//! Turn bytes of markdown into events. use crate::event::{Event, Point}; use crate::state::{Name as StateName, State}; use crate::subtokenize::subtokenize; use crate::tokenizer::Tokenizer; use crate::util::location::Location; use crate::ParseOptions; use alloc::{string::String, vec, vec::Vec}; /// Info needed, in all content types, when parsing markdown. /// /// Importantly, this contains a set of known definitions. /// It also references the input value as bytes (`u8`). #[derive(Debug)] pub struct ParseState<'a> { /// Configuration. pub location: Option, /// Configuration. pub options: &'a ParseOptions, /// List of chars. pub bytes: &'a [u8], /// Set of defined definition identifiers. pub definitions: Vec, /// Set of defined GFM footnote definition identifiers. pub gfm_footnote_definitions: Vec, } /// Turn a string of markdown into events. /// /// Passes the bytes back so the compiler can access the source. pub fn parse<'a>( value: &'a str, options: &'a ParseOptions, ) -> Result<(Vec, ParseState<'a>), String> { let bytes = value.as_bytes(); let mut parse_state = ParseState { options, bytes, location: if options.mdx_esm_parse.is_some() || options.mdx_expression_parse.is_some() { Some(Location::new(bytes)) } else { None }, definitions: vec![], gfm_footnote_definitions: vec![], }; let start = Point { line: 1, column: 1, index: 0, vs: 0, }; let mut tokenizer = Tokenizer::new(start, &parse_state); let state = tokenizer.push( (0, 0), (parse_state.bytes.len(), 0), State::Next(StateName::DocumentStart), ); let mut result = tokenizer.flush(state, true)?; let mut events = tokenizer.events; loop { let fn_defs = &mut parse_state.gfm_footnote_definitions; let defs = &mut parse_state.definitions; fn_defs.append(&mut result.gfm_footnote_definitions); defs.append(&mut result.definitions); if result.done { break; } result = subtokenize(&mut events, &parse_state, &None)?; } Ok((events, parse_state)) }