//! Parser recognizes special macro syntax, `$var` and `$(repeat)*`, in token //! trees. use smallvec::SmallVec; use syntax::SmolStr; use crate::{tt_iter::TtIter, ExpandError, MetaTemplate}; #[derive(Clone, Debug, PartialEq, Eq)] pub(crate) enum Op { Var { name: SmolStr, kind: Option }, Repeat { subtree: MetaTemplate, kind: RepeatKind, separator: Option }, Leaf(tt::Leaf), Subtree(MetaTemplate), } #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub(crate) enum RepeatKind { ZeroOrMore, OneOrMore, ZeroOrOne, } #[derive(Clone, Debug, Eq)] pub(crate) enum Separator { Literal(tt::Literal), Ident(tt::Ident), Puncts(SmallVec<[tt::Punct; 3]>), } // Note that when we compare a Separator, we just care about its textual value. impl PartialEq for Separator { fn eq(&self, other: &Separator) -> bool { use Separator::*; match (self, other) { (Ident(ref a), Ident(ref b)) => a.text == b.text, (Literal(ref a), Literal(ref b)) => a.text == b.text, (Puncts(ref a), Puncts(ref b)) if a.len() == b.len() => { let a_iter = a.iter().map(|a| a.char); let b_iter = b.iter().map(|b| b.char); a_iter.eq(b_iter) } _ => false, } } } pub(crate) fn parse_template(template: &tt::Subtree) -> Vec> { parse_inner(&template, Mode::Template) } pub(crate) fn parse_pattern(pattern: &tt::Subtree) -> Vec> { parse_inner(&pattern, Mode::Pattern) } #[derive(Clone, Copy)] enum Mode { Pattern, Template, } fn parse_inner(tt: &tt::Subtree, mode: Mode) -> Vec> { let mut src = TtIter::new(&tt); std::iter::from_fn(move || { let first = src.next()?; Some(next_op(first, &mut src, mode)) }) .collect() } macro_rules! err { ($($tt:tt)*) => { ExpandError::UnexpectedToken }; } macro_rules! bail { ($($tt:tt)*) => { return Err(err!($($tt)*)) }; } fn next_op<'a>(first: &tt::TokenTree, src: &mut TtIter<'a>, mode: Mode) -> Result { let res = match first { tt::TokenTree::Leaf(leaf @ tt::Leaf::Punct(tt::Punct { char: '$', .. })) => { // Note that the '$' itself is a valid token inside macro_rules. let second = match src.next() { None => return Ok(Op::Leaf(leaf.clone())), Some(it) => it, }; match second { tt::TokenTree::Subtree(subtree) => { let (separator, kind) = parse_repeat(src)?; let delimiter = subtree.delimiter; let tokens = parse_inner(&subtree, mode); let subtree = MetaTemplate { tokens, delimiter }; Op::Repeat { subtree, separator, kind } } tt::TokenTree::Leaf(leaf) => match leaf { tt::Leaf::Punct(punct) => { static UNDERSCORE: SmolStr = SmolStr::new_inline("_"); if punct.char != '_' { return Err(ExpandError::UnexpectedToken); } let name = UNDERSCORE.clone(); let kind = eat_fragment_kind(src, mode)?; Op::Var { name, kind } } tt::Leaf::Ident(ident) => { let name = ident.text.clone(); let kind = eat_fragment_kind(src, mode)?; Op::Var { name, kind } } tt::Leaf::Literal(lit) => { if is_boolean_literal(&lit) { let name = lit.text.clone(); let kind = eat_fragment_kind(src, mode)?; Op::Var { name, kind } } else { bail!("bad var 2"); } } }, } } tt::TokenTree::Leaf(tt) => Op::Leaf(tt.clone()), tt::TokenTree::Subtree(subtree) => { let delimiter = subtree.delimiter; let tokens = parse_inner(&subtree, mode); let subtree = MetaTemplate { tokens, delimiter }; Op::Subtree(subtree) } }; Ok(res) } fn eat_fragment_kind<'a>(src: &mut TtIter<'a>, mode: Mode) -> Result, ExpandError> { if let Mode::Pattern = mode { src.expect_char(':').map_err(|()| err!("bad fragment specifier 1"))?; let ident = src.expect_ident().map_err(|()| err!("bad fragment specifier 1"))?; return Ok(Some(ident.text.clone())); }; Ok(None) } fn is_boolean_literal(lit: &tt::Literal) -> bool { matches!(lit.text.as_str(), "true" | "false") } fn parse_repeat(src: &mut TtIter) -> Result<(Option, RepeatKind), ExpandError> { let mut separator = Separator::Puncts(SmallVec::new()); for tt in src { let tt = match tt { tt::TokenTree::Leaf(leaf) => leaf, tt::TokenTree::Subtree(_) => return Err(ExpandError::InvalidRepeat), }; let has_sep = match &separator { Separator::Puncts(puncts) => !puncts.is_empty(), _ => true, }; match tt { tt::Leaf::Ident(_) | tt::Leaf::Literal(_) if has_sep => { return Err(ExpandError::InvalidRepeat) } tt::Leaf::Ident(ident) => separator = Separator::Ident(ident.clone()), tt::Leaf::Literal(lit) => separator = Separator::Literal(lit.clone()), tt::Leaf::Punct(punct) => { let repeat_kind = match punct.char { '*' => RepeatKind::ZeroOrMore, '+' => RepeatKind::OneOrMore, '?' => RepeatKind::ZeroOrOne, _ => { match &mut separator { Separator::Puncts(puncts) => { if puncts.len() == 3 { return Err(ExpandError::InvalidRepeat); } puncts.push(punct.clone()) } _ => return Err(ExpandError::InvalidRepeat), } continue; } }; let separator = if has_sep { Some(separator) } else { None }; return Ok((separator, repeat_kind)); } } } Err(ExpandError::InvalidRepeat) }