//! Label occurs in [definition][] and label end. //! //! They’re formed with the following BNF: //! //! ```bnf //! ; Restriction: maximum `999` codes allowed between brackets. //! ; Restriction: no blank lines. //! ; Restriction: at least 1 non-space and non-eol code must exist. //! label ::= '[' *( label_text | label_escape ) ']' //! label_text ::= code - '[' - '\\' - ']' //! label_escape ::= '\\' [ '[' | '\\' | ']' ] //! ``` //! //! The maximum allowed size of the label, without the brackets, is `999` //! (inclusive), which is defined in //! [`LINK_REFERENCE_SIZE_MAX`][link_reference_size_max]. //! //! Labels can contain line endings and whitespace, but they are not allowed to //! contain blank lines, and they must not be blank themselves. //! //! The label is interpreted as the [string][] content type. //! That means that [character escapes][character_escape] and //! [character references][character_reference] are allowed. //! //! > 👉 **Note**: this label relates to, but is not, the initial “label” of //! > what is know as a reference in markdown: //! > //! > | Kind | Link | Image | //! > | --------- | -------- | --------- | //! > | Shortcut | `[x]` | `![x]` | //! > | Collapsed | `[x][]` | `![x][]` | //! > | Full | `[x][y]` | `![x][y]` | //! > //! > The 6 above things are references, in the three kinds they come in, as //! > links and images. //! > The label that this module focusses on is only the thing that contains //! > `y`. //! > //! > The thing that contains `x` is not a single thing when parsing markdown, //! > but instead constists of an opening //! > ([label start (image)][label_start_image] or //! > [label start (link)][label_start_link]) and a closing //! > ([label end][label_end]), so as to allow further phrasing such as //! > [code (text)][code_text] or [attention][]. //! //! ## References //! //! * [`micromark-factory-label/index.js` in `micromark`](https://github.com/micromark/micromark/blob/main/packages/micromark-factory-label/dev/index.js) //! //! [definition]: crate::construct::definition //! [string]: crate::content::string //! [attention]: crate::construct::attention //! [character_escape]: crate::construct::character_escape //! [character_reference]: crate::construct::character_reference //! [label_start_image]: crate::construct::label_start_image //! [label_start_link]: crate::construct::label_start_link //! [label_end]: crate::construct::label_end //! [code_text]: crate::construct::code_text //! [link_reference_size_max]: crate::constant::LINK_REFERENCE_SIZE_MAX use super::partial_space_or_tab::{space_or_tab_eol_with_options, EolOptions}; use crate::constant::LINK_REFERENCE_SIZE_MAX; use crate::subtokenize::link; use crate::token::Token; use crate::tokenizer::{ContentType, State, Tokenizer}; /// Configuration. /// /// You must pass the token types in that are used. #[derive(Debug)] pub struct Options { /// Token for the whole label. pub label: Token, /// Token for the markers. pub marker: Token, /// Token for the string (inside the markers). pub string: Token, } /// State needed to parse labels. #[derive(Debug)] struct Info { /// Whether we’ve seen our first `ChunkString`. connect: bool, /// Whether there are non-blank characters in the label. data: bool, /// Number of characters in the label. size: usize, /// Configuration. options: Options, } /// Before a label. /// /// ```markdown /// > | [a] /// ^ /// ``` pub fn start(tokenizer: &mut Tokenizer, options: Options) -> State { match tokenizer.current { Some('[') => { let info = Info { connect: false, data: false, size: 0, options, }; tokenizer.enter(info.options.label.clone()); tokenizer.enter(info.options.marker.clone()); tokenizer.consume(); tokenizer.exit(info.options.marker.clone()); tokenizer.enter(info.options.string.clone()); State::Fn(Box::new(|t| at_break(t, info))) } _ => State::Nok, } } /// In a label, at something. /// /// ```markdown /// > | [a] /// ^ /// ``` fn at_break(tokenizer: &mut Tokenizer, mut info: Info) -> State { match tokenizer.current { None | Some('[') => State::Nok, Some(']') if !info.data => State::Nok, _ if info.size > LINK_REFERENCE_SIZE_MAX => State::Nok, Some(']') => { tokenizer.exit(info.options.string.clone()); tokenizer.enter(info.options.marker.clone()); tokenizer.consume(); tokenizer.exit(info.options.marker.clone()); tokenizer.exit(info.options.label); State::Ok } Some('\n') => tokenizer.go( space_or_tab_eol_with_options(EolOptions { content_type: Some(ContentType::String), connect: info.connect, }), |t| { info.connect = true; at_break(t, info) }, )(tokenizer), _ => { tokenizer.enter_with_content(Token::Data, Some(ContentType::String)); if info.connect { let index = tokenizer.events.len() - 1; link(&mut tokenizer.events, index); } else { info.connect = true; } label(tokenizer, info) } } } /// In a label, in text. /// /// ```markdown /// > | [a] /// ^ /// ``` fn label(tokenizer: &mut Tokenizer, mut info: Info) -> State { match tokenizer.current { None | Some('\n' | '[' | ']') => { tokenizer.exit(Token::Data); at_break(tokenizer, info) } _ if info.size > LINK_REFERENCE_SIZE_MAX => { tokenizer.exit(Token::Data); at_break(tokenizer, info) } Some('\t' | ' ') => { tokenizer.consume(); info.size += 1; State::Fn(Box::new(|t| label(t, info))) } Some('\\') => { tokenizer.consume(); info.size += 1; if !info.data { info.data = true; } State::Fn(Box::new(|t| escape(t, info))) } Some(_) => { tokenizer.consume(); info.size += 1; if !info.data { info.data = true; } State::Fn(Box::new(|t| label(t, info))) } } } /// After `\` in a label. /// /// ```markdown /// > | [a\*a] /// ^ /// ``` fn escape(tokenizer: &mut Tokenizer, mut info: Info) -> State { match tokenizer.current { Some('[' | '\\' | ']') => { tokenizer.consume(); info.size += 1; State::Fn(Box::new(|t| label(t, info))) } _ => label(tokenizer, info), } }