//! Data occurs in the [string][] and [text][] content types. //! //! It can include anything (except for line endings) and stops at certain //! characters. //! //! [string]: crate::construct::string //! [text]: crate::construct::text use crate::event::{Kind, Name}; use crate::state::{Name as StateName, State}; use crate::subtokenize::Subresult; use crate::tokenizer::Tokenizer; use alloc::vec; /// At beginning of data. /// /// ```markdown /// > | abc /// ^ /// ``` pub fn start(tokenizer: &mut Tokenizer) -> State { // Make sure to eat the first `markers`. if let Some(byte) = tokenizer.current { if tokenizer.tokenize_state.markers.contains(&byte) { tokenizer.enter(Name::Data); tokenizer.consume(); return State::Next(StateName::DataInside); } } State::Retry(StateName::DataAtBreak) } /// Before something. /// /// ```markdown /// > | abc /// ^ /// ``` pub fn at_break(tokenizer: &mut Tokenizer) -> State { if let Some(byte) = tokenizer.current { if !tokenizer.tokenize_state.markers.contains(&byte) { if byte == b'\n' { tokenizer.enter(Name::LineEnding); tokenizer.consume(); tokenizer.exit(Name::LineEnding); return State::Next(StateName::DataAtBreak); } tokenizer.enter(Name::Data); return State::Retry(StateName::DataInside); } } State::Ok } /// In data. /// /// ```markdown /// > | abc /// ^^^ /// ``` pub fn inside(tokenizer: &mut Tokenizer) -> State { if let Some(byte) = tokenizer.current { if byte != b'\n' && !tokenizer.tokenize_state.markers.contains(&byte) { tokenizer.consume(); return State::Next(StateName::DataInside); } } tokenizer.exit(Name::Data); State::Retry(StateName::DataAtBreak) } /// Merge adjacent data events. pub fn resolve(tokenizer: &mut Tokenizer) -> Option { let mut index = 0; // Loop through events and merge adjacent data events. while index < tokenizer.events.len() { let event = &tokenizer.events[index]; if event.kind == Kind::Enter && event.name == Name::Data { // Move to exit. index += 1; let mut exit_index = index; // Find the farthest `data` event exit event. while exit_index + 1 < tokenizer.events.len() && tokenizer.events[exit_index + 1].name == Name::Data { exit_index += 2; } if exit_index > index { tokenizer.map.add(index, exit_index - index, vec![]); // Change positional info. tokenizer.events[index].point = tokenizer.events[exit_index].point.clone(); // Move to the end. index = exit_index; } } index += 1; } None }