//! Label end is a construct that occurs in the [text][] conten&t type.
//!
//! It forms with the following BNF:
//!
//! ```bnf
//! label_end ::= ']' [ resource | reference_full | reference_collapsed ]
//!
//! resource ::= '(' [ whitespace ] destination [ whitespace title ] [ whitespace ] ')'
//! reference_full ::= '[' label ']'
//! reference_collapsed ::= '[' ']'
//!
//! ; See the `destination`, `title`, and `label` constructs for the BNF of
//! ; those parts.
//! ```
//!
//! See [`destination`][destination], [`label`][label], and [`title`][title]
//! for grammar, notes, and recommendations.
//!
//! Label end does not, on its own, relate to anything in HTML.
//! When matched with a [label start (link)][label_start_link], they together
//! relate to the `<a>` element in HTML.
//! See [*§ 4.5.1 The `a` element*][html-a] in the HTML spec for more info.
//! It can also match with [label start (image)][label_start_image], in which
//! case they form an `<img>` element.
//! See [*§ 4.8.3 The `img` element*][html-img] in the HTML spec for more info.
//!
//! In the case of a resource, the destination and title are given directly
//! with the label end.
//! In the case of a reference, this information is provided by a matched
//! [definition][].
//! Full references (`[x][y]`) match to definitions through their explicit,
//! second, label (`y`).
//! Collapsed references (`[x][]`) and shortcut references (`[x]`) match by
//! interpreting the text provided between the first, implicit, label (`x`).
//! To match, the effective label of the reference must be equal to the label
//! of the definition after normalizing with
//! [`normalize_identifier`][normalize_identifier].
//!
//! Importantly, while the label of a full reference *can* include [string][]
//! content, and in case of collapsed and shortcut references even [text][]
//! content, that content is not considered when matching.
//! To illustrate, neither label matches the definition:
//!
//! ```markdown
//! [a&b]: https://example.com
//!
//! [x][a&b], [a\&b][]
//! ```
//!
//! When the resource or reference matches, the destination forms the `href`
//! attribute in case of a [label start (link)][label_start_link], and an
//! `src` attribute otherwise.
//! The title is formed, optionally, on either `<a>` or `<img>`.
//!
//! For info on how to encode characters in URLs, see
//! [`destination`][destination].
//! For info on how characters are encoded as `href` on `<a>` or `src` on
//! `<img>` when compiling, see
//! [`sanitize_uri`][sanitize_uri].
//!
//! In case of a matched [label start (link)][label_start_link], the interpreted
//! content between it and the label end, is placed between the opening and
//! closing tags.
//! Otherwise, the text is also interpreted, but used *without* the resulting
//! tags:
//!
//! ```markdown
//! [a *b* c](#)
//!
//! ![a *b* c](#)
//! ```
//!
//! Yields:
//!
//! ```html
//! <p><a href="#">a <em>b</em> c</a></p>
//! <p><img src="#" alt="a b c" /></p>
//! ```
//!
//! It is possible to use images in links.
//! It’s somewhat possible to have links in images (the text will be used, not
//! the HTML, see above).
//! But it’s not possible to use links in links.
//! The “deepest” link wins.
//! To illustrate:
//!
//! ```markdown
//! a [b [c](#) d](#) e
//! ```
//!
//! Yields:
//!
//! ```html
//! <p>a [b <a href="#">c</a> d](#) e</p>
//! ```
//!
//! This limiation is imposed because links in links is invalid according to
//! HTML.
//! Technically though, in markdown it is still possible to construct them by
//! using an [autolink][] in a link.
//! You definitely should not do that.
//!
//! ## Tokens
//!
//! * [`Data`][Token::Data]
//! * [`Image`][Token::Image]
//! * [`Label`][Token::Label]
//! * [`LabelEnd`][Token::LabelEnd]
//! * [`LabelMarker`][Token::LabelMarker]
//! * [`LabelText`][Token::LabelText]
//! * [`LineEnding`][Token::LineEnding]
//! * [`Link`][Token::Link]
//! * [`Reference`][Token::Reference]
//! * [`ReferenceMarker`][Token::ReferenceMarker]
//! * [`ReferenceString`][Token::ReferenceString]
//! * [`Resource`][Token::Resource]
//! * [`ResourceDestination`][Token::ResourceDestination]
//! * [`ResourceDestinationLiteral`][Token::ResourceDestinationLiteral]
//! * [`ResourceDestinationLiteralMarker`][Token::ResourceDestinationLiteralMarker]
//! * [`ResourceDestinationRaw`][Token::ResourceDestinationRaw]
//! * [`ResourceDestinationString`][Token::ResourceDestinationString]
//! * [`ResourceMarker`][Token::ResourceMarker]
//! * [`ResourceTitle`][Token::ResourceTitle]
//! * [`ResourceTitleMarker`][Token::ResourceTitleMarker]
//! * [`ResourceTitleString`][Token::ResourceTitleString]
//! * [`SpaceOrTab`][Token::SpaceOrTab]
//!
//! ## References
//!
//! * [`label-end.js` in `micromark`](https://github.com/micromark/micromark/blob/main/packages/micromark-core-commonmark/dev/lib/label-end.js)
//! * [*§ 4.7 Link reference definitions* in `CommonMark`](https://spec.commonmark.org/0.30/#link-reference-definitions)
//! * [*§ 6.3 Links* in `CommonMark`](https://spec.commonmark.org/0.30/#links)
//! * [*§ 6.4 Images* in `CommonMark`](https://spec.commonmark.org/0.30/#images)
//!
//! [string]: crate::content::string
//! [text]: crate::content::text
//! [destination]: crate::construct::partial_destination
//! [title]: crate::construct::partial_title
//! [label]: crate::construct::partial_label
//! [label_start_image]: crate::construct::label_start_image
//! [label_start_link]: crate::construct::label_start_link
//! [definition]: crate::construct::definition
//! [autolink]: crate::construct::autolink
//! [sanitize_uri]: crate::util::sanitize_uri::sanitize_uri
//! [normalize_identifier]: crate::util::normalize_identifier::normalize_identifier
//! [html-a]: https://html.spec.whatwg.org/multipage/text-level-semantics.html#the-a-element
//! [html-img]: https://html.spec.whatwg.org/multipage/embedded-content.html#the-img-element
use crate::constant::RESOURCE_DESTINATION_BALANCE_MAX;
use crate::construct::partial_space_or_tab::space_or_tab_eol;
use crate::token::Token;
use crate::tokenizer::{Event, EventType, Media, State, StateName, Tokenizer};
use crate::util::{
normalize_identifier::normalize_identifier,
skip,
slice::{Position, Slice},
};
/// Start of label end.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// > | [a][b] c
/// ^
/// > | [a][] b
/// ^
/// > | [a] b
/// ```
pub fn start(tokenizer: &mut Tokenizer) -> State {
if Some(b']') == tokenizer.current && tokenizer.parse_state.constructs.label_end {
let mut label_start_index = None;
let mut index = tokenizer.label_start_stack.len();
while index > 0 {
index -= 1;
if !tokenizer.label_start_stack[index].balanced {
label_start_index = Some(index);
break;
}
}
// If there is an okay opening:
if let Some(label_start_index) = label_start_index {
let label_start = tokenizer
.label_start_stack
.get_mut(label_start_index)
.unwrap();
tokenizer.tokenize_state.start = label_start_index;
tokenizer.tokenize_state.end = tokenizer.events.len();
// Mark as balanced if the info is inactive.
if label_start.inactive {
return nok(tokenizer);
}
tokenizer.enter(Token::LabelEnd);
tokenizer.enter(Token::LabelMarker);
tokenizer.consume();
tokenizer.exit(Token::LabelMarker);
tokenizer.exit(Token::LabelEnd);
return State::Fn(StateName::LabelEndAfter);
}
}
State::Nok
}
/// After `]`.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// > | [a][b] c
/// ^
/// > | [a][] b
/// ^
/// > | [a] b
/// ^
/// ```
pub fn after(tokenizer: &mut Tokenizer) -> State {
let start = &tokenizer.label_start_stack[tokenizer.tokenize_state.start];
let defined = tokenizer
.parse_state
.definitions
.contains(&normalize_identifier(
// We don’t care about virtual spaces, so `indices` and `as_str` are fine.
Slice::from_indices(
tokenizer.parse_state.bytes,
tokenizer.events[start.start.1].point.index,
tokenizer.events[tokenizer.tokenize_state.end].point.index,
)
.as_str(),
));
match tokenizer.current {
// Resource (`[asd](fgh)`)?
Some(b'(') => tokenizer.attempt(
StateName::LabelEndResourceStart,
State::Fn(StateName::LabelEndOk),
State::Fn(if defined {
StateName::LabelEndOk
} else {
StateName::LabelEndNok
}),
),
// Full (`[asd][fgh]`) or collapsed (`[asd][]`) reference?
Some(b'[') => tokenizer.attempt(
StateName::LabelEndReferenceFull,
State::Fn(StateName::LabelEndOk),
State::Fn(if defined {
StateName::LabelEndReferenceNotFull
} else {
StateName::LabelEndNok
}),
),
// Shortcut (`[asd]`) reference?
_ => {
// To do: use state names?
let func = if defined { ok } else { nok };
func(tokenizer)
}
}
}
/// After `]`, at `[`, but not at a full reference.
///
/// > 👉 **Note**: we only get here if the label is defined.
///
/// ```markdown
/// > | [a][] b
/// ^
/// > | [a] b
/// ^
/// ```
pub fn reference_not_full(tokenizer: &mut Tokenizer) -> State {
tokenizer.attempt(
StateName::LabelEndReferenceCollapsed,
State::Fn(StateName::LabelEndOk),
State::Fn(StateName::LabelEndNok),
)
}
/// Done, we found something.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// > | [a][b] c
/// ^
/// > | [a][] b
/// ^
/// > | [a] b
/// ^
/// ```
pub fn ok(tokenizer: &mut Tokenizer) -> State {
let label_start_index = tokenizer.tokenize_state.start;
// Remove this one and everything after it.
let mut left = tokenizer.label_start_stack.split_off(label_start_index);
// Remove this one from `left`, as we’ll move it to `media_list`.
let label_start = left.remove(0);
tokenizer.label_start_list_loose.append(&mut left);
let is_link = tokenizer.events[label_start.start.0].token_type == Token::LabelLink;
if is_link {
let mut index = 0;
while index < tokenizer.label_start_stack.len() {
let label_start = &mut tokenizer.label_start_stack[index];
if tokenizer.events[label_start.start.0].token_type == Token::LabelLink {
label_start.inactive = true;
}
index += 1;
}
}
tokenizer.media_list.push(Media {
start: label_start.start,
end: (tokenizer.tokenize_state.end, tokenizer.events.len() - 1),
});
tokenizer.tokenize_state.start = 0;
tokenizer.tokenize_state.end = 0;
tokenizer.register_resolver_before("media".to_string(), Box::new(resolve_media));
State::Ok
}
/// Done, it’s nothing.
///
/// There was an okay opening, but we didn’t match anything.
///
/// ```markdown
/// > | [a](b c
/// ^
/// > | [a][b c
/// ^
/// > | [a] b
/// ^
/// ```
pub fn nok(tokenizer: &mut Tokenizer) -> State {
tokenizer
.label_start_stack
.get_mut(tokenizer.tokenize_state.start)
.unwrap()
.balanced = true;
tokenizer.tokenize_state.start = 0;
tokenizer.tokenize_state.end = 0;
State::Nok
}
/// Before a resource, at `(`.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// ```
pub fn resource_start(tokenizer: &mut Tokenizer) -> State {
match tokenizer.current {
Some(b'(') => {
tokenizer.enter(Token::Resource);
tokenizer.enter(Token::ResourceMarker);
tokenizer.consume();
tokenizer.exit(Token::ResourceMarker);
State::Fn(StateName::LabelEndResourceBefore)
}
_ => unreachable!("expected `(`"),
}
}
/// At the start of a resource, after `(`, before a destination.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// ```
pub fn resource_before(tokenizer: &mut Tokenizer) -> State {
let state_name = space_or_tab_eol(tokenizer);
tokenizer.attempt(
state_name,
State::Fn(StateName::LabelEndResourceOpen),
State::Fn(StateName::LabelEndResourceOpen),
)
}
/// At the start of a resource, after optional whitespace.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// ```
pub fn resource_open(tokenizer: &mut Tokenizer) -> State {
if let Some(b')') = tokenizer.current {
resource_end(tokenizer)
} else {
tokenizer.tokenize_state.token_1 = Token::ResourceDestination;
tokenizer.tokenize_state.token_2 = Token::ResourceDestinationLiteral;
tokenizer.tokenize_state.token_3 = Token::ResourceDestinationLiteralMarker;
tokenizer.tokenize_state.token_4 = Token::ResourceDestinationRaw;
tokenizer.tokenize_state.token_5 = Token::ResourceDestinationString;
tokenizer.tokenize_state.size_other = RESOURCE_DESTINATION_BALANCE_MAX;
tokenizer.attempt(
StateName::DestinationStart,
State::Fn(StateName::LabelEndResourceDestinationAfter),
State::Fn(StateName::LabelEndResourceDestinationMissing),
)
}
}
/// In a resource, after a destination, before optional whitespace.
///
/// ```markdown
/// > | [a](b) c
/// ^
/// ```
pub fn resource_destination_after(tokenizer: &mut Tokenizer) -> State {
tokenizer.tokenize_state.token_1 = Token::Data;
tokenizer.tokenize_state.token_2 = Token::Data;
tokenizer.tokenize_state.token_3 = Token::Data;
tokenizer.tokenize_state.token_4 = Token::Data;
tokenizer.tokenize_state.token_5 = Token::Data;
tokenizer.tokenize_state.size_other = 0;
let state_name = space_or_tab_eol(tokenizer);
tokenizer.attempt(
state_name,
State::Fn(StateName::LabelEndResourceBetween),
State::Fn(StateName::LabelEndResourceEnd),
)
}
/// Without destination.
pub fn resource_destination_missing(tokenizer: &mut Tokenizer) -> State {
tokenizer.tokenize_state.token_1 = Token::Data;
tokenizer.tokenize_state.token_2 = Token::Data;
tokenizer.tokenize_state.token_3 = Token::Data;
tokenizer.tokenize_state.token_4 = Token::Data;
tokenizer.tokenize_state.token_5 = Token::Data;
tokenizer.tokenize_state.size_other = 0;
State::Nok
}
/// In a resource, after a destination, after whitespace.
///
/// ```markdown
/// > | [a](b ) c
/// ^
/// ```
pub fn resource_between(tokenizer: &mut Tokenizer) -> State {
match tokenizer.current {
Some(b'"' | b'\'' | b'(') => {
tokenizer.tokenize_state.token_1 = Token::ResourceTitle;
tokenizer.tokenize_state.token_2 = Token::ResourceTitleMarker;
tokenizer.tokenize_state.token_3 = Token::ResourceTitleString;
tokenizer.attempt(
StateName::TitleStart,
State::Fn(StateName::LabelEndResourceTitleAfter),
State::Nok,
)
}
_ => resource_end(tokenizer),
}
}
/// In a resource, after a title.
///
/// ```markdown
/// > | [a](b "c") d
/// ^
/// ```
pub fn resource_title_after(tokenizer: &mut Tokenizer) -> State {
tokenizer.tokenize_state.token_1 = Token::Data;
tokenizer.tokenize_state.token_2 = Token::Data;
tokenizer.tokenize_state.token_3 = Token::Data;
let state_name = space_or_tab_eol(tokenizer);
tokenizer.attempt(
state_name,
State::Fn(StateName::LabelEndResourceEnd),
State::Fn(StateName::LabelEndResourceEnd),
)
}
/// In a resource, at the `)`.
///
/// ```markdown
/// > | [a](b) d
/// ^
/// ```
pub fn resource_end(tokenizer: &mut Tokenizer) -> State {
match tokenizer.current {
Some(b')') => {
tokenizer.enter(Token::ResourceMarker);
tokenizer.consume();
tokenizer.exit(Token::ResourceMarker);
tokenizer.exit(Token::Resource);
State::Ok
}
_ => State::Nok,
}
}
/// In a reference (full), at the `[`.
///
/// ```markdown
/// > | [a][b] d
/// ^
/// ```
pub fn reference_full(tokenizer: &mut Tokenizer) -> State {
match tokenizer.current {
Some(b'[') => {
tokenizer.tokenize_state.token_1 = Token::Reference;
tokenizer.tokenize_state.token_2 = Token::ReferenceMarker;
tokenizer.tokenize_state.token_3 = Token::ReferenceString;
tokenizer.attempt(
StateName::LabelStart,
State::Fn(StateName::LabelEndReferenceFullAfter),
State::Nok,
)
}
_ => unreachable!("expected `[`"),
}
}
/// In a reference (full), after `]`.
///
/// ```markdown
/// > | [a][b] d
/// ^
/// ```
pub fn reference_full_after(tokenizer: &mut Tokenizer) -> State {
tokenizer.tokenize_state.token_1 = Token::Data;
tokenizer.tokenize_state.token_2 = Token::Data;
tokenizer.tokenize_state.token_3 = Token::Data;
if tokenizer
.parse_state
.definitions
// We don’t care about virtual spaces, so `as_str` is fine.
.contains(&normalize_identifier(
Slice::from_position(
tokenizer.parse_state.bytes,
&Position::from_exit_event(
&tokenizer.events,
skip::to_back(
&tokenizer.events,
tokenizer.events.len() - 1,
&[Token::ReferenceString],
),
),
)
.as_str(),
))
{
State::Ok
} else {
State::Nok
}
}
/// In a reference (collapsed), at the `[`.
///
/// > 👉 **Note**: we only get here if the label is defined.
///
/// ```markdown
/// > | [a][] d
/// ^
/// ```
pub fn reference_collapsed(tokenizer: &mut Tokenizer) -> State {
match tokenizer.current {
Some(b'[') => {
tokenizer.enter(Token::Reference);
tokenizer.enter(Token::ReferenceMarker);
tokenizer.consume();
tokenizer.exit(Token::ReferenceMarker);
State::Fn(StateName::LabelEndReferenceCollapsedOpen)
}
_ => State::Nok,
}
}
/// In a reference (collapsed), at the `]`.
///
/// > 👉 **Note**: we only get here if the label is defined.
///
/// ```markdown
/// > | [a][] d
/// ^
/// ```
pub fn reference_collapsed_open(tokenizer: &mut Tokenizer) -> State {
match tokenizer.current {
Some(b']') => {
tokenizer.enter(Token::ReferenceMarker);
tokenizer.consume();
tokenizer.exit(Token::ReferenceMarker);
tokenizer.exit(Token::Reference);
State::Ok
}
_ => State::Nok,
}
}
/// Resolve media.
///
/// This turns correct label start (image, link) and label end into links and
/// images, or turns them back into data.
#[allow(clippy::too_many_lines)]
pub fn resolve_media(tokenizer: &mut Tokenizer) {
let mut left = tokenizer.label_start_list_loose.split_off(0);
let mut left_2 = tokenizer.label_start_stack.split_off(0);
let media = tokenizer.media_list.split_off(0);
left.append(&mut left_2);
let events = &tokenizer.events;
// Remove loose label starts.
let mut index = 0;
while index < left.len() {
let label_start = &left[index];
let data_enter_index = label_start.start.0;
let data_exit_index = label_start.start.1;
tokenizer.map.add(
data_enter_index,
data_exit_index - data_enter_index + 1,
vec![
Event {
event_type: EventType::Enter,
token_type: Token::Data,
point: events[data_enter_index].point.clone(),
link: None,
},
Event {
event_type: EventType::Exit,
token_type: Token::Data,
point: events[data_exit_index].point.clone(),
link: None,
},
],
);
index += 1;
}
// Add grouping events.
let mut index = 0;
while index < media.len() {
let media = &media[index];
// LabelLink:Enter or LabelImage:Enter.
let group_enter_index = media.start.0;
let group_enter_event = &events[group_enter_index];
// LabelLink:Exit or LabelImage:Exit.
let text_enter_index = media.start.0
+ (if group_enter_event.token_type == Token::LabelLink {
4
} else {
6
});
// LabelEnd:Enter.
let text_exit_index = media.end.0;
// LabelEnd:Exit.
let label_exit_index = media.end.0 + 3;
// Resource:Exit, etc.
let group_end_index = media.end.1;
// Insert a group enter and label enter.
tokenizer.map.add(
group_enter_index,
0,
vec![
Event {
event_type: EventType::Enter,
token_type: if group_enter_event.token_type == Token::LabelLink {
Token::Link
} else {
Token::Image
},
point: group_enter_event.point.clone(),
link: None,
},
Event {
event_type: EventType::Enter,
token_type: Token::Label,
point: group_enter_event.point.clone(),
link: None,
},
],
);
// Empty events not allowed.
if text_enter_index != text_exit_index {
// Insert a text enter.
tokenizer.map.add(
text_enter_index,
0,
vec![Event {
event_type: EventType::Enter,
token_type: Token::LabelText,
point: events[text_enter_index].point.clone(),
link: None,
}],
);
// Insert a text exit.
tokenizer.map.add(
text_exit_index,
0,
vec![Event {
event_type: EventType::Exit,
token_type: Token::LabelText,
point: events[text_exit_index].point.clone(),
link: None,
}],
);
}
// Insert a label exit.
tokenizer.map.add(
label_exit_index + 1,
0,
vec![Event {
event_type: EventType::Exit,
token_type: Token::Label,
point: events[label_exit_index].point.clone(),
link: None,
}],
);
// Insert a group exit.
tokenizer.map.add(
group_end_index + 1,
0,
vec![Event {
event_type: EventType::Exit,
token_type: if group_enter_event.token_type == Token::LabelLink {
Token::Link
} else {
Token::Image
},
point: events[group_end_index].point.clone(),
link: None,
}],
);
index += 1;
}
tokenizer.map.consume(&mut tokenizer.events);
}