compiler/rustc_expand/src/mbe/metavar_expr.rs - toolchain/rustc - Git at Google

 use rustc_ast::token::{self, Delimiter};
 use rustc_ast::tokenstream::{RefTokenTreeCursor, TokenStream, TokenTree};
 use rustc_ast::{LitIntType, LitKind};
 use rustc_ast_pretty::pprust;
 use rustc_errors::{Applicability, PResult};
 use rustc_session::parse::ParseSess;
 use rustc_span::symbol::Ident;
 use rustc_span::Span;

 /// A meta-variable expression, for expansions based on properties of meta-variables.
 #[derive(Debug, Clone, PartialEq, Encodable, Decodable)]
 pub(crate) enum MetaVarExpr {
     /// The number of repetitions of an identifier, optionally limited to a number
     /// of outer-most repetition depths. If the depth limit is `None` then the depth is unlimited.
     Count(Ident, Option<usize>),

     /// Ignore a meta-variable for repetition without expansion.
     Ignore(Ident),

     /// The index of the repetition at a particular depth, where 0 is the inner-most
     /// repetition. The `usize` is the depth.
     Index(usize),

     /// The length of the repetition at a particular depth, where 0 is the inner-most
     /// repetition. The `usize` is the depth.
     Length(usize),
 }

 impl MetaVarExpr {
     /// Attempt to parse a meta-variable expression from a token stream.
     pub(crate) fn parse<'sess>(
         input: &TokenStream,
         outer_span: Span,
         sess: &'sess ParseSess,
     ) -> PResult<'sess, MetaVarExpr> {
         let mut tts = input.trees();
         let ident = parse_ident(&mut tts, sess, outer_span)?;
         let Some(TokenTree::Delimited(_, Delimiter::Parenthesis, args)) = tts.next() else {
             let msg = "meta-variable expression parameter must be wrapped in parentheses";
             return Err(sess.span_diagnostic.struct_span_err(ident.span, msg));
         };
         check_trailing_token(&mut tts, sess)?;
         let mut iter = args.trees();
         let rslt = match ident.as_str() {
             "count" => parse_count(&mut iter, sess, ident.span)?,
             "ignore" => MetaVarExpr::Ignore(parse_ident(&mut iter, sess, ident.span)?),
             "index" => MetaVarExpr::Index(parse_depth(&mut iter, sess, ident.span)?),
             "length" => MetaVarExpr::Length(parse_depth(&mut iter, sess, ident.span)?),
             _ => {
                 let err_msg = "unrecognized meta-variable expression";
                 let mut err = sess.span_diagnostic.struct_span_err(ident.span, err_msg);
                 err.span_suggestion(
                     ident.span,
                     "supported expressions are count, ignore, index and length",
                     "",
                     Applicability::MachineApplicable,
                 );
                 return Err(err);
             }
         };
         check_trailing_token(&mut iter, sess)?;
         Ok(rslt)
     }

     pub(crate) fn ident(&self) -> Option<Ident> {
         match *self {
             MetaVarExpr::Count(ident, _) | MetaVarExpr::Ignore(ident) => Some(ident),
             MetaVarExpr::Index(..) | MetaVarExpr::Length(..) => None,
         }
     }
 }

 // Checks if there are any remaining tokens. For example, `${ignore(ident ... a b c ...)}`
 fn check_trailing_token<'sess>(
     iter: &mut RefTokenTreeCursor<'_>,
     sess: &'sess ParseSess,
 ) -> PResult<'sess, ()> {
     if let Some(tt) = iter.next() {
         let mut diag = sess
             .span_diagnostic
             .struct_span_err(tt.span(), format!("unexpected token: {}", pprust::tt_to_string(tt)));
         diag.span_note(tt.span(), "meta-variable expression must not have trailing tokens");
         Err(diag)
     } else {
         Ok(())
     }
 }

 /// Parse a meta-variable `count` expression: `count(ident[, depth])`
 fn parse_count<'sess>(
     iter: &mut RefTokenTreeCursor<'_>,
     sess: &'sess ParseSess,
     span: Span,
 ) -> PResult<'sess, MetaVarExpr> {
     let ident = parse_ident(iter, sess, span)?;
     let depth = if try_eat_comma(iter) {
         if iter.look_ahead(0).is_none() {
             return Err(sess.span_diagnostic.struct_span_err(
                 span,
                 "`count` followed by a comma must have an associated index indicating its depth",
             ));
         }
         Some(parse_depth(iter, sess, span)?)
     } else {
         None
     };
     Ok(MetaVarExpr::Count(ident, depth))
 }

 /// Parses the depth used by index(depth) and length(depth).
 fn parse_depth<'sess>(
     iter: &mut RefTokenTreeCursor<'_>,
     sess: &'sess ParseSess,
     span: Span,
 ) -> PResult<'sess, usize> {
     let Some(tt) = iter.next() else { return Ok(0) };
     let TokenTree::Token(token::Token { kind: token::TokenKind::Literal(lit), .. }, _) = tt else {
         return Err(sess
             .span_diagnostic
             .struct_span_err(span, "meta-variable expression depth must be a literal"));
     };
     if let Ok(lit_kind) = LitKind::from_token_lit(*lit)
         && let LitKind::Int(n_u128, LitIntType::Unsuffixed) = lit_kind
         && let Ok(n_usize) = usize::try_from(n_u128)
     {
         Ok(n_usize)
     } else {
         let msg = "only unsuffixes integer literals are supported in meta-variable expressions";
         Err(sess.span_diagnostic.struct_span_err(span, msg))
     }
 }

 /// Parses an generic ident
 fn parse_ident<'sess>(
     iter: &mut RefTokenTreeCursor<'_>,
     sess: &'sess ParseSess,
     span: Span,
 ) -> PResult<'sess, Ident> {
     if let Some(tt) = iter.next()
         && let TokenTree::Token(token, _) = tt
     {
         if let Some((elem, false)) = token.ident() {
             return Ok(elem);
         }
         let token_str = pprust::token_to_string(token);
         let mut err = sess
             .span_diagnostic
             .struct_span_err(span, format!("expected identifier, found `{}`", &token_str));
         err.span_suggestion(
             token.span,
             format!("try removing `{}`", &token_str),
             "",
             Applicability::MaybeIncorrect,
         );
         return Err(err);
     }
     Err(sess.span_diagnostic.struct_span_err(span, "expected identifier"))
 }

 /// Tries to move the iterator forward returning `true` if there is a comma. If not, then the
 /// iterator is not modified and the result is `false`.
 fn try_eat_comma(iter: &mut RefTokenTreeCursor<'_>) -> bool {
     if let Some(TokenTree::Token(token::Token { kind: token::Comma, .. }, _)) = iter.look_ahead(0) {
         let _ = iter.next();
         return true;
     }
     false
 }
	use rustc_ast::token::{self, Delimiter};
	use rustc_ast::tokenstream::{RefTokenTreeCursor, TokenStream, TokenTree};
	use rustc_ast::{LitIntType, LitKind};
	use rustc_ast_pretty::pprust;
	use rustc_errors::{Applicability, PResult};
	use rustc_session::parse::ParseSess;
	use rustc_span::symbol::Ident;
	use rustc_span::Span;

	/// A meta-variable expression, for expansions based on properties of meta-variables.
	#[derive(Debug, Clone, PartialEq, Encodable, Decodable)]
	pub(crate) enum MetaVarExpr {
	/// The number of repetitions of an identifier, optionally limited to a number
	/// of outer-most repetition depths. If the depth limit is `None` then the depth is unlimited.
	Count(Ident, Option<usize>),

	/// Ignore a meta-variable for repetition without expansion.
	Ignore(Ident),

	/// The index of the repetition at a particular depth, where 0 is the inner-most
	/// repetition. The `usize` is the depth.
	Index(usize),

	/// The length of the repetition at a particular depth, where 0 is the inner-most
	/// repetition. The `usize` is the depth.
	Length(usize),
	}

	impl MetaVarExpr {
	/// Attempt to parse a meta-variable expression from a token stream.
	pub(crate) fn parse<'sess>(
	input: &TokenStream,
	outer_span: Span,
	sess: &'sess ParseSess,
	) -> PResult<'sess, MetaVarExpr> {
	let mut tts = input.trees();
	let ident = parse_ident(&mut tts, sess, outer_span)?;
	let Some(TokenTree::Delimited(_, Delimiter::Parenthesis, args)) = tts.next() else {
	let msg = "meta-variable expression parameter must be wrapped in parentheses";
	return Err(sess.span_diagnostic.struct_span_err(ident.span, msg));
	};
	check_trailing_token(&mut tts, sess)?;
	let mut iter = args.trees();
	let rslt = match ident.as_str() {
	"count" => parse_count(&mut iter, sess, ident.span)?,
	"ignore" => MetaVarExpr::Ignore(parse_ident(&mut iter, sess, ident.span)?),
	"index" => MetaVarExpr::Index(parse_depth(&mut iter, sess, ident.span)?),
	"length" => MetaVarExpr::Length(parse_depth(&mut iter, sess, ident.span)?),
	_ => {
	let err_msg = "unrecognized meta-variable expression";
	let mut err = sess.span_diagnostic.struct_span_err(ident.span, err_msg);
	err.span_suggestion(
	ident.span,
	"supported expressions are count, ignore, index and length",
	"",
	Applicability::MachineApplicable,
	);
	return Err(err);
	}
	};
	check_trailing_token(&mut iter, sess)?;
	Ok(rslt)
	}

	pub(crate) fn ident(&self) -> Option<Ident> {
	match *self {
	MetaVarExpr::Count(ident, _) \| MetaVarExpr::Ignore(ident) => Some(ident),
	MetaVarExpr::Index(..) \| MetaVarExpr::Length(..) => None,
	}
	}
	}

	// Checks if there are any remaining tokens. For example, `${ignore(ident ... a b c ...)}`
	fn check_trailing_token<'sess>(
	iter: &mut RefTokenTreeCursor<'_>,
	sess: &'sess ParseSess,
	) -> PResult<'sess, ()> {
	if let Some(tt) = iter.next() {
	let mut diag = sess
	.span_diagnostic
	.struct_span_err(tt.span(), format!("unexpected token: {}", pprust::tt_to_string(tt)));
	diag.span_note(tt.span(), "meta-variable expression must not have trailing tokens");
	Err(diag)
	} else {
	Ok(())
	}
	}

	/// Parse a meta-variable `count` expression: `count(ident[, depth])`
	fn parse_count<'sess>(
	iter: &mut RefTokenTreeCursor<'_>,
	sess: &'sess ParseSess,
	span: Span,
	) -> PResult<'sess, MetaVarExpr> {
	let ident = parse_ident(iter, sess, span)?;
	let depth = if try_eat_comma(iter) {
	if iter.look_ahead(0).is_none() {
	return Err(sess.span_diagnostic.struct_span_err(
	span,
	"`count` followed by a comma must have an associated index indicating its depth",
	));
	}
	Some(parse_depth(iter, sess, span)?)
	} else {
	None
	};
	Ok(MetaVarExpr::Count(ident, depth))
	}

	/// Parses the depth used by index(depth) and length(depth).
	fn parse_depth<'sess>(
	iter: &mut RefTokenTreeCursor<'_>,
	sess: &'sess ParseSess,
	span: Span,
	) -> PResult<'sess, usize> {
	let Some(tt) = iter.next() else { return Ok(0) };
	let TokenTree::Token(token::Token { kind: token::TokenKind::Literal(lit), .. }, _) = tt else {
	return Err(sess
	.span_diagnostic
	.struct_span_err(span, "meta-variable expression depth must be a literal"));
	};
	if let Ok(lit_kind) = LitKind::from_token_lit(*lit)
	&& let LitKind::Int(n_u128, LitIntType::Unsuffixed) = lit_kind
	&& let Ok(n_usize) = usize::try_from(n_u128)
	{
	Ok(n_usize)
	} else {
	let msg = "only unsuffixes integer literals are supported in meta-variable expressions";
	Err(sess.span_diagnostic.struct_span_err(span, msg))
	}
	}

	/// Parses an generic ident
	fn parse_ident<'sess>(
	iter: &mut RefTokenTreeCursor<'_>,
	sess: &'sess ParseSess,
	span: Span,
	) -> PResult<'sess, Ident> {
	if let Some(tt) = iter.next()
	&& let TokenTree::Token(token, _) = tt
	{
	if let Some((elem, false)) = token.ident() {
	return Ok(elem);
	}
	let token_str = pprust::token_to_string(token);
	let mut err = sess
	.span_diagnostic
	.struct_span_err(span, format!("expected identifier, found `{}`", &token_str));
	err.span_suggestion(
	token.span,
	format!("try removing `{}`", &token_str),
	"",
	Applicability::MaybeIncorrect,
	);
	return Err(err);
	}
	Err(sess.span_diagnostic.struct_span_err(span, "expected identifier"))
	}

	/// Tries to move the iterator forward returning `true` if there is a comma. If not, then the
	/// iterator is not modified and the result is `false`.
	fn try_eat_comma(iter: &mut RefTokenTreeCursor<'_>) -> bool {
	if let Some(TokenTree::Token(token::Token { kind: token::Comma, .. }, _)) = iter.look_ahead(0) {
	let _ = iter.next();
	return true;
	}
	false
	}