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// Copyright 2017 Google Inc. All rights reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//! Tree-based two pass parser.
use std::cmp::{max, min};
use std::collections::{HashMap, VecDeque};
use std::iter::FusedIterator;
use std::num::NonZeroUsize;
use std::ops::{Index, Range};
use unicase::UniCase;
use crate::firstpass::run_first_pass;
use crate::linklabel::{scan_link_label_rest, FootnoteLabel, LinkLabel, ReferenceLabel};
use crate::strings::CowStr;
use crate::tree::{Tree, TreeIndex};
use crate::{scanners::*, MetadataBlockKind};
use crate::{Alignment, CodeBlockKind, Event, HeadingLevel, LinkType, Options, Tag, TagEnd};
// Allowing arbitrary depth nested parentheses inside link destinations
// can create denial of service vulnerabilities if we're not careful.
// The simplest countermeasure is to limit their depth, which is
// explicitly allowed by the spec as long as the limit is at least 3:
// https://spec.commonmark.org/0.29/#link-destination
pub(crate) const LINK_MAX_NESTED_PARENS: usize = 5;
#[derive(Debug, Default, Clone, Copy)]
pub(crate) struct Item {
pub start: usize,
pub end: usize,
pub body: ItemBody,
}
#[derive(Debug, PartialEq, Clone, Copy)]
#[derive(Default)]
pub(crate) enum ItemBody {
Paragraph,
Text { backslash_escaped: bool },
SoftBreak,
// true = is backlash
HardBreak(bool),
// These are possible inline items, need to be resolved in second pass.
// repeats, can_open, can_close
MaybeEmphasis(usize, bool, bool),
// quote byte, can_open, can_close
MaybeSmartQuote(u8, bool, bool),
MaybeCode(usize, bool), // number of backticks, preceded by backslash
MaybeHtml,
MaybeLinkOpen,
// bool indicates whether or not the preceding section could be a reference
MaybeLinkClose(bool),
MaybeImage,
// These are inline items after resolution.
Emphasis,
Strong,
Strikethrough,
Code(CowIndex),
Link(LinkIndex),
Image(LinkIndex),
FootnoteReference(CowIndex),
TaskListMarker(bool), // true for checked
Rule,
Heading(HeadingLevel, Option<HeadingIndex>), // heading level
FencedCodeBlock(CowIndex),
IndentCodeBlock,
HtmlBlock,
InlineHtml,
Html,
OwnedHtml(CowIndex),
BlockQuote,
List(bool, u8, u64), // is_tight, list character, list start index
ListItem(usize), // indent level
SynthesizeText(CowIndex),
SynthesizeChar(char),
FootnoteDefinition(CowIndex),
MetadataBlock(MetadataBlockKind),
// Tables
Table(AlignmentIndex),
TableHead,
TableRow,
TableCell,
// Dummy node at the top of the tree - should not be used otherwise!
#[default]
Root,
}
impl ItemBody {
fn is_inline(&self) -> bool {
matches!(
*self,
ItemBody::MaybeEmphasis(..)
| ItemBody::MaybeSmartQuote(..)
| ItemBody::MaybeHtml
| ItemBody::MaybeCode(..)
| ItemBody::MaybeLinkOpen
| ItemBody::MaybeLinkClose(..)
| ItemBody::MaybeImage
)
}
fn is_block(&self) -> bool {
matches!(
*self,
ItemBody::Paragraph
| ItemBody::BlockQuote
| ItemBody::List(..)
| ItemBody::ListItem(..)
| ItemBody::HtmlBlock
| ItemBody::Table(..)
| ItemBody::TableHead
| ItemBody::TableRow
| ItemBody::TableCell
| ItemBody::Heading(..)
| ItemBody::Rule
)
}
}
#[derive(Debug)]
pub struct BrokenLink<'a> {
pub span: std::ops::Range<usize>,
pub link_type: LinkType,
pub reference: CowStr<'a>,
}
/// Markdown event iterator.
pub struct Parser<'input, F = DefaultBrokenLinkCallback> {
text: &'input str,
options: Options,
tree: Tree<Item>,
allocs: Allocations<'input>,
broken_link_callback: Option<F>,
html_scan_guard: HtmlScanGuard,
// https://github.com/pulldown-cmark/pulldown-cmark/issues/844
// Consider this example:
//
// [x]: xxx...
// [x]
// [x]
// [x]
//
// Which expands to this HTML:
//
// <a href="xxx...">x</a>
// <a href="xxx...">x</a>
// <a href="xxx...">x</a>
//
// This is quadratic growth, because it's filling in the area of a square.
// To prevent this, track how much it's expanded and limit it.
link_ref_expansion_limit: usize,
// used by inline passes. store them here for reuse
inline_stack: InlineStack,
link_stack: LinkStack,
}
impl<'input, F> std::fmt::Debug for Parser<'input, F> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
// Only print the fields that have public types.
f.debug_struct("Parser")
.field("text", &self.text)
.field("options", &self.options)
.field(
"broken_link_callback",
&self.broken_link_callback.as_ref().map(|_| ..),
)
.finish()
}
}
impl<'a> BrokenLink<'a> {
/// Moves the link into version with a static lifetime.
///
/// The `reference` member is cloned to a Boxed or Inline version.
pub fn into_static(self) -> BrokenLink<'static> {
BrokenLink {
span: self.span.clone(),
link_type: self.link_type,
reference: self.reference.into_string().into(),
}
}
}
impl<'input> Parser<'input, DefaultBrokenLinkCallback> {
/// Creates a new event iterator for a markdown string without any options enabled.
pub fn new(text: &'input str) -> Self {
Self::new_ext(text, Options::empty())
}
/// Creates a new event iterator for a markdown string with given options.
pub fn new_ext(text: &'input str, options: Options) -> Self {
Self::new_with_broken_link_callback(text, options, None)
}
}
impl<'input, F: BrokenLinkCallback<'input>> Parser<'input, F> {
/// In case the parser encounters any potential links that have a broken
/// reference (e.g `[foo]` when there is no `[foo]: ` entry at the bottom)
/// the provided callback will be called with the reference name,
/// and the returned pair will be used as the link URL and title if it is not
/// `None`.
pub fn new_with_broken_link_callback(
text: &'input str,
options: Options,
broken_link_callback: Option<F>,
) -> Self {
let (mut tree, allocs) = run_first_pass(text, options);
tree.reset();
let inline_stack = Default::default();
let link_stack = Default::default();
let html_scan_guard = Default::default();
Parser {
text,
options,
tree,
allocs,
broken_link_callback,
inline_stack,
link_stack,
html_scan_guard,
// always allow 100KiB
link_ref_expansion_limit: text.len().max(100_000),
}
}
/// Returns a reference to the internal `RefDefs` object, which provides access
/// to the internal map of reference definitions.
pub fn reference_definitions(&self) -> &RefDefs<'_> {
&self.allocs.refdefs
}
/// Use a link label to fetch a type, url, and title.
///
/// This function enforces the [`link_ref_expansion_limit`].
/// If it returns Some, it also consumes some of the fuel.
/// If we're out of fuel, it immediately returns None.
///
/// The URL and title are found in the [`RefDefs`] map.
/// If they're not there, and a callback was provided by the user,
/// the [`broken_link_callback`] will be invoked and given the opportunity
/// to provide a fallback.
///
/// The link type (that's "link" or "image") depends on the usage site, and
/// is provided by the caller of this function.
/// This function returns a new one because, if it has to invoke a callback
/// to find the information, the link type is [mapped to an unknown type].
///
/// [mapped to an unknown type]: crate::LinkType::to_unknown
/// [`link_ref_expansion_limit`]: Self::link_ref_expansion_limit
/// [`broken_link_callback`]: Self::broken_link_callback
fn fetch_link_type_url_title(
&mut self,
link_label: CowStr<'input>,
span: Range<usize>,
link_type: LinkType
) -> Option<(LinkType, CowStr<'input>, CowStr<'input>)> {
if self.link_ref_expansion_limit <= 0 {
return None;
}
let (link_type, url, title) = self
.allocs
.refdefs
.get(link_label.as_ref())
.map(|matching_def| {
// found a matching definition!
let title = matching_def
.title
.as_ref()
.cloned()
.unwrap_or_else(|| "".into());
let url = matching_def.dest.clone();
(link_type, url, title)
})
.or_else(|| {
match self.broken_link_callback.as_mut() {
Some(callback) => {
// Construct a BrokenLink struct, which will be passed to the callback
let broken_link = BrokenLink {
span,
link_type,
reference: link_label,
};
callback.handle_broken_link(broken_link).map(
|(url, title)| {
(link_type.to_unknown(), url, title)
},
)
}
None => None,
}
})?;
// Limit expansion from link references.
// This isn't a problem for footnotes, because multiple references to the same one
// reuse the same node, but links/images get their HREF/SRC copied.
self.link_ref_expansion_limit = self.link_ref_expansion_limit
.saturating_sub(url.len() + title.len());
Some((link_type, url, title))
}
/// Handle inline markup.
///
/// When the parser encounters any item indicating potential inline markup, all
/// inline markup passes are run on the remainder of the chain.
///
/// Note: there's some potential for optimization here, but that's future work.
fn handle_inline(&mut self) {
self.handle_inline_pass1();
self.handle_emphasis_and_hard_break();
}
/// Handle inline HTML, code spans, and links.
///
/// This function handles both inline HTML and code spans, because they have
/// the same precedence. It also handles links, even though they have lower
/// precedence, because the URL of links must not be processed.
fn handle_inline_pass1(&mut self) {
let mut code_delims = CodeDelims::new();
let mut cur = self.tree.cur();
let mut prev = None;
let block_end = self.tree[self.tree.peek_up().unwrap()].item.end;
let block_text = &self.text[..block_end];
while let Some(mut cur_ix) = cur {
match self.tree[cur_ix].item.body {
ItemBody::MaybeHtml => {
let next = self.tree[cur_ix].next;
let autolink = if let Some(next_ix) = next {
scan_autolink(block_text, self.tree[next_ix].item.start)
} else {
None
};
if let Some((ix, uri, link_type)) = autolink {
let node = scan_nodes_to_ix(&self.tree, next, ix);
let text_node = self.tree.create_node(Item {
start: self.tree[cur_ix].item.start + 1,
end: ix - 1,
body: ItemBody::Text { backslash_escaped: false },
});
let link_ix =
self.allocs
.allocate_link(link_type, uri, "".into(), "".into());
self.tree[cur_ix].item.body = ItemBody::Link(link_ix);
self.tree[cur_ix].item.end = ix;
self.tree[cur_ix].next = node;
self.tree[cur_ix].child = Some(text_node);
prev = cur;
cur = node;
if let Some(node_ix) = cur {
self.tree[node_ix].item.start = max(self.tree[node_ix].item.start, ix);
}
continue;
} else {
let inline_html = next.and_then(|next_ix| {
self.scan_inline_html(
block_text.as_bytes(),
self.tree[next_ix].item.start,
)
});
if let Some((span, ix)) = inline_html {
let node = scan_nodes_to_ix(&self.tree, next, ix);
self.tree[cur_ix].item.body = if !span.is_empty() {
let converted_string =
String::from_utf8(span).expect("invalid utf8");
ItemBody::OwnedHtml(
self.allocs.allocate_cow(converted_string.into()),
)
} else {
ItemBody::InlineHtml
};
self.tree[cur_ix].item.end = ix;
self.tree[cur_ix].next = node;
prev = cur;
cur = node;
if let Some(node_ix) = cur {
self.tree[node_ix].item.start =
max(self.tree[node_ix].item.start, ix);
}
continue;
}
}
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
}
ItemBody::MaybeCode(mut search_count, preceded_by_backslash) => {
if preceded_by_backslash {
search_count -= 1;
if search_count == 0 {
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
prev = cur;
cur = self.tree[cur_ix].next;
continue;
}
}
if code_delims.is_populated() {
// we have previously scanned all codeblock delimiters,
// so we can reuse that work
if let Some(scan_ix) = code_delims.find(cur_ix, search_count) {
self.make_code_span(cur_ix, scan_ix, preceded_by_backslash);
} else {
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
}
} else {
// we haven't previously scanned all codeblock delimiters,
// so walk the AST
let mut scan = if search_count > 0 {
self.tree[cur_ix].next
} else {
None
};
while let Some(scan_ix) = scan {
if let ItemBody::MaybeCode(delim_count, _) =
self.tree[scan_ix].item.body
{
if search_count == delim_count {
self.make_code_span(cur_ix, scan_ix, preceded_by_backslash);
code_delims.clear();
break;
} else {
code_delims.insert(delim_count, scan_ix);
}
}
if self.tree[scan_ix].item.body.is_block() {
// If this is a tight list, blocks and inlines might be
// siblings. Inlines can't cross the boundary like that.
scan = None;
break;
}
scan = self.tree[scan_ix].next;
}
if scan.is_none() {
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
}
}
}
ItemBody::MaybeLinkOpen => {
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
self.link_stack.push(LinkStackEl {
node: cur_ix,
ty: LinkStackTy::Link,
});
}
ItemBody::MaybeImage => {
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
self.link_stack.push(LinkStackEl {
node: cur_ix,
ty: LinkStackTy::Image,
});
}
ItemBody::MaybeLinkClose(could_be_ref) => {
self.tree[cur_ix].item.body = ItemBody::Text { backslash_escaped: false };
if let Some(tos) = self.link_stack.pop() {
if tos.ty == LinkStackTy::Disabled {
continue;
}
let next = self.tree[cur_ix].next;
if let Some((next_ix, url, title)) =
self.scan_inline_link(block_text, self.tree[cur_ix].item.end, next)
{
let next_node = scan_nodes_to_ix(&self.tree, next, next_ix);
if let Some(prev_ix) = prev {
self.tree[prev_ix].next = None;
}
cur = Some(tos.node);
cur_ix = tos.node;
let link_ix =
self.allocs
.allocate_link(LinkType::Inline, url, title, "".into());
self.tree[cur_ix].item.body = if tos.ty == LinkStackTy::Image {
ItemBody::Image(link_ix)
} else {
ItemBody::Link(link_ix)
};
self.tree[cur_ix].child = self.tree[cur_ix].next;
self.tree[cur_ix].next = next_node;
self.tree[cur_ix].item.end = next_ix;
if let Some(next_node_ix) = next_node {
self.tree[next_node_ix].item.start =
max(self.tree[next_node_ix].item.start, next_ix);
}
if tos.ty == LinkStackTy::Link {
self.link_stack.disable_all_links();
}
} else {
// ok, so its not an inline link. maybe it is a reference
// to a defined link?
let scan_result = scan_reference(
&self.tree,
block_text,
next,
self.options.contains(Options::ENABLE_FOOTNOTES),
self.options.has_gfm_footnotes(),
);
let (node_after_link, link_type) = match scan_result {
// [label][reference]
RefScan::LinkLabel(_, end_ix) => {
// Toggle reference viability of the last closing bracket,
// so that we can skip it on future iterations in case
// it fails in this one. In particular, we won't call
// the broken link callback twice on one reference.
let reference_close_node = if let Some(node) =
scan_nodes_to_ix(&self.tree, next, end_ix - 1)
{
node
} else {
continue;
};
self.tree[reference_close_node].item.body =
ItemBody::MaybeLinkClose(false);
let next_node = self.tree[reference_close_node].next;
(next_node, LinkType::Reference)
}
// [reference][]
RefScan::Collapsed(next_node) => {
// This reference has already been tried, and it's not
// valid. Skip it.
if !could_be_ref {
continue;
}
(next_node, LinkType::Collapsed)
}
// [shortcut]
//
// [shortcut]: /blah
RefScan::Failed => {
if !could_be_ref {
continue;
}
(next, LinkType::Shortcut)
}
RefScan::UnexpectedFootnote => continue,
};
// FIXME: references and labels are mixed in the naming of variables
// below. Disambiguate!
// (label, source_ix end)
let label: Option<(ReferenceLabel<'input>, usize)> = match scan_result {
RefScan::LinkLabel(l, end_ix) => {
Some((ReferenceLabel::Link(l), end_ix))
}
RefScan::Collapsed(..) | RefScan::Failed => {
// No label? maybe it is a shortcut reference
let label_start = self.tree[tos.node].item.end - 1;
let label_end = self.tree[cur_ix].item.end;
scan_link_label(
&self.tree,
&self.text[label_start..label_end],
self.options.contains(Options::ENABLE_FOOTNOTES),
self.options.has_gfm_footnotes(),
)
.map(|(ix, label)| (label, label_start + ix))
.filter(|(_, end)| *end == label_end)
}
RefScan::UnexpectedFootnote => continue,
};
let id = match &label {
Some((ReferenceLabel::Link(l), _) | (ReferenceLabel::Footnote(l), _)) => l.clone(),
None => "".into(),
};
// see if it's a footnote reference
if let Some((ReferenceLabel::Footnote(l), end)) = label {
let footref = self.allocs.allocate_cow(l);
if let Some(def) = self
.allocs
.footdefs
.get_mut(self.allocs.cows[footref.0].to_owned())
{
def.use_count += 1;
}
if !self.options.has_gfm_footnotes()
|| self.allocs.footdefs.contains(&self.allocs.cows[footref.0])
{
// If this came from a MaybeImage, then the `!` prefix
// isn't part of the footnote reference.
let footnote_ix = if tos.ty == LinkStackTy::Image {
self.tree[tos.node].next = Some(cur_ix);
self.tree[tos.node].child = None;
self.tree[tos.node].item.body =
ItemBody::SynthesizeChar('!');
cur_ix
} else {
tos.node
};
// use `next` instead of `node_after_link` because
// node_after_link is calculated for a [collapsed][] link,
// which footnotes don't support.
self.tree[footnote_ix].next = next;
self.tree[footnote_ix].child = None;
self.tree[footnote_ix].item.body =
ItemBody::FootnoteReference(footref);
self.tree[footnote_ix].item.end = end;
prev = Some(footnote_ix);
cur = next;
self.link_stack.clear();
continue;
}
} else if let Some((ReferenceLabel::Link(link_label), end)) = label {
if let Some((def_link_type, url, title)) = self.fetch_link_type_url_title(
link_label,
(self.tree[tos.node].item.start)..end,
link_type,
) {
let link_ix =
self.allocs.allocate_link(def_link_type, url, title, id);
self.tree[tos.node].item.body = if tos.ty == LinkStackTy::Image
{
ItemBody::Image(link_ix)
} else {
ItemBody::Link(link_ix)
};
let label_node = self.tree[tos.node].next;
// lets do some tree surgery to add the link to the tree
// 1st: skip the label node and close node
self.tree[tos.node].next = node_after_link;
// then, if it exists, add the label node as a child to the link node
if label_node != cur {
self.tree[tos.node].child = label_node;
// finally: disconnect list of children
if let Some(prev_ix) = prev {
self.tree[prev_ix].next = None;
}
}
self.tree[tos.node].item.end = end;
// set up cur so next node will be node_after_link
cur = Some(tos.node);
cur_ix = tos.node;
if tos.ty == LinkStackTy::Link {
self.link_stack.disable_all_links();
}
}
}
}
}
}
_ => {
// If this is a tight list, blocks and inlines might be
// siblings. Inlines can't cross the boundary like that.
if let Some(cur_ix) = cur {
if self.tree[cur_ix].item.body.is_block() {
self.link_stack.clear();
}
}
}
}
prev = cur;
cur = self.tree[cur_ix].next;
}
self.link_stack.clear();
}
fn handle_emphasis_and_hard_break(&mut self) {
let mut prev = None;
let mut prev_ix: TreeIndex;
let mut cur = self.tree.cur();
let mut single_quote_open: Option<TreeIndex> = None;
let mut double_quote_open: bool = false;
while let Some(mut cur_ix) = cur {
match self.tree[cur_ix].item.body {
ItemBody::MaybeEmphasis(mut count, can_open, can_close) => {
let run_length = count;
let c = self.text.as_bytes()[self.tree[cur_ix].item.start];
let both = can_open && can_close;
if can_close {
while let Some(el) =
self.inline_stack.find_match(&mut self.tree, c, run_length, both)
{
// have a match!
if let Some(prev_ix) = prev {
self.tree[prev_ix].next = None;
}
let match_count = min(count, el.count);
// start, end are tree node indices
let mut end = cur_ix - 1;
let mut start = el.start + el.count;
// work from the inside out
while start > el.start + el.count - match_count {
let inc = if start > el.start + el.count - match_count + 1 {
2
} else {
1
};
let ty = if c == b'~' {
ItemBody::Strikethrough
} else if inc == 2 {
ItemBody::Strong
} else {
ItemBody::Emphasis
};
let root = start - inc;
end = end + inc;
self.tree[root].item.body = ty;
self.tree[root].item.end = self.tree[end].item.end;
self.tree[root].child = Some(start);
self.tree[root].next = None;
start = root;
}
// set next for top most emph level
prev_ix = el.start + el.count - match_count;
prev = Some(prev_ix);
cur = self.tree[cur_ix + match_count - 1].next;
self.tree[prev_ix].next = cur;
if el.count > match_count {
self.inline_stack.push(InlineEl {
start: el.start,
count: el.count - match_count,
run_length: el.run_length,
c: el.c,
both: el.both,
})
}
count -= match_count;
if count > 0 {
cur_ix = cur.unwrap();
} else {
break;
}
}
}
if count > 0 {
if can_open {
self.inline_stack.push(InlineEl {
start: cur_ix,
run_length,
count,
c,
both,
});
} else {
for i in 0..count {
self.tree[cur_ix + i].item.body = ItemBody::Text { backslash_escaped: false };
}
}
prev_ix = cur_ix + count - 1;
prev = Some(prev_ix);
cur = self.tree[prev_ix].next;
}
}
ItemBody::MaybeSmartQuote(c, can_open, can_close) => {
self.tree[cur_ix].item.body = match c {
b'\'' => {
if let (Some(open_ix), true) = (single_quote_open, can_close) {
self.tree[open_ix].item.body = ItemBody::SynthesizeChar('‘');
single_quote_open = None;
} else if can_open {
single_quote_open = Some(cur_ix);
}
ItemBody::SynthesizeChar('’')
}
_ /* double quote */ => {
if can_close && double_quote_open {
double_quote_open = false;
ItemBody::SynthesizeChar('”')
} else {
if can_open && !double_quote_open {
double_quote_open = true;
}
ItemBody::SynthesizeChar('“')
}
}
};
prev = cur;
cur = self.tree[cur_ix].next;
}
ItemBody::HardBreak(true) => {
if self.tree[cur_ix].next.is_none() {
self.tree[cur_ix].item.body = ItemBody::SynthesizeChar('\\');
}
prev = cur;
cur = self.tree[cur_ix].next;
}
_ => {
prev = cur;
// If this is a tight list, blocks and inlines might be
// siblings. Inlines can't cross the boundary like that.
if let Some(cur_ix) = cur {
if self.tree[cur_ix].item.body.is_block() {
self.inline_stack.pop_all(&mut self.tree);
}
}
cur = self.tree[cur_ix].next;
}
}
}
self.inline_stack.pop_all(&mut self.tree);
}
/// Returns next byte index, url and title.
fn scan_inline_link(
&self,
underlying: &'input str,
mut ix: usize,
node: Option<TreeIndex>,
) -> Option<(usize, CowStr<'input>, CowStr<'input>)> {
if scan_ch(&underlying.as_bytes()[ix..], b'(') == 0 {
return None;
}
ix += 1;
let scan_separator = |ix: &mut usize| {
*ix += scan_while(&underlying.as_bytes()[*ix..], is_ascii_whitespace_no_nl);
if let Some(bl) = scan_eol(&underlying.as_bytes()[*ix..]) {
*ix += bl;
let mut line_start = LineStart::new(&underlying.as_bytes()[*ix..]);
let _ = scan_containers(
&self.tree,
&mut line_start,
self.options.has_gfm_footnotes(),
);
*ix += line_start.bytes_scanned();
}
*ix += scan_while(&underlying.as_bytes()[*ix..], is_ascii_whitespace_no_nl);
};
scan_separator(&mut ix);
let (dest_length, dest) = scan_link_dest(underlying, ix, LINK_MAX_NESTED_PARENS)?;
let dest = unescape(dest, self.tree.is_in_table());
ix += dest_length;
scan_separator(&mut ix);
let title = if let Some((bytes_scanned, t)) = self.scan_link_title(underlying, ix, node) {
ix += bytes_scanned;
scan_separator(&mut ix);
t
} else {
"".into()
};
if scan_ch(&underlying.as_bytes()[ix..], b')') == 0 {
return None;
}
ix += 1;
Some((ix, dest, title))
}
// returns (bytes scanned, title cow)
fn scan_link_title(
&self,
text: &'input str,
start_ix: usize,
node: Option<TreeIndex>,
) -> Option<(usize, CowStr<'input>)> {
let bytes = text.as_bytes();
let open = match bytes.get(start_ix) {
Some(b @ b'\'') | Some(b @ b'\"') | Some(b @ b'(') => *b,
_ => return None,
};
let close = if open == b'(' { b')' } else { open };
let mut title = String::new();
let mut mark = start_ix + 1;
let mut i = start_ix + 1;
while i < bytes.len() {
let c = bytes[i];
if c == close {
let cow = if mark == 1 {
(i - start_ix + 1, text[mark..i].into())
} else {
title.push_str(&text[mark..i]);
(i - start_ix + 1, title.into())
};
return Some(cow);
}
if c == open {
return None;
}
if c == b'\n' || c == b'\r' {
if let Some(node_ix) = scan_nodes_to_ix(&self.tree, node, i + 1) {
if self.tree[node_ix].item.start > i {
title.push_str(&text[mark..i]);
title.push('\n');
i = self.tree[node_ix].item.start;
mark = i;
continue;
}
}
}
if c == b'&' {
if let (n, Some(value)) = scan_entity(&bytes[i..]) {
title.push_str(&text[mark..i]);
title.push_str(&value);
i += n;
mark = i;
continue;
}
}
if self.tree.is_in_table() && c == b'\\' && i + 2 < bytes.len() && bytes[i + 1] == b'\\' && bytes[i + 2] == b'|' {
// this runs if there are an even number of pipes in a table
// if it's odd, then it gets parsed as normal
title.push_str(&text[mark..i]);
i += 2;
mark = i;
}
if c == b'\\' && i + 1 < bytes.len() && is_ascii_punctuation(bytes[i + 1]) {
title.push_str(&text[mark..i]);
i += 1;
mark = i;
}
i += 1;
}
None
}
/// Make a code span.
///
/// Both `open` and `close` are matching MaybeCode items.
fn make_code_span(&mut self, open: TreeIndex, close: TreeIndex, preceding_backslash: bool) {
let bytes = self.text.as_bytes();
let span_start = self.tree[open].item.end;
let span_end = self.tree[close].item.start;
let mut buf: Option<String> = None;
let mut start_ix = span_start;
let mut ix = span_start;
while ix < span_end {
let c = bytes[ix];
if c == b'\r' || c == b'\n' {
let buf = buf.get_or_insert_with(|| String::with_capacity(ix + 1 - span_start));
buf.push_str(&self.text[start_ix..ix]);
buf.push(' ');
ix += 1;
let mut line_start = LineStart::new(&bytes[ix..]);
let _ = scan_containers(
&self.tree,
&mut line_start,
self.options.has_gfm_footnotes(),
);
ix += line_start.bytes_scanned();
start_ix = ix;
} else if c == b'\\' && bytes.get(ix + 1) == Some(&b'|') && self.tree.is_in_table() {
let buf = buf.get_or_insert_with(|| String::with_capacity(ix + 1 - span_start));
buf.push_str(&self.text[start_ix..ix]);
buf.push('|');
ix += 2;
start_ix = ix;
} else {
ix += 1;
}
}
let (opening, closing, all_spaces) = {
let s = if let Some(buf) = &mut buf {
buf.push_str(&self.text[start_ix..span_end]);
&buf[..]
} else {
&self.text[span_start..span_end]
};
(
s.as_bytes().first() == Some(&b' '),
s.as_bytes().last() == Some(&b' '),
s.bytes().all(|b| b == b' ')
)
};
let cow: CowStr<'input> = if !all_spaces && opening && closing {
if let Some(mut buf) = buf {
buf.remove(0);
buf.pop();
buf.into()
} else {
let lo = span_start + 1;
let hi = (span_end - 1).max(lo);
self.text[lo..hi].into()
}
} else if let Some(buf) = buf {
buf.into()
} else {
self.text[span_start..span_end].into()
};
if preceding_backslash {
self.tree[open].item.body = ItemBody::Text { backslash_escaped: true };
self.tree[open].item.end = self.tree[open].item.start + 1;
self.tree[open].next = Some(close);
self.tree[close].item.body = ItemBody::Code(self.allocs.allocate_cow(cow));
self.tree[close].item.start = self.tree[open].item.start + 1;
} else {
self.tree[open].item.body = ItemBody::Code(self.allocs.allocate_cow(cow));
self.tree[open].item.end = self.tree[close].item.end;
self.tree[open].next = self.tree[close].next;
}
}
/// On success, returns a buffer containing the inline html and byte offset.
/// When no bytes were skipped, the buffer will be empty and the html can be
/// represented as a subslice of the input string.
fn scan_inline_html(&mut self, bytes: &[u8], ix: usize) -> Option<(Vec<u8>, usize)> {
let c = *bytes.get(ix)?;
if c == b'!' {
Some((
vec![],
scan_inline_html_comment(bytes, ix + 1, &mut self.html_scan_guard)?,
))
} else if c == b'?' {
Some((
vec![],
scan_inline_html_processing(bytes, ix + 1, &mut self.html_scan_guard)?,
))
} else {
let (span, i) = scan_html_block_inner(
// Subtract 1 to include the < character
&bytes[(ix - 1)..],
Some(&|bytes| {
let mut line_start = LineStart::new(bytes);
let _ = scan_containers(
&self.tree,
&mut line_start,
self.options.has_gfm_footnotes(),
);
line_start.bytes_scanned()
}),
)?;
Some((span, i + ix - 1))
}
}
/// Consumes the event iterator and produces an iterator that produces
/// `(Event, Range)` pairs, where the `Range` value maps to the corresponding
/// range in the markdown source.
pub fn into_offset_iter(self) -> OffsetIter<'input, F> {
OffsetIter { inner: self }
}
}
/// Returns number of containers scanned.
pub(crate) fn scan_containers(
tree: &Tree<Item>,
line_start: &mut LineStart<'_>,
gfm_footnotes: bool,
) -> usize {
let mut i = 0;
for &node_ix in tree.walk_spine() {
match tree[node_ix].item.body {
ItemBody::BlockQuote => {
// `scan_blockquote_marker` saves & restores internally
if !line_start.scan_blockquote_marker() {
break;
}
}
ItemBody::ListItem(indent) => {
let save = line_start.clone();
if !line_start.scan_space(indent) && !line_start.is_at_eol() {
*line_start = save;
break;
}
}
ItemBody::FootnoteDefinition(..) if gfm_footnotes => {
let save = line_start.clone();
if !line_start.scan_space(4) && !line_start.is_at_eol() {
*line_start = save;
break;
}
}
_ => (),
}
i += 1;
}
i
}
impl Tree<Item> {
pub(crate) fn append_text(&mut self, start: usize, end: usize, backslash_escaped: bool) {
if end > start {
if let Some(ix) = self.cur() {
if matches!(self[ix].item.body, ItemBody::Text { .. }) && self[ix].item.end == start {
self[ix].item.end = end;
return;
}
}
self.append(Item {
start,
end,
body: ItemBody::Text { backslash_escaped },
});
}
}
/// Returns true if the current node is inside a table.
///
/// If `cur` is an ItemBody::Table, it would return false,
/// but since the `TableRow` and `TableHead` and `TableCell`
/// are children of the table, anything doing inline parsing
/// doesn't need to care about that.
pub(crate) fn is_in_table(&self) -> bool {
fn might_be_in_table(item: &Item) -> bool {
item.body.is_inline()
|| matches!(item.body, |ItemBody::TableHead| ItemBody::TableRow
| ItemBody::TableCell)
}
for &ix in self.walk_spine().rev() {
if matches!(self[ix].item.body, ItemBody::Table(_)) {
return true;
}
if !might_be_in_table(&self[ix].item) {
return false;
}
}
false
}
}
#[derive(Copy, Clone, Debug)]
struct InlineEl {
/// offset of tree node
start: TreeIndex,
/// number of delimiters available for matching
count: usize,
/// length of the run that these delimiters came from
run_length: usize,
/// b'*', b'_', or b'~'
c: u8,
/// can both open and close
both: bool,
}
#[derive(Debug, Clone, Default)]
struct InlineStack {
stack: Vec<InlineEl>,
// Lower bounds for matching indices in the stack. For example
// a strikethrough delimiter will never match with any element
// in the stack with index smaller than
// `lower_bounds[InlineStack::TILDES]`.
lower_bounds: [usize; 9],
}
impl InlineStack {
/// These are indices into the lower bounds array.
/// Not both refers to the property that the delimiter can not both
/// be opener as a closer.
const UNDERSCORE_NOT_BOTH: usize = 0;
const ASTERISK_NOT_BOTH: usize = 1;
const ASTERISK_BASE: usize = 2;
const TILDES: usize = 5;
const UNDERSCORE_BASE: usize = 6;
fn pop_all(&mut self, tree: &mut Tree<Item>) {
for el in self.stack.drain(..) {
for i in 0..el.count {
tree[el.start + i].item.body = ItemBody::Text { backslash_escaped: false};
}
}
self.lower_bounds = [0; 9];
}
fn get_lowerbound(&self, c: u8, count: usize, both: bool) -> usize {
if c == b'_' {
let mod3_lower = self.lower_bounds[InlineStack::UNDERSCORE_BASE + count % 3];
if both {
mod3_lower
} else {
min(
mod3_lower,
self.lower_bounds[InlineStack::UNDERSCORE_NOT_BOTH],
)
}
} else if c == b'*' {
let mod3_lower = self.lower_bounds[InlineStack::ASTERISK_BASE + count % 3];
if both {
mod3_lower
} else {
min(
mod3_lower,
self.lower_bounds[InlineStack::ASTERISK_NOT_BOTH],
)
}
} else {
self.lower_bounds[InlineStack::TILDES]
}
}
fn set_lowerbound(&mut self, c: u8, count: usize, both: bool, new_bound: usize) {
if c == b'_' {
if both {
self.lower_bounds[InlineStack::UNDERSCORE_BASE + count % 3] = new_bound;
} else {
self.lower_bounds[InlineStack::UNDERSCORE_NOT_BOTH] = new_bound;
}
} else if c == b'*' {
self.lower_bounds[InlineStack::ASTERISK_BASE + count % 3] = new_bound;
if !both {
self.lower_bounds[InlineStack::ASTERISK_NOT_BOTH] = new_bound;
}
} else {
self.lower_bounds[InlineStack::TILDES] = new_bound;
}
}
fn truncate(&mut self, new_bound: usize) {
self.stack.truncate(new_bound);
for lower_bound in &mut self.lower_bounds {
if *lower_bound > new_bound {
*lower_bound = new_bound;
}
}
}
fn find_match(
&mut self,
tree: &mut Tree<Item>,
c: u8,
run_length: usize,
both: bool,
) -> Option<InlineEl> {
let lowerbound = min(self.stack.len(), self.get_lowerbound(c, run_length, both));
let res = self.stack[lowerbound..]
.iter()
.cloned()
.enumerate()
.rfind(|(_, el)| {
if c == b'~' && run_length != el.run_length {
return false;
}
el.c == c && (!both && !el.both || (run_length + el.run_length) % 3 != 0 || run_length % 3 == 0)
});
if let Some((matching_ix, matching_el)) = res {
let matching_ix = matching_ix + lowerbound;
for el in &self.stack[(matching_ix + 1)..] {
for i in 0..el.count {
tree[el.start + i].item.body = ItemBody::Text { backslash_escaped: false };
}
}
self.truncate(matching_ix);
Some(matching_el)
} else {
self.set_lowerbound(c, run_length, both, self.stack.len());
None
}
}
fn trim_lower_bound(&mut self, ix: usize) {
self.lower_bounds[ix] = self.lower_bounds[ix].min(self.stack.len());
}
fn push(&mut self, el: InlineEl) {
if el.c == b'~' {
self.trim_lower_bound(InlineStack::TILDES);
}
self.stack.push(el)
}
}
#[derive(Debug, Clone)]
enum RefScan<'a> {
// label, source ix of label end
LinkLabel(CowStr<'a>, usize),
// contains next node index
Collapsed(Option<TreeIndex>),
UnexpectedFootnote,
Failed,
}
/// Skips forward within a block to a node which spans (ends inclusive) the given
/// index into the source.
fn scan_nodes_to_ix(
tree: &Tree<Item>,
mut node: Option<TreeIndex>,
ix: usize,
) -> Option<TreeIndex> {
while let Some(node_ix) = node {
if tree[node_ix].item.end <= ix {
node = tree[node_ix].next;
} else {
break;
}
}
node
}
/// Scans an inline link label, which cannot be interrupted.
/// Returns number of bytes (including brackets) and label on success.
fn scan_link_label<'text>(
tree: &Tree<Item>,
text: &'text str,
allow_footnote_refs: bool,
gfm_footnotes: bool,
) -> Option<(usize, ReferenceLabel<'text>)> {
let bytes = text.as_bytes();
if bytes.len() < 2 || bytes[0] != b'[' {
return None;
}
let linebreak_handler = |bytes: &[u8]| {
let mut line_start = LineStart::new(bytes);
let _ = scan_containers(tree, &mut line_start, gfm_footnotes);
Some(line_start.bytes_scanned())
};
if allow_footnote_refs && b'^' == bytes[1] && bytes.get(2) != Some(&b']') {
let linebreak_handler: &dyn Fn(&[u8]) -> Option<usize> = if gfm_footnotes {
&|_| None
} else {
&linebreak_handler
};
if let Some((byte_index, cow)) = scan_link_label_rest(&text[2..], linebreak_handler, tree.is_in_table()) {
return Some((byte_index + 2, ReferenceLabel::Footnote(cow)));
}
}
let (byte_index, cow) = scan_link_label_rest(&text[1..], &linebreak_handler, tree.is_in_table())?;
Some((byte_index + 1, ReferenceLabel::Link(cow)))
}
fn scan_reference<'b>(
tree: &Tree<Item>,
text: &'b str,
cur: Option<TreeIndex>,
allow_footnote_refs: bool,
gfm_footnotes: bool,
) -> RefScan<'b> {
let cur_ix = match cur {
None => return RefScan::Failed,
Some(cur_ix) => cur_ix,
};
let start = tree[cur_ix].item.start;
let tail = &text.as_bytes()[start..];
if tail.starts_with(b"[]") {
// TODO: this unwrap is sus and should be looked at closer
let closing_node = tree[cur_ix].next.unwrap();
RefScan::Collapsed(tree[closing_node].next)
} else {
let label = scan_link_label(tree, &text[start..], allow_footnote_refs, gfm_footnotes);
match label {
Some((ix, ReferenceLabel::Link(label))) => RefScan::LinkLabel(label, start + ix),
Some((_ix, ReferenceLabel::Footnote(_label))) => RefScan::UnexpectedFootnote,
None => RefScan::Failed,
}
}
}
#[derive(Clone, Default)]
struct LinkStack {
inner: Vec<LinkStackEl>,
disabled_ix: usize,
}
impl LinkStack {
fn push(&mut self, el: LinkStackEl) {
self.inner.push(el);
}
fn pop(&mut self) -> Option<LinkStackEl> {
let el = self.inner.pop();
self.disabled_ix = std::cmp::min(self.disabled_ix, self.inner.len());
el
}
fn clear(&mut self) {
self.inner.clear();
self.disabled_ix = 0;
}
fn disable_all_links(&mut self) {
for el in &mut self.inner[self.disabled_ix..] {
if el.ty == LinkStackTy::Link {
el.ty = LinkStackTy::Disabled;
}
}
self.disabled_ix = self.inner.len();
}
}
#[derive(Clone, Debug)]
struct LinkStackEl {
node: TreeIndex,
ty: LinkStackTy,
}
#[derive(PartialEq, Clone, Debug)]
enum LinkStackTy {
Link,
Image,
Disabled,
}
/// Contains the destination URL, title and source span of a reference definition.
#[derive(Clone, Debug)]
pub struct LinkDef<'a> {
pub dest: CowStr<'a>,
pub title: Option<CowStr<'a>>,
pub span: Range<usize>,
}
/// Contains the destination URL, title and source span of a reference definition.
#[derive(Clone, Debug)]
pub struct FootnoteDef {
pub use_count: usize,
}
/// Tracks tree indices of code span delimiters of each length. It should prevent
/// quadratic scanning behaviours by providing (amortized) constant time lookups.
struct CodeDelims {
inner: HashMap<usize, VecDeque<TreeIndex>>,
seen_first: bool,
}
impl CodeDelims {
fn new() -> Self {
Self {
inner: Default::default(),
seen_first: false,
}
}
fn insert(&mut self, count: usize, ix: TreeIndex) {
if self.seen_first {
self.inner
.entry(count)
.or_default()
.push_back(ix);
} else {
// Skip the first insert, since that delimiter will always
// be an opener and not a closer.
self.seen_first = true;
}
}
fn is_populated(&self) -> bool {
!self.inner.is_empty()
}
fn find(&mut self, open_ix: TreeIndex, count: usize) -> Option<TreeIndex> {
while let Some(ix) = self.inner.get_mut(&count)?.pop_front() {
if ix > open_ix {
return Some(ix);
}
}
None
}
fn clear(&mut self) {
self.inner.clear();
self.seen_first = false;
}
}
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub(crate) struct LinkIndex(usize);
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub(crate) struct CowIndex(usize);
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub(crate) struct AlignmentIndex(usize);
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub(crate) struct HeadingIndex(NonZeroUsize);
#[derive(Clone)]
pub(crate) struct Allocations<'a> {
pub refdefs: RefDefs<'a>,
pub footdefs: FootnoteDefs<'a>,
links: Vec<(LinkType, CowStr<'a>, CowStr<'a>, CowStr<'a>)>,
cows: Vec<CowStr<'a>>,
alignments: Vec<Vec<Alignment>>,
headings: Vec<HeadingAttributes<'a>>,
}
/// Used by the heading attributes extension.
#[derive(Clone)]
pub(crate) struct HeadingAttributes<'a> {
pub id: Option<CowStr<'a>>,
pub classes: Vec<CowStr<'a>>,
pub attrs: Vec<(CowStr<'a>, Option<CowStr<'a>>)>,
}
/// Keeps track of the reference definitions defined in the document.
#[derive(Clone, Default, Debug)]
pub struct RefDefs<'input>(pub(crate) HashMap<LinkLabel<'input>, LinkDef<'input>>);
/// Keeps track of the footnote definitions defined in the document.
#[derive(Clone, Default, Debug)]
pub struct FootnoteDefs<'input>(pub(crate) HashMap<FootnoteLabel<'input>, FootnoteDef>);
impl<'input, 'b, 's> RefDefs<'input>
where
's: 'b,
{
/// Performs a lookup on reference label using unicode case folding.
pub fn get(&'s self, key: &'b str) -> Option<&'b LinkDef<'input>> {
self.0.get(&UniCase::new(key.into()))
}
/// Provides an iterator over all the document's reference definitions.
pub fn iter(&'s self) -> impl Iterator<Item = (&'s str, &'s LinkDef<'input>)> {
self.0.iter().map(|(k, v)| (k.as_ref(), v))
}
}
impl<'input, 'b, 's> FootnoteDefs<'input>
where
's: 'b,
{
/// Performs a lookup on reference label using unicode case folding.
pub fn contains(&'s self, key: &'b str) -> bool {
self.0.contains_key(&UniCase::new(key.into()))
}
/// Performs a lookup on reference label using unicode case folding.
pub fn get_mut(&'s mut self, key: CowStr<'input>) -> Option<&'s mut FootnoteDef> {
self.0.get_mut(&UniCase::new(key))
}
}
impl<'a> Allocations<'a> {
pub fn new() -> Self {
Self {
refdefs: RefDefs::default(),
footdefs: FootnoteDefs::default(),
links: Vec::with_capacity(128),
cows: Vec::new(),
alignments: Vec::new(),
headings: Vec::new(),
}
}
pub fn allocate_cow(&mut self, cow: CowStr<'a>) -> CowIndex {
let ix = self.cows.len();
self.cows.push(cow);
CowIndex(ix)
}
pub fn allocate_link(
&mut self,
ty: LinkType,
url: CowStr<'a>,
title: CowStr<'a>,
id: CowStr<'a>,
) -> LinkIndex {
let ix = self.links.len();
self.links.push((ty, url, title, id));
LinkIndex(ix)
}
pub fn allocate_alignment(&mut self, alignment: Vec<Alignment>) -> AlignmentIndex {
let ix = self.alignments.len();
self.alignments.push(alignment);
AlignmentIndex(ix)
}
pub fn allocate_heading(&mut self, attrs: HeadingAttributes<'a>) -> HeadingIndex {
let ix = self.headings.len();
self.headings.push(attrs);
// This won't panic. `self.headings.len()` can't be `usize::MAX` since
// such a long Vec cannot fit in memory.
let ix_nonzero = NonZeroUsize::new(ix.wrapping_add(1)).expect("too many headings");
HeadingIndex(ix_nonzero)
}
pub fn take_cow(&mut self, ix: CowIndex) -> CowStr<'a> {
std::mem::replace(&mut self.cows[ix.0], "".into())
}
pub fn take_link(&mut self, ix: LinkIndex) -> (LinkType, CowStr<'a>, CowStr<'a>, CowStr<'a>) {
let default_link = (LinkType::ShortcutUnknown, "".into(), "".into(), "".into());
std::mem::replace(&mut self.links[ix.0], default_link)
}
pub fn take_alignment(&mut self, ix: AlignmentIndex) -> Vec<Alignment> {
std::mem::take(&mut self.alignments[ix.0])
}
}
impl<'a> Index<CowIndex> for Allocations<'a> {
type Output = CowStr<'a>;
fn index(&self, ix: CowIndex) -> &Self::Output {
self.cows.index(ix.0)
}
}
impl<'a> Index<LinkIndex> for Allocations<'a> {
type Output = (LinkType, CowStr<'a>, CowStr<'a>, CowStr<'a>);
fn index(&self, ix: LinkIndex) -> &Self::Output {
self.links.index(ix.0)
}
}
impl<'a> Index<AlignmentIndex> for Allocations<'a> {
type Output = Vec<Alignment>;
fn index(&self, ix: AlignmentIndex) -> &Self::Output {
self.alignments.index(ix.0)
}
}
impl<'a> Index<HeadingIndex> for Allocations<'a> {
type Output = HeadingAttributes<'a>;
fn index(&self, ix: HeadingIndex) -> &Self::Output {
self.headings.index(ix.0.get() - 1)
}
}
/// A struct containing information on the reachability of certain inline HTML
/// elements. In particular, for cdata elements (`<![CDATA[`), processing
/// elements (`<?`) and declarations (`<!DECLARATION`). The respectives usizes
/// represent the indices before which a scan will always fail and can hence
/// be skipped.
#[derive(Clone, Default)]
pub(crate) struct HtmlScanGuard {
pub cdata: usize,
pub processing: usize,
pub declaration: usize,
}
/// Trait for broken link callbacks.
///
/// See [Parser::new_with_broken_link_callback].
/// Automatically implemented for closures with the appropriate signature.
pub trait BrokenLinkCallback<'input> {
fn handle_broken_link(
&mut self,
link: BrokenLink<'input>,
) -> Option<(CowStr<'input>, CowStr<'input>)>;
}
impl<'input, T> BrokenLinkCallback<'input> for T
where
T: FnMut(BrokenLink<'input>) -> Option<(CowStr<'input>, CowStr<'input>)>,
{
fn handle_broken_link(
&mut self,
link: BrokenLink<'input>,
) -> Option<(CowStr<'input>, CowStr<'input>)> {
self(link)
}
}
impl<'input> BrokenLinkCallback<'input> for Box<dyn BrokenLinkCallback<'input>> {
fn handle_broken_link(
&mut self,
link: BrokenLink<'input>,
) -> Option<(CowStr<'input>, CowStr<'input>)> {
(**self).handle_broken_link(link)
}
}
/// Broken link callback that does nothing.
#[derive(Debug)]
pub struct DefaultBrokenLinkCallback;
impl<'input> BrokenLinkCallback<'input> for DefaultBrokenLinkCallback {
fn handle_broken_link(
&mut self,
_link: BrokenLink<'input>,
) -> Option<(CowStr<'input>, CowStr<'input>)> {
None
}
}
/// Markdown event and source range iterator.
///
/// Generates tuples where the first element is the markdown event and the second
/// is a the corresponding range in the source string.
///
/// Constructed from a `Parser` using its
/// [`into_offset_iter`](struct.Parser.html#method.into_offset_iter) method.
#[derive(Debug)]
pub struct OffsetIter<'a, F> {
inner: Parser<'a, F>,
}
impl<'a, F: BrokenLinkCallback<'a>> OffsetIter<'a, F> {
/// Returns a reference to the internal reference definition tracker.
pub fn reference_definitions(&self) -> &RefDefs<'_> {
self.inner.reference_definitions()
}
}
impl<'a, F: BrokenLinkCallback<'a>> Iterator for OffsetIter<'a, F> {
type Item = (Event<'a>, Range<usize>);
fn next(&mut self) -> Option<Self::Item> {
match self.inner.tree.cur() {
None => {
let ix = self.inner.tree.pop()?;
let tag_end = body_to_tag_end(&self.inner.tree[ix].item.body);
self.inner.tree.next_sibling(ix);
let span = self.inner.tree[ix].item.start..self.inner.tree[ix].item.end;
debug_assert!(span.start <= span.end);
Some((Event::End(tag_end), span))
}
Some(cur_ix) => {
if self.inner.tree[cur_ix].item.body.is_inline() {
self.inner.handle_inline();
}
let node = self.inner.tree[cur_ix];
let item = node.item;
let event = item_to_event(item, self.inner.text, &mut self.inner.allocs);
if let Event::Start(..) = event {
self.inner.tree.push();
} else {
self.inner.tree.next_sibling(cur_ix);
}
debug_assert!(item.start <= item.end);
Some((event, item.start..item.end))
}
}
}
}
fn body_to_tag_end(body: &ItemBody) -> TagEnd {
match *body {
ItemBody::Paragraph => TagEnd::Paragraph,
ItemBody::Emphasis => TagEnd::Emphasis,
ItemBody::Strong => TagEnd::Strong,
ItemBody::Strikethrough => TagEnd::Strikethrough,
ItemBody::Link(..) => TagEnd::Link,
ItemBody::Image(..) => TagEnd::Image,
ItemBody::Heading(level, _) => TagEnd::Heading(level),
ItemBody::IndentCodeBlock | ItemBody::FencedCodeBlock(..) => TagEnd::CodeBlock,
ItemBody::BlockQuote => TagEnd::BlockQuote,
ItemBody::HtmlBlock => TagEnd::HtmlBlock,
ItemBody::List(_, c, _) => {
let is_ordered = c == b'.' || c == b')';
TagEnd::List(is_ordered)
}
ItemBody::ListItem(_) => TagEnd::Item,
ItemBody::TableHead => TagEnd::TableHead,
ItemBody::TableCell => TagEnd::TableCell,
ItemBody::TableRow => TagEnd::TableRow,
ItemBody::Table(..) => TagEnd::Table,
ItemBody::FootnoteDefinition(..) => TagEnd::FootnoteDefinition,
ItemBody::MetadataBlock(kind) => TagEnd::MetadataBlock(kind),
_ => panic!("unexpected item body {:?}", body),
}
}
fn item_to_event<'a>(item: Item, text: &'a str, allocs: &mut Allocations<'a>) -> Event<'a> {
let tag = match item.body {
ItemBody::Text { .. } => return Event::Text(text[item.start..item.end].into()),
ItemBody::Code(cow_ix) => return Event::Code(allocs.take_cow(cow_ix)),
ItemBody::SynthesizeText(cow_ix) => return Event::Text(allocs.take_cow(cow_ix)),
ItemBody::SynthesizeChar(c) => return Event::Text(c.into()),
ItemBody::HtmlBlock => Tag::HtmlBlock,
ItemBody::Html => return Event::Html(text[item.start..item.end].into()),
ItemBody::InlineHtml => return Event::InlineHtml(text[item.start..item.end].into()),
ItemBody::OwnedHtml(cow_ix) => return Event::Html(allocs.take_cow(cow_ix)),
ItemBody::SoftBreak => return Event::SoftBreak,
ItemBody::HardBreak(_) => return Event::HardBreak,
ItemBody::FootnoteReference(cow_ix) => {
return Event::FootnoteReference(allocs.take_cow(cow_ix))
}
ItemBody::TaskListMarker(checked) => return Event::TaskListMarker(checked),
ItemBody::Rule => return Event::Rule,
ItemBody::Paragraph => Tag::Paragraph,
ItemBody::Emphasis => Tag::Emphasis,
ItemBody::Strong => Tag::Strong,
ItemBody::Strikethrough => Tag::Strikethrough,
ItemBody::Link(link_ix) => {
let (link_type, dest_url, title, id) = allocs.take_link(link_ix);
Tag::Link {
link_type,
dest_url,
title,
id,
}
}
ItemBody::Image(link_ix) => {
let (link_type, dest_url, title, id) = allocs.take_link(link_ix);
Tag::Image {
link_type,
dest_url,
title,
id,
}
}
ItemBody::Heading(level, Some(heading_ix)) => {
let HeadingAttributes { id, classes, attrs } = allocs.index(heading_ix);
Tag::Heading {
level,
id: id.clone(),
classes: classes.clone(),
attrs: attrs.clone(),
}
}
ItemBody::Heading(level, None) => Tag::Heading {
level,
id: None,
classes: Vec::new(),
attrs: Vec::new(),
},
ItemBody::FencedCodeBlock(cow_ix) => {
Tag::CodeBlock(CodeBlockKind::Fenced(allocs.take_cow(cow_ix)))
}
ItemBody::IndentCodeBlock => Tag::CodeBlock(CodeBlockKind::Indented),
ItemBody::BlockQuote => Tag::BlockQuote,
ItemBody::List(_, c, listitem_start) => {
if c == b'.' || c == b')' {
Tag::List(Some(listitem_start))
} else {
Tag::List(None)
}
}
ItemBody::ListItem(_) => Tag::Item,
ItemBody::TableHead => Tag::TableHead,
ItemBody::TableCell => Tag::TableCell,
ItemBody::TableRow => Tag::TableRow,
ItemBody::Table(alignment_ix) => Tag::Table(allocs.take_alignment(alignment_ix)),
ItemBody::FootnoteDefinition(cow_ix) => Tag::FootnoteDefinition(allocs.take_cow(cow_ix)),
ItemBody::MetadataBlock(kind) => Tag::MetadataBlock(kind),
_ => panic!("unexpected item body {:?}", item.body),
};
Event::Start(tag)
}
impl<'a, F: BrokenLinkCallback<'a>> Iterator for Parser<'a, F> {
type Item = Event<'a>;
fn next(&mut self) -> Option<Event<'a>> {
match self.tree.cur() {
None => {
let ix = self.tree.pop()?;
let tag_end = body_to_tag_end(&self.tree[ix].item.body);
self.tree.next_sibling(ix);
Some(Event::End(tag_end))
}
Some(cur_ix) => {
if self.tree[cur_ix].item.body.is_inline() {
self.handle_inline();
}
let node = self.tree[cur_ix];
let item = node.item;
let event = item_to_event(item, self.text, &mut self.allocs);
if let Event::Start(ref _tag) = event {
self.tree.push();
} else {
self.tree.next_sibling(cur_ix);
}
Some(event)
}
}
}
}
impl<'a, F: BrokenLinkCallback<'a>> FusedIterator for Parser<'a, F> {}
#[cfg(test)]
mod test {
use super::*;
use crate::tree::Node;
// TODO: move these tests to tests/html.rs?
fn parser_with_extensions(text: &str) -> Parser<'_> {
let mut opts = Options::empty();
opts.insert(Options::ENABLE_TABLES);
opts.insert(Options::ENABLE_FOOTNOTES);
opts.insert(Options::ENABLE_STRIKETHROUGH);
opts.insert(Options::ENABLE_TASKLISTS);
Parser::new_ext(text, opts)
}
#[test]
#[cfg(target_pointer_width = "64")]
fn node_size() {
let node_size = std::mem::size_of::<Node<Item>>();
assert_eq!(48, node_size);
}
#[test]
#[cfg(target_pointer_width = "64")]
fn body_size() {
let body_size = std::mem::size_of::<ItemBody>();
assert_eq!(16, body_size);
}
#[test]
fn single_open_fish_bracket() {
// dont crash
assert_eq!(3, Parser::new("<").count());
}
#[test]
fn lone_hashtag() {
// dont crash
assert_eq!(2, Parser::new("#").count());
}
#[test]
fn lots_of_backslashes() {
// dont crash
Parser::new("\\\\\r\r").count();
Parser::new("\\\r\r\\.\\\\\r\r\\.\\").count();
}
#[test]
fn issue_320() {
// dont crash
parser_with_extensions(":\r\t> |\r:\r\t> |\r").count();
}
#[test]
fn issue_319() {
// dont crash
parser_with_extensions("|\r-]([^|\r-]([^").count();
parser_with_extensions("|\r\r=][^|\r\r=][^car").count();
}
#[test]
fn issue_303() {
// dont crash
parser_with_extensions("[^\r\ra]").count();
parser_with_extensions("\r\r]Z[^\x00\r\r]Z[^\x00").count();
}
#[test]
fn issue_313() {
// dont crash
parser_with_extensions("*]0[^\r\r*]0[^").count();
parser_with_extensions("[^\r> `][^\r> `][^\r> `][").count();
}
#[test]
fn issue_311() {
// dont crash
parser_with_extensions("\\\u{0d}-\u{09}\\\u{0d}-\u{09}").count();
}
#[test]
fn issue_283() {
let input = std::str::from_utf8(b"\xf0\x9b\xb2\x9f<td:^\xf0\x9b\xb2\x9f").unwrap();
// dont crash
parser_with_extensions(input).count();
}
#[test]
fn issue_289() {
// dont crash
parser_with_extensions("> - \\\n> - ").count();
parser_with_extensions("- \n\n").count();
}
#[test]
fn issue_306() {
// dont crash
parser_with_extensions("*\r_<__*\r_<__*\r_<__*\r_<__").count();
}
#[test]
fn issue_305() {
// dont crash
parser_with_extensions("_6**6*_*").count();
}
#[test]
fn another_emphasis_panic() {
parser_with_extensions("*__#_#__*").count();
}
#[test]
fn offset_iter() {
let event_offsets: Vec<_> = Parser::new("*hello* world")
.into_offset_iter()
.map(|(_ev, range)| range)
.collect();
let expected_offsets = vec![(0..13), (0..7), (1..6), (0..7), (7..13), (0..13)];
assert_eq!(expected_offsets, event_offsets);
}
#[test]
fn reference_link_offsets() {
let range =
Parser::new("# H1\n[testing][Some reference]\n\n[Some reference]: https://github.com")
.into_offset_iter()
.filter_map(|(ev, range)| match ev {
Event::Start(
Tag::Link {
link_type: LinkType::Reference,
..
},
..,
) => Some(range),
_ => None,
})
.next()
.unwrap();
assert_eq!(5..30, range);
}
#[test]
fn footnote_offsets() {
let range = parser_with_extensions("Testing this[^1] out.\n\n[^1]: Footnote.")
.into_offset_iter()
.filter_map(|(ev, range)| match ev {
Event::FootnoteReference(..) => Some(range),
_ => None,
})
.next()
.unwrap();
assert_eq!(12..16, range);
}
#[test]
fn table_offset() {
let markdown = "a\n\nTesting|This|Outtt\n--|:--:|--:\nSome Data|Other data|asdf";
let event_offset = parser_with_extensions(markdown)
.into_offset_iter()
.map(|(_ev, range)| range)
.nth(3)
.unwrap();
let expected_offset = 3..59;
assert_eq!(expected_offset, event_offset);
}
#[test]
fn table_cell_span() {
let markdown = "a|b|c\n--|--|--\na| |c";
let event_offset = parser_with_extensions(markdown)
.into_offset_iter()
.filter_map(|(ev, span)| match ev {
Event::Start(Tag::TableCell) => Some(span),
_ => None,
})
.nth(4)
.unwrap();
let expected_offset_start = "a|b|c\n--|--|--\na|".len();
assert_eq!(
expected_offset_start..(expected_offset_start + 2),
event_offset
);
}
#[test]
fn offset_iter_issue_378() {
let event_offsets: Vec<_> = Parser::new("a [b](c) d")
.into_offset_iter()
.map(|(_ev, range)| range)
.collect();
let expected_offsets = vec![(0..10), (0..2), (2..8), (3..4), (2..8), (8..10), (0..10)];
assert_eq!(expected_offsets, event_offsets);
}
#[test]
fn offset_iter_issue_404() {
let event_offsets: Vec<_> = Parser::new("###\n")
.into_offset_iter()
.map(|(_ev, range)| range)
.collect();
let expected_offsets = vec![(0..4), (0..4)];
assert_eq!(expected_offsets, event_offsets);
}
// FIXME: add this one regression suite
#[cfg(feature = "html")]
#[test]
fn link_def_at_eof() {
let test_str = "[My site][world]\n\n[world]: https://vincentprouillet.com";
let expected = "<p><a href=\"https://vincentprouillet.com\">My site</a></p>\n";
let mut buf = String::new();
crate::html::push_html(&mut buf, Parser::new(test_str));
assert_eq!(expected, buf);
}
#[cfg(feature = "html")]
#[test]
fn no_footnote_refs_without_option() {
let test_str = "a [^a]\n\n[^a]: yolo";
let expected = "<p>a <a href=\"yolo\">^a</a></p>\n";
let mut buf = String::new();
crate::html::push_html(&mut buf, Parser::new(test_str));
assert_eq!(expected, buf);
}
#[cfg(feature = "html")]
#[test]
fn ref_def_at_eof() {
let test_str = "[test]:\\";
let expected = "";
let mut buf = String::new();
crate::html::push_html(&mut buf, Parser::new(test_str));
assert_eq!(expected, buf);
}
#[cfg(feature = "html")]
#[test]
fn ref_def_cr_lf() {
let test_str = "[a]: /u\r\n\n[a]";
let expected = "<p><a href=\"/u\">a</a></p>\n";
let mut buf = String::new();
crate::html::push_html(&mut buf, Parser::new(test_str));
assert_eq!(expected, buf);
}
#[cfg(feature = "html")]
#[test]
fn no_dest_refdef() {
let test_str = "[a]:";
let expected = "<p>[a]:</p>\n";
let mut buf = String::new();
crate::html::push_html(&mut buf, Parser::new(test_str));
assert_eq!(expected, buf);
}
#[test]
fn broken_links_called_only_once() {
for &(markdown, expected) in &[
("See also [`g()`][crate::g].", 1),
("See also [`g()`][crate::g][].", 1),
("[brokenlink1] some other node [brokenlink2]", 2),
] {
let mut times_called = 0;
let callback = &mut |_broken_link: BrokenLink| {
times_called += 1;
None
};
let parser =
Parser::new_with_broken_link_callback(markdown, Options::empty(), Some(callback));
for _ in parser {}
assert_eq!(times_called, expected);
}
}
#[test]
fn simple_broken_link_callback() {
let test_str = "This is a link w/o def: [hello][world]";
let mut callback = |broken_link: BrokenLink| {
assert_eq!("world", broken_link.reference.as_ref());
assert_eq!(&test_str[broken_link.span], "[hello][world]");
let url = "YOLO".into();
let title = "SWAG".to_owned().into();
Some((url, title))
};
let parser =
Parser::new_with_broken_link_callback(test_str, Options::empty(), Some(&mut callback));
let mut link_tag_count = 0;
for (typ, url, title, id) in parser.filter_map(|event| match event {
Event::Start(tag) => match tag {
Tag::Link {
link_type,
dest_url,
title,
id,
} => Some((link_type, dest_url, title, id)),
_ => None,
},
_ => None,
}) {
link_tag_count += 1;
assert_eq!(typ, LinkType::ReferenceUnknown);
assert_eq!(url.as_ref(), "YOLO");
assert_eq!(title.as_ref(), "SWAG");
assert_eq!(id.as_ref(), "world");
}
assert!(link_tag_count > 0);
}
#[test]
fn code_block_kind_check_fenced() {
let parser = Parser::new("hello\n```test\ntadam\n```");
let mut found = 0;
for (ev, _range) in parser.into_offset_iter() {
match ev {
Event::Start(Tag::CodeBlock(CodeBlockKind::Fenced(syntax))) => {
assert_eq!(syntax.as_ref(), "test");
found += 1;
}
_ => {}
}
}
assert_eq!(found, 1);
}
#[test]
fn code_block_kind_check_indented() {
let parser = Parser::new("hello\n\n ```test\n tadam\nhello");
let mut found = 0;
for (ev, _range) in parser.into_offset_iter() {
match ev {
Event::Start(Tag::CodeBlock(CodeBlockKind::Indented)) => {
found += 1;
}
_ => {}
}
}
assert_eq!(found, 1);
}
#[test]
fn ref_defs() {
let input = r###"[a B c]: http://example.com
[another]: https://google.com
text
[final ONE]: http://wikipedia.org
"###;
let mut parser = Parser::new(input);
assert!(parser.reference_definitions().get("a b c").is_some());
assert!(parser.reference_definitions().get("nope").is_none());
if let Some(_event) = parser.next() {
// testing keys with shorter lifetimes than parser and its input
let s = "final one".to_owned();
let link_def = parser.reference_definitions().get(&s).unwrap();
let span = &input[link_def.span.clone()];
assert_eq!(span, "[final ONE]: http://wikipedia.org");
}
}
#[test]
fn common_lifetime_patterns_allowed<'b>() {
let temporary_str = String::from("xyz");
// NOTE: this is a limitation of Rust, it doesn't allow putting lifetime parameters on the closure itself.
// Hack it by attaching the lifetime to the test function instead.
// TODO: why is the `'b` lifetime required at all? Changing it to `'_` breaks things :(
let mut closure = |link: BrokenLink<'b>| Some(("#".into(), link.reference));
fn function(link: BrokenLink<'_>) -> Option<(CowStr<'_>, CowStr<'_>)> {
Some(("#".into(), link.reference))
}
for _ in Parser::new_with_broken_link_callback(
"static lifetime",
Options::empty(),
Some(&mut closure),
) {}
/* This fails to compile. Because the closure can't say `for <'a> fn(BrokenLink<'a>) ->
* CowStr<'a>` and has to use the enclosing `'b` lifetime parameter, `temporary_str` lives
* shorter than `'b`. I think this is unlikely to occur in real life, and if it does, the
* fix is simple: move it out to a function that allows annotating the lifetimes.
*/
//for _ in Parser::new_with_broken_link_callback(&temporary_str, Options::empty(), Some(&mut callback)) {
//}
for _ in Parser::new_with_broken_link_callback(
"static lifetime",
Options::empty(),
Some(&mut function),
) {}
for _ in Parser::new_with_broken_link_callback(
&temporary_str,
Options::empty(),
Some(&mut function),
) {}
}
}