rust/crates/mbe/src/parser.rs

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//! Parser recognizes special macro syntax, `$var` and `$(repeat)*`, in token
//! trees.
use smallvec::{smallvec, SmallVec};
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use syntax::SmolStr;
use tt::Span;
use crate::{tt_iter::TtIter, ParseError};
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/// Consider
///
/// ```
/// macro_rules! an_macro {
/// ($x:expr + $y:expr) => ($y * $x)
/// }
/// ```
///
/// Stuff to the left of `=>` is a [`MetaTemplate`] pattern (which is matched
/// with input).
///
/// Stuff to the right is a [`MetaTemplate`] template which is used to produce
/// output.
#[derive(Clone, Debug, PartialEq, Eq)]
pub(crate) struct MetaTemplate<S>(pub(crate) Box<[Op<S>]>);
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impl<S: Span> MetaTemplate<S> {
pub(crate) fn parse_pattern(pattern: &tt::Subtree<S>) -> Result<Self, ParseError> {
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MetaTemplate::parse(pattern, Mode::Pattern)
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}
pub(crate) fn parse_template(template: &tt::Subtree<S>) -> Result<Self, ParseError> {
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MetaTemplate::parse(template, Mode::Template)
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}
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pub(crate) fn iter(&self) -> impl Iterator<Item = &Op<S>> {
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self.0.iter()
}
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fn parse(tt: &tt::Subtree<S>, mode: Mode) -> Result<Self, ParseError> {
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let mut src = TtIter::new(tt);
let mut res = Vec::new();
while let Some(first) = src.peek_n(0) {
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let op = next_op(first, &mut src, mode)?;
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res.push(op);
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}
Ok(MetaTemplate(res.into_boxed_slice()))
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}
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}
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#[derive(Clone, Debug, PartialEq, Eq)]
pub(crate) enum Op<S> {
Var { name: SmolStr, kind: Option<MetaVarKind>, id: S },
Ignore { name: SmolStr, id: S },
Index { depth: usize },
Count { name: SmolStr, depth: Option<usize> },
Repeat { tokens: MetaTemplate<S>, kind: RepeatKind, separator: Option<Separator<S>> },
Subtree { tokens: MetaTemplate<S>, delimiter: tt::Delimiter<S> },
Literal(tt::Literal<S>),
Punct(SmallVec<[tt::Punct<S>; 3]>),
Ident(tt::Ident<S>),
}
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#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub(crate) enum RepeatKind {
ZeroOrMore,
OneOrMore,
ZeroOrOne,
}
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub(crate) enum MetaVarKind {
Path,
Ty,
Pat,
PatParam,
Stmt,
Block,
Meta,
Item,
Vis,
Expr,
Ident,
Tt,
Lifetime,
Literal,
}
#[derive(Clone, Debug, Eq)]
pub(crate) enum Separator<S> {
Literal(tt::Literal<S>),
Ident(tt::Ident<S>),
Puncts(SmallVec<[tt::Punct<S>; 3]>),
}
// Note that when we compare a Separator, we just care about its textual value.
impl<S> PartialEq for Separator<S> {
fn eq(&self, other: &Separator<S>) -> bool {
use Separator::*;
match (self, other) {
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(Ident(a), Ident(b)) => a.text == b.text,
(Literal(a), Literal(b)) => a.text == b.text,
(Puncts(a), Puncts(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,
}
}
}
#[derive(Clone, Copy)]
enum Mode {
Pattern,
Template,
}
fn next_op<S: Span>(
first_peeked: &tt::TokenTree<S>,
src: &mut TtIter<'_, S>,
mode: Mode,
) -> Result<Op<S>, ParseError> {
let res = match first_peeked {
tt::TokenTree::Leaf(tt::Leaf::Punct(p @ tt::Punct { char: '$', .. })) => {
src.next().expect("first token already peeked");
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// Note that the '$' itself is a valid token inside macro_rules.
let second = match src.next() {
None => return Ok(Op::Punct(smallvec![*p])),
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Some(it) => it,
};
match second {
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tt::TokenTree::Subtree(subtree) => match subtree.delimiter.kind {
tt::DelimiterKind::Parenthesis => {
let (separator, kind) = parse_repeat(src)?;
let tokens = MetaTemplate::parse(subtree, mode)?;
Op::Repeat { tokens, separator, kind }
}
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tt::DelimiterKind::Brace => match mode {
Mode::Template => {
parse_metavar_expr(&mut TtIter::new(subtree)).map_err(|()| {
ParseError::unexpected("invalid metavariable expression")
})?
}
Mode::Pattern => {
return Err(ParseError::unexpected(
"`${}` metavariable expressions are not allowed in matchers",
))
}
},
_ => {
return Err(ParseError::expected(
"expected `$()` repetition or `${}` expression",
))
}
},
tt::TokenTree::Leaf(leaf) => match leaf {
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tt::Leaf::Ident(ident) if ident.text == "crate" => {
// We simply produce identifier `$crate` here. And it will be resolved when lowering ast to Path.
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Op::Ident(tt::Ident { text: "$crate".into(), span: ident.span })
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}
tt::Leaf::Ident(ident) => {
let kind = eat_fragment_kind(src, mode)?;
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let name = ident.text.clone();
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let id = ident.span;
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Op::Var { name, kind, id }
}
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tt::Leaf::Literal(lit) if is_boolean_literal(lit) => {
let kind = eat_fragment_kind(src, mode)?;
let name = lit.text.clone();
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let id = lit.span;
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Op::Var { name, kind, id }
}
tt::Leaf::Punct(punct @ tt::Punct { char: '$', .. }) => match mode {
Mode::Pattern => {
return Err(ParseError::unexpected(
"`$$` is not allowed on the pattern side",
))
}
Mode::Template => Op::Punct(smallvec![*punct]),
},
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tt::Leaf::Punct(_) | tt::Leaf::Literal(_) => {
return Err(ParseError::expected("expected ident"))
}
},
}
}
tt::TokenTree::Leaf(tt::Leaf::Literal(it)) => {
src.next().expect("first token already peeked");
Op::Literal(it.clone())
}
tt::TokenTree::Leaf(tt::Leaf::Ident(it)) => {
src.next().expect("first token already peeked");
Op::Ident(it.clone())
}
tt::TokenTree::Leaf(tt::Leaf::Punct(_)) => {
// There's at least one punct so this shouldn't fail.
let puncts = src.expect_glued_punct().unwrap();
Op::Punct(puncts)
}
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tt::TokenTree::Subtree(subtree) => {
src.next().expect("first token already peeked");
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let tokens = MetaTemplate::parse(subtree, mode)?;
Op::Subtree { tokens, delimiter: subtree.delimiter }
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}
};
Ok(res)
}
fn eat_fragment_kind<S: Span>(
src: &mut TtIter<'_, S>,
mode: Mode,
) -> Result<Option<MetaVarKind>, ParseError> {
if let Mode::Pattern = mode {
src.expect_char(':').map_err(|()| ParseError::unexpected("missing fragment specifier"))?;
let ident = src
.expect_ident()
.map_err(|()| ParseError::unexpected("missing fragment specifier"))?;
let kind = match ident.text.as_str() {
"path" => MetaVarKind::Path,
"ty" => MetaVarKind::Ty,
"pat" => MetaVarKind::Pat,
"pat_param" => MetaVarKind::PatParam,
"stmt" => MetaVarKind::Stmt,
"block" => MetaVarKind::Block,
"meta" => MetaVarKind::Meta,
"item" => MetaVarKind::Item,
"vis" => MetaVarKind::Vis,
"expr" => MetaVarKind::Expr,
"ident" => MetaVarKind::Ident,
"tt" => MetaVarKind::Tt,
"lifetime" => MetaVarKind::Lifetime,
"literal" => MetaVarKind::Literal,
_ => return Ok(None),
};
return Ok(Some(kind));
};
Ok(None)
}
fn is_boolean_literal<S>(lit: &tt::Literal<S>) -> bool {
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matches!(lit.text.as_str(), "true" | "false")
}
fn parse_repeat<S: Span>(
src: &mut TtIter<'_, S>,
) -> Result<(Option<Separator<S>>, RepeatKind), ParseError> {
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(ParseError::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(ParseError::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,
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_ => match &mut separator {
Separator::Puncts(puncts) if puncts.len() != 3 => {
puncts.push(*punct);
continue;
}
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_ => return Err(ParseError::InvalidRepeat),
},
};
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return Ok((has_sep.then_some(separator), repeat_kind));
}
}
}
Err(ParseError::InvalidRepeat)
}
fn parse_metavar_expr<S: Span>(src: &mut TtIter<'_, S>) -> Result<Op<S>, ()> {
let func = src.expect_ident()?;
let args = src.expect_subtree()?;
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if args.delimiter.kind != tt::DelimiterKind::Parenthesis {
return Err(());
}
let mut args = TtIter::new(args);
let op = match &*func.text {
"ignore" => {
let ident = args.expect_ident()?;
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Op::Ignore { name: ident.text.clone(), id: ident.span }
}
"index" => Op::Index { depth: parse_depth(&mut args)? },
"count" => {
let ident = args.expect_ident()?;
// `${count(t)}` and `${count(t,)}` have different meanings. Not sure if this is a bug
// but that's how it's implemented in rustc as of this writing. See rust-lang/rust#111904.
let depth = if try_eat_comma(&mut args) { Some(parse_depth(&mut args)?) } else { None };
Op::Count { name: ident.text.clone(), depth }
}
_ => return Err(()),
};
if args.next().is_some() {
return Err(());
}
Ok(op)
}
fn parse_depth<S: Span>(src: &mut TtIter<'_, S>) -> Result<usize, ()> {
if src.len() == 0 {
Ok(0)
} else if let tt::Leaf::Literal(lit) = src.expect_literal()? {
// Suffixes are not allowed.
lit.text.parse().map_err(|_| ())
} else {
Err(())
}
}
fn try_eat_comma<S: Span>(src: &mut TtIter<'_, S>) -> bool {
if let Some(tt::TokenTree::Leaf(tt::Leaf::Punct(tt::Punct { char: ',', .. }))) = src.peek_n(0) {
let _ = src.next();
return true;
}
false
}