.1. + let mut inner_counter = 0; + loop { + // 13.2. + inner_counter += 1; + + // 13.3. + node_index -= 1; + node = self.open_elems[node_index].clone(); + + // 13.4. + if self.sink.same_node(&node, &fmt_elem) { + break; + } + + // 13.5. + if inner_counter > 3 { + self.position_in_active_formatting(&node) + .map(|position| self.active_formatting.remove(position)); + self.open_elems.remove(node_index); + continue; + } + + let node_formatting_index = unwrap_or_else!( + self.position_in_active_formatting(&node), + // 13.6. + { + self.open_elems.remove(node_index); + continue; + } + ); + + // 13.7. + let tag = match self.active_formatting[node_formatting_index] { + Element(ref h, ref t) => { + assert!(self.sink.same_node(h, &node)); + t.clone() + }, + Marker => panic!("Found marker during adoption agency"), + }; + // FIXME: Is there a way to avoid cloning the attributes twice here (once on their + // own, once as part of t.clone() above)? + let new_element = create_element( + &mut self.sink, + QualName::new(None, ns!(html), tag.name.clone()), + tag.attrs.clone(), + ); + self.open_elems[node_index] = new_element.clone(); + self.active_formatting[node_formatting_index] = Element(new_element.clone(), tag); + node = new_element; + + // 13.8. + if self.sink.same_node(&last_node, &furthest_block) { + bookmark = Bookmark::InsertAfter(node.clone()); + } + + // 13.9. + self.sink.remove_from_parent(&last_node); + self.sink.append(&node, AppendNode(last_node.clone())); + + // 13.10. + last_node = node.clone(); + + // 13.11. + } + + // 14. + self.sink.remove_from_parent(&last_node); + self.insert_appropriately(AppendNode(last_node.clone()), Some(common_ancestor)); + + // 15. + // FIXME: Is there a way to avoid cloning the attributes twice here (once on their own, + // once as part of t.clone() above)? + let new_element = create_element( + &mut self.sink, + QualName::new(None, ns!(html), fmt_elem_tag.name.clone()), + fmt_elem_tag.attrs.clone(), + ); + let new_entry = Element(new_element.clone(), fmt_elem_tag); + + // 16. + self.sink.reparent_children(&furthest_block, &new_element); + + // 17. + self.sink + .append(&furthest_block, AppendNode(new_element.clone())); + + // 18. + // FIXME: We could probably get rid of the position_in_active_formatting() calls here + // if we had a more clever Bookmark representation. + match bookmark { + Bookmark::Replace(to_replace) => { + let index = self + .position_in_active_formatting(&to_replace) + .expect("bookmark not found in active formatting elements"); + self.active_formatting[index] = new_entry; + }, + Bookmark::InsertAfter(previous) => { + let index = self + .position_in_active_formatting(&previous) + .expect("bookmark not found in active formatting elements") + + 1; + self.active_formatting.insert(index, new_entry); + let old_index = self + .position_in_active_formatting(&fmt_elem) + .expect("formatting element not found in active formatting elements"); + self.active_formatting.remove(old_index); + }, + } + + // 19. + self.remove_from_stack(&fmt_elem); + let new_furthest_block_index = self + .open_elems + .iter() + .position(|n| self.sink.same_node(n, &furthest_block)) + .expect("furthest block missing from open element stack"); + self.open_elems + .insert(new_furthest_block_index + 1, new_element); + + // 20. + } + } + + fn push(&mut self, elem: &Handle) { + self.open_elems.push(elem.clone()); + } + + fn pop(&mut self) -> Handle { + let elem = self.open_elems.pop().expect("no current element"); + self.sink.pop(&elem); + elem + } + + fn remove_from_stack(&mut self, elem: &Handle) { + let sink = &mut self.sink; + let position = self + .open_elems + .iter() + .rposition(|x| sink.same_node(elem, &x)); + if let Some(position) = position { + self.open_elems.remove(position); + sink.pop(elem); + } + } + + fn is_marker_or_open(&self, entry: &FormatEntry<Handle>) -> bool { + match *entry { + Marker => true, + Element(ref node, _) => self + .open_elems + .iter() + .rev() + .any(|n| self.sink.same_node(&n, &node)), + } + } + + /// Reconstruct the active formatting elements. + fn reconstruct_formatting(&mut self) { + { + let last = unwrap_or_return!(self.active_formatting.last(), ()); + if self.is_marker_or_open(last) { + return; + } + } + + let mut entry_index = self.active_formatting.len() - 1; + loop { + if entry_index == 0 { + break; + } + entry_index -= 1; + if self.is_marker_or_open(&self.active_formatting[entry_index]) { + entry_index += 1; + break; + } + } + + loop { + let tag = match self.active_formatting[entry_index] { + Element(_, ref t) => t.clone(), + Marker => panic!("Found marker during formatting element reconstruction"), + }; + + // FIXME: Is there a way to avoid cloning the attributes twice here (once on their own, + // once as part of t.clone() above)? + let new_element = + self.insert_element(Push, ns!(html), tag.name.clone(), tag.attrs.clone()); + self.active_formatting[entry_index] = Element(new_element, tag); + if entry_index == self.active_formatting.len() - 1 { + break; + } + entry_index += 1; + } + } + + /// Get the first element on the stack, which will be the <html> element. + fn html_elem(&self) -> &Handle { + &self.open_elems[0] + } + + /// Get the second element on the stack, if it's a HTML body element. + fn body_elem(&self) -> Option<&Handle> { + if self.open_elems.len() <= 1 { + return None; + } + + let node = &self.open_elems[1]; + if self.html_elem_named(node, local_name!("body")) { + Some(node) + } else { + None + } + } + + /// Signal an error depending on the state of the stack of open elements at + /// the end of the body. + fn check_body_end(&mut self) { + declare_tag_set!(body_end_ok = + "dd" "dt" "li" "optgroup" "option" "p" "rp" "rt" "tbody" "td" "tfoot" "th" + "thead" "tr" "body" "html"); + + for elem in self.open_elems.iter() { + let error; + { + let name = self.sink.elem_name(elem); + if body_end_ok(name) { + continue; + } + error = format_if!( + self.opts.exact_errors, + "Unexpected open tag at end of body", + "Unexpected open tag {:?} at end of body", + name + ); + } + self.sink.parse_error(error); + // FIXME: Do we keep checking after finding one bad tag? + // The spec suggests not. + return; + } + } + + fn in_scope<TagSet, Pred>(&self, scope: TagSet, pred: Pred) -> bool + where + TagSet: Fn(ExpandedName) -> bool, + Pred: Fn(Handle) -> bool, + { + for node in self.open_elems.iter().rev() { + if pred(node.clone()) { + return true; + } + if scope(self.sink.elem_name(node)) { + return false; + } + } + + // supposed to be impossible, because <html> is always in scope + + false + } + + fn elem_in<TagSet>(&self, elem: &Handle, set: TagSet) -> bool + where + TagSet: Fn(ExpandedName) -> bool, + { + set(self.sink.elem_name(elem)) + } + + fn html_elem_named(&self, elem: &Handle, name: LocalName) -> bool { + let expanded = self.sink.elem_name(elem); + *expanded.ns == ns!(html) && *expanded.local == name + } + + fn in_html_elem_named(&self, name: LocalName) -> bool { + self.open_elems + .iter() + .any(|elem| self.html_elem_named(elem, name.clone())) + } + + fn current_node_named(&self, name: LocalName) -> bool { + self.html_elem_named(self.current_node(), name) + } + + fn in_scope_named<TagSet>(&self, scope: TagSet, name: LocalName) -> bool + where + TagSet: Fn(ExpandedName) -> bool, + { + self.in_scope(scope, |elem| self.html_elem_named(&elem, name.clone())) + } + + //§ closing-elements-that-have-implied-end-tags + fn generate_implied_end<TagSet>(&mut self, set: TagSet) + where + TagSet: Fn(ExpandedName) -> bool, + { + loop { + { + let elem = unwrap_or_return!(self.open_elems.last(), ()); + let nsname = self.sink.elem_name(elem); + if !set(nsname) { + return; + } + } + self.pop(); + } + } + + fn generate_implied_end_except(&mut self, except: LocalName) { + self.generate_implied_end(|p| { + if *p.ns == ns!(html) && *p.local == except { + false + } else { + cursory_implied_end(p) + } + }); + } + //§ END + + // Pop elements until the current element is in the set. + fn pop_until_current<TagSet>(&mut self, pred: TagSet) + where + TagSet: Fn(ExpandedName) -> bool, + { + loop { + if self.current_node_in(|x| pred(x)) { + break; + } + self.open_elems.pop(); + } + } + + // Pop elements until an element from the set has been popped. Returns the + // number of elements popped. + fn pop_until<P>(&mut self, pred: P) -> usize + where + P: Fn(ExpandedName) -> bool, + { + let mut n = 0; + loop { + n += 1; + match self.open_elems.pop() { + None => break, + Some(elem) => { + if pred(self.sink.elem_name(&elem)) { + break; + } + }, + } + } + n + } + + fn pop_until_named(&mut self, name: LocalName) -> usize { + self.pop_until(|p| *p.ns == ns!(html) && *p.local == name) + } + + // Pop elements until one with the specified name has been popped. + // Signal an error if it was not the first one. + fn expect_to_close(&mut self, name: LocalName) { + if self.pop_until_named(name.clone()) != 1 { + self.sink.parse_error(format_if!( + self.opts.exact_errors, + "Unexpected open element", + "Unexpected open element while closing {:?}", + name + )); + } + } + + fn close_p_element(&mut self) { + declare_tag_set!(implied = [cursory_implied_end] - "p"); + self.generate_implied_end(implied); + self.expect_to_close(local_name!("p")); + } + + fn close_p_element_in_button_scope(&mut self) { + if self.in_scope_named(button_scope, local_name!("p")) { + self.close_p_element(); + } + } + + // Check <input> tags for type=hidden + fn is_type_hidden(&self, tag: &Tag) -> bool { + match tag + .attrs + .iter() + .find(|&at| at.name.expanded() == expanded_name!("", "type")) + { + None => false, + Some(at) => (&*at.value).eq_ignore_ascii_case("hidden"), + } + } + + fn foster_parent_in_body(&mut self, token: Token) -> ProcessResult<Handle> { + warn!("foster parenting not implemented"); + self.foster_parenting = true; + let res = self.step(InBody, token); + // FIXME: what if res is Reprocess? + self.foster_parenting = false; + res + } + + fn process_chars_in_table(&mut self, token: Token) -> ProcessResult<Handle> { + declare_tag_set!(table_outer = "table" "tbody" "tfoot" "thead" "tr"); + if self.current_node_in(table_outer) { + assert!(self.pending_table_text.is_empty()); + self.orig_mode = Some(self.mode); + Reprocess(InTableText, token) + } else { + self.sink.parse_error(format_if!( + self.opts.exact_errors, + "Unexpected characters in table", + "Unexpected characters {} in table", + to_escaped_string(&token) + )); + self.foster_parent_in_body(token) + } + } + + // https://html.spec.whatwg.org/multipage/#reset-the-insertion-mode-appropriately + fn reset_insertion_mode(&mut self) -> InsertionMode { + for (i, mut node) in self.open_elems.iter().enumerate().rev() { + let last = i == 0usize; + if let (true, Some(ctx)) = (last, self.context_elem.as_ref()) { + node = ctx; + } + let name = match self.sink.elem_name(node) { + ExpandedName { + ns: &ns!(html), + local, + } => local, + _ => continue, + }; + match *name { + local_name!("select") => { + for ancestor in self.open_elems[0..i].iter().rev() { + if self.html_elem_named(ancestor, local_name!("template")) { + return InSelect; + } else if self.html_elem_named(ancestor, local_name!("table")) { + return InSelectInTable; + } + } + return InSelect; + }, + local_name!("td") | local_name!("th") => { + if !last { + return InCell; + } + }, + local_name!("tr") => return InRow, + local_name!("tbody") | local_name!("thead") | local_name!("tfoot") => { + return InTableBody; + }, + local_name!("caption") => return InCaption, + local_name!("colgroup") => return InColumnGroup, + local_name!("table") => return InTable, + local_name!("template") => return *self.template_modes.last().unwrap(), + local_name!("head") => { + if !last { + return InHead; + } + }, + local_name!("body") => return InBody, + local_name!("frameset") => return InFrameset, + local_name!("html") => match self.head_elem { + None => return BeforeHead, + Some(_) => return AfterHead, + }, + + _ => (), + } + } + InBody + } + + fn close_the_cell(&mut self) { + self.generate_implied_end(cursory_implied_end); + if self.pop_until(td_th) != 1 { + self.sink + .parse_error(Borrowed("expected to close <td> or <th> with cell")); + } + self.clear_active_formatting_to_marker(); + } + + fn append_text(&mut self, text: StrTendril) -> ProcessResult<Handle> { + self.insert_appropriately(AppendText(text), None); + Done + } + + fn append_comment(&mut self, text: StrTendril) -> ProcessResult<Handle> { + let comment = self.sink.create_comment(text); + self.insert_appropriately(AppendNode(comment), None); + Done + } + + fn append_comment_to_doc(&mut self, text: StrTendril) -> ProcessResult<Handle> { + let comment = self.sink.create_comment(text); + self.sink.append(&self.doc_handle, AppendNode(comment)); + Done + } + + fn append_comment_to_html(&mut self, text: StrTendril) -> ProcessResult<Handle> { + let target = html_elem(&self.open_elems); + let comment = self.sink.create_comment(text); + self.sink.append(target, AppendNode(comment)); + Done + } + + //§ creating-and-inserting-nodes + fn create_root(&mut self, attrs: Vec<Attribute>) { + let elem = create_element( + &mut self.sink, + QualName::new(None, ns!(html), local_name!("html")), + attrs, + ); + self.push(&elem); + self.sink.append(&self.doc_handle, AppendNode(elem)); + // FIXME: application cache selection algorithm + } + + // https://html.spec.whatwg.org/multipage/#create-an-element-for-the-token + fn insert_element( + &mut self, + push: PushFlag, + ns: Namespace, + name: LocalName, + attrs: Vec<Attribute>, + ) -> Handle { + declare_tag_set!(form_associatable = + "button" "fieldset" "input" "object" + "output" "select" "textarea" "img"); + + declare_tag_set!(listed = [form_associatable] - "img"); + + // Step 7. + let qname = QualName::new(None, ns, name); + let elem = create_element(&mut self.sink, qname.clone(), attrs.clone()); + + let insertion_point = self.appropriate_place_for_insertion(None); + let (node1, node2) = match insertion_point { + LastChild(ref p) | BeforeSibling(ref p) => (p.clone(), None), + TableFosterParenting { + ref element, + ref prev_element, + } => (element.clone(), Some(prev_element.clone())), + }; + + // Step 12. + if form_associatable(qname.expanded()) && + self.form_elem.is_some() && + !self.in_html_elem_named(local_name!("template")) && + !(listed(qname.expanded()) && + attrs + .iter() + .any(|a| a.name.expanded() == expanded_name!("", "form"))) + { + let form = self.form_elem.as_ref().unwrap().clone(); + let node2 = match node2 { + Some(ref n) => Some(n), + None => None, + }; + self.sink.associate_with_form(&elem, &form, (&node1, node2)); + } + + self.insert_at(insertion_point, AppendNode(elem.clone())); + + match push { + Push => self.push(&elem), + NoPush => (), + } + // FIXME: Remove from the stack if we can't append? + elem + } + + fn insert_element_for(&mut self, tag: Tag) -> Handle { + self.insert_element(Push, ns!(html), tag.name, tag.attrs) + } + + fn insert_and_pop_element_for(&mut self, tag: Tag) -> Handle { + self.insert_element(NoPush, ns!(html), tag.name, tag.attrs) + } + + fn insert_phantom(&mut self, name: LocalName) -> Handle { + self.insert_element(Push, ns!(html), name, vec![]) + } + //§ END + + fn create_formatting_element_for(&mut self, tag: Tag) -> Handle { + // FIXME: This really wants unit tests. + let mut first_match = None; + let mut matches = 0usize; + for (i, _, old_tag) in self.active_formatting_end_to_marker() { + if tag.equiv_modulo_attr_order(old_tag) { + first_match = Some(i); + matches += 1; + } + } + + if matches >= 3 { + self.active_formatting + .remove(first_match.expect("matches with no index")); + } + + let elem = self.insert_element(Push, ns!(html), tag.name.clone(), tag.attrs.clone()); + self.active_formatting.push(Element(elem.clone(), tag)); + elem + } + + fn clear_active_formatting_to_marker(&mut self) { + loop { + match self.active_formatting.pop() { + None | Some(Marker) => break, + _ => (), + } + } + } + + fn process_end_tag_in_body(&mut self, tag: Tag) { + // Look back for a matching open element. + let mut match_idx = None; + for (i, elem) in self.open_elems.iter().enumerate().rev() { + if self.html_elem_named(elem, tag.name.clone()) { + match_idx = Some(i); + break; + } + + if self.elem_in(elem, special_tag) { + self.sink + .parse_error(Borrowed("Found special tag while closing generic tag")); + return; + } + } + + // Can't use unwrap_or_return!() due to rust-lang/rust#16617. + let match_idx = match match_idx { + None => { + // I believe this is impossible, because the root + // <html> element is in special_tag. + self.unexpected(&tag); + return; + }, + Some(x) => x, + }; + + self.generate_implied_end_except(tag.name.clone()); + + if match_idx != self.open_elems.len() - 1 { + // mis-nested tags + self.unexpected(&tag); + } + self.open_elems.truncate(match_idx); + } + + fn handle_misnested_a_tags(&mut self, tag: &Tag) { + let node = unwrap_or_return!( + self.active_formatting_end_to_marker() + .filter(|&(_, n, _)| self.html_elem_named(n, local_name!("a"))) + .next() + .map(|(_, n, _)| n.clone()), + () + ); + + self.unexpected(tag); + self.adoption_agency(local_name!("a")); + self.position_in_active_formatting(&node) + .map(|index| self.active_formatting.remove(index)); + self.remove_from_stack(&node); + } + + //§ tree-construction + fn is_foreign(&mut self, token: &Token) -> bool { + if let EOFToken = *token { + return false; + } + + if self.open_elems.is_empty() { + return false; + } + + let name = self.sink.elem_name(self.adjusted_current_node()); + if let ns!(html) = *name.ns { + return false; + } + + if mathml_text_integration_point(name) { + match *token { + CharacterTokens(..) | NullCharacterToken => return false, + TagToken(Tag { + kind: StartTag, + ref name, + .. + }) if !matches!(*name, local_name!("mglyph") | local_name!("malignmark")) => { + return false; + }, + _ => (), + } + } + + if svg_html_integration_point(name) { + match *token { + CharacterTokens(..) | NullCharacterToken => return false, + TagToken(Tag { kind: StartTag, .. }) => return false, + _ => (), + } + } + + if let expanded_name!(mathml "annotation-xml") = name { + match *token { + TagToken(Tag { + kind: StartTag, + name: local_name!("svg"), + .. + }) => return false, + CharacterTokens(..) | NullCharacterToken | TagToken(Tag { kind: StartTag, .. }) => { + return !self + .sink + .is_mathml_annotation_xml_integration_point(self.adjusted_current_node()); + }, + _ => {}, + }; + } + + true + } + //§ END + + fn enter_foreign(&mut self, mut tag: Tag, ns: Namespace) -> ProcessResult<Handle> { + match ns { + ns!(mathml) => self.adjust_mathml_attributes(&mut tag), + ns!(svg) => self.adjust_svg_attributes(&mut tag), + _ => (), + } + self.adjust_foreign_attributes(&mut tag); + + if tag.self_closing { + self.insert_element(NoPush, ns, tag.name, tag.attrs); + DoneAckSelfClosing + } else { + self.insert_element(Push, ns, tag.name, tag.attrs); + Done + } + } + + fn adjust_svg_tag_name(&mut self, tag: &mut Tag) { + let Tag { ref mut name, .. } = *tag; + match *name { + local_name!("altglyph") => *name = local_name!("altGlyph"), + local_name!("altglyphdef") => *name = local_name!("altGlyphDef"), + local_name!("altglyphitem") => *name = local_name!("altGlyphItem"), + local_name!("animatecolor") => *name = local_name!("animateColor"), + local_name!("animatemotion") => *name = local_name!("animateMotion"), + local_name!("animatetransform") => *name = local_name!("animateTransform"), + local_name!("clippath") => *name = local_name!("clipPath"), + local_name!("feblend") => *name = local_name!("feBlend"), + local_name!("fecolormatrix") => *name = local_name!("feColorMatrix"), + local_name!("fecomponenttransfer") => *name = local_name!("feComponentTransfer"), + local_name!("fecomposite") => *name = local_name!("feComposite"), + local_name!("feconvolvematrix") => *name = local_name!("feConvolveMatrix"), + local_name!("fediffuselighting") => *name = local_name!("feDiffuseLighting"), + local_name!("fedisplacementmap") => *name = local_name!("feDisplacementMap"), + local_name!("fedistantlight") => *name = local_name!("feDistantLight"), + local_name!("fedropshadow") => *name = local_name!("feDropShadow"), + local_name!("feflood") => *name = local_name!("feFlood"), + local_name!("fefunca") => *name = local_name!("feFuncA"), + local_name!("fefuncb") => *name = local_name!("feFuncB"), + local_name!("fefuncg") => *name = local_name!("feFuncG"), + local_name!("fefuncr") => *name = local_name!("feFuncR"), + local_name!("fegaussianblur") => *name = local_name!("feGaussianBlur"), + local_name!("feimage") => *name = local_name!("feImage"), + local_name!("femerge") => *name = local_name!("feMerge"), + local_name!("femergenode") => *name = local_name!("feMergeNode"), + local_name!("femorphology") => *name = local_name!("feMorphology"), + local_name!("feoffset") => *name = local_name!("feOffset"), + local_name!("fepointlight") => *name = local_name!("fePointLight"), + local_name!("fespecularlighting") => *name = local_name!("feSpecularLighting"), + local_name!("fespotlight") => *name = local_name!("feSpotLight"), + local_name!("fetile") => *name = local_name!("feTile"), + local_name!("feturbulence") => *name = local_name!("feTurbulence"), + local_name!("foreignobject") => *name = local_name!("foreignObject"), + local_name!("glyphref") => *name = local_name!("glyphRef"), + local_name!("lineargradient") => *name = local_name!("linearGradient"), + local_name!("radialgradient") => *name = local_name!("radialGradient"), + local_name!("textpath") => *name = local_name!("textPath"), + _ => (), + } + } + + fn adjust_attributes<F>(&mut self, tag: &mut Tag, mut map: F) + where + F: FnMut(LocalName) -> Option<QualName>, + { + for &mut Attribute { ref mut name, .. } in &mut tag.attrs { + if let Some(replacement) = map(name.local.clone()) { + *name = replacement; + } + } + } + + fn adjust_svg_attributes(&mut self, tag: &mut Tag) { + self.adjust_attributes(tag, |k| match k { + local_name!("attributename") => Some(qualname!("", "attributeName")), + local_name!("attributetype") => Some(qualname!("", "attributeType")), + local_name!("basefrequency") => Some(qualname!("", "baseFrequency")), + local_name!("baseprofile") => Some(qualname!("", "baseProfile")), + local_name!("calcmode") => Some(qualname!("", "calcMode")), + local_name!("clippathunits") => Some(qualname!("", "clipPathUnits")), + local_name!("diffuseconstant") => Some(qualname!("", "diffuseConstant")), + local_name!("edgemode") => Some(qualname!("", "edgeMode")), + local_name!("filterunits") => Some(qualname!("", "filterUnits")), + local_name!("glyphref") => Some(qualname!("", "glyphRef")), + local_name!("gradienttransform") => Some(qualname!("", "gradientTransform")), + local_name!("gradientunits") => Some(qualname!("", "gradientUnits")), + local_name!("kernelmatrix") => Some(qualname!("", "kernelMatrix")), + local_name!("kernelunitlength") => Some(qualname!("", "kernelUnitLength")), + local_name!("keypoints") => Some(qualname!("", "keyPoints")), + local_name!("keysplines") => Some(qualname!("", "keySplines")), + local_name!("keytimes") => Some(qualname!("", "keyTimes")), + local_name!("lengthadjust") => Some(qualname!("", "lengthAdjust")), + local_name!("limitingconeangle") => Some(qualname!("", "limitingConeAngle")), + local_name!("markerheight") => Some(qualname!("", "markerHeight")), + local_name!("markerunits") => Some(qualname!("", "markerUnits")), + local_name!("markerwidth") => Some(qualname!("", "markerWidth")), + local_name!("maskcontentunits") => Some(qualname!("", "maskContentUnits")), + local_name!("maskunits") => Some(qualname!("", "maskUnits")), + local_name!("numoctaves") => Some(qualname!("", "numOctaves")), + local_name!("pathlength") => Some(qualname!("", "pathLength")), + local_name!("patterncontentunits") => Some(qualname!("", "patternContentUnits")), + local_name!("patterntransform") => Some(qualname!("", "patternTransform")), + local_name!("patternunits") => Some(qualname!("", "patternUnits")), + local_name!("pointsatx") => Some(qualname!("", "pointsAtX")), + local_name!("pointsaty") => Some(qualname!("", "pointsAtY")), + local_name!("pointsatz") => Some(qualname!("", "pointsAtZ")), + local_name!("preservealpha") => Some(qualname!("", "preserveAlpha")), + local_name!("preserveaspectratio") => Some(qualname!("", "preserveAspectRatio")), + local_name!("primitiveunits") => Some(qualname!("", "primitiveUnits")), + local_name!("refx") => Some(qualname!("", "refX")), + local_name!("refy") => Some(qualname!("", "refY")), + local_name!("repeatcount") => Some(qualname!("", "repeatCount")), + local_name!("repeatdur") => Some(qualname!("", "repeatDur")), + local_name!("requiredextensions") => Some(qualname!("", "requiredExtensions")), + local_name!("requiredfeatures") => Some(qualname!("", "requiredFeatures")), + local_name!("specularconstant") => Some(qualname!("", "specularConstant")), + local_name!("specularexponent") => Some(qualname!("", "specularExponent")), + local_name!("spreadmethod") => Some(qualname!("", "spreadMethod")), + local_name!("startoffset") => Some(qualname!("", "startOffset")), + local_name!("stddeviation") => Some(qualname!("", "stdDeviation")), + local_name!("stitchtiles") => Some(qualname!("", "stitchTiles")), + local_name!("surfacescale") => Some(qualname!("", "surfaceScale")), + local_name!("systemlanguage") => Some(qualname!("", "systemLanguage")), + local_name!("tablevalues") => Some(qualname!("", "tableValues")), + local_name!("targetx") => Some(qualname!("", "targetX")), + local_name!("targety") => Some(qualname!("", "targetY")), + local_name!("textlength") => Some(qualname!("", "textLength")), + local_name!("viewbox") => Some(qualname!("", "viewBox")), + local_name!("viewtarget") => Some(qualname!("", "viewTarget")), + local_name!("xchannelselector") => Some(qualname!("", "xChannelSelector")), + local_name!("ychannelselector") => Some(qualname!("", "yChannelSelector")), + local_name!("zoomandpan") => Some(qualname!("", "zoomAndPan")), + _ => None, + }); + } + + fn adjust_mathml_attributes(&mut self, tag: &mut Tag) { + self.adjust_attributes(tag, |k| match k { + local_name!("definitionurl") => Some(qualname!("", "definitionURL")), + _ => None, + }); + } + + fn adjust_foreign_attributes(&mut self, tag: &mut Tag) { + self.adjust_attributes(tag, |k| match k { + local_name!("xlink:actuate") => Some(qualname!("xlink" xlink "actuate")), + local_name!("xlink:arcrole") => Some(qualname!("xlink" xlink "arcrole")), + local_name!("xlink:href") => Some(qualname!("xlink" xlink "href")), + local_name!("xlink:role") => Some(qualname!("xlink" xlink "role")), + local_name!("xlink:show") => Some(qualname!("xlink" xlink "show")), + local_name!("xlink:title") => Some(qualname!("xlink" xlink "title")), + local_name!("xlink:type") => Some(qualname!("xlink" xlink "type")), + local_name!("xml:base") => Some(qualname!("xml" xml "base")), + local_name!("xml:lang") => Some(qualname!("xml" xml "lang")), + local_name!("xml:space") => Some(qualname!("xml" xml "space")), + local_name!("xmlns") => Some(qualname!("" xmlns "xmlns")), + local_name!("xmlns:xlink") => Some(qualname!("xmlns" xmlns "xlink")), + _ => None, + }); + } + + fn foreign_start_tag(&mut self, mut tag: Tag) -> ProcessResult<Handle> { + let current_ns = self.sink.elem_name(self.adjusted_current_node()).ns.clone(); + match current_ns { + ns!(mathml) => self.adjust_mathml_attributes(&mut tag), + ns!(svg) => { + self.adjust_svg_tag_name(&mut tag); + self.adjust_svg_attributes(&mut tag); + }, + _ => (), + } + self.adjust_foreign_attributes(&mut tag); + if tag.self_closing { + // FIXME(#118): <script /> in SVG + self.insert_element(NoPush, current_ns, tag.name, tag.attrs); + DoneAckSelfClosing + } else { + self.insert_element(Push, current_ns, tag.name, tag.attrs); + Done + } + } + + fn unexpected_start_tag_in_foreign_content(&mut self, tag: Tag) -> ProcessResult<Handle> { + self.unexpected(&tag); + if self.is_fragment() { + self.foreign_start_tag(tag) + } else { + self.pop(); + while !self.current_node_in(|n| { + *n.ns == ns!(html) || + mathml_text_integration_point(n) || + svg_html_integration_point(n) + }) { + self.pop(); + } + ReprocessForeign(TagToken(tag)) + } + } +} |