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pub use BinOpToken::*;
pub use DelimToken::*;
pub use LitKind::*;
pub use Nonterminal::*;
pub use TokenKind::*;
use crate::ast;
use crate::ptr::P;
use crate::tokenstream::TokenTree;
use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
use rustc_data_structures::sync::Lrc;
use rustc_macros::HashStable_Generic;
use rustc_span::symbol::kw;
use rustc_span::symbol::Symbol;
use rustc_span::{self, Span, DUMMY_SP};
use std::borrow::Cow;
use std::{fmt, mem};
#[derive(Clone, PartialEq, RustcEncodable, RustcDecodable, Hash, Debug, Copy)]
#[derive(HashStable_Generic)]
pub enum BinOpToken {
Plus,
Minus,
Star,
Slash,
Percent,
Caret,
And,
Or,
Shl,
Shr,
}
/// A delimiter token.
#[derive(Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Debug, Copy)]
#[derive(HashStable_Generic)]
pub enum DelimToken {
/// A round parenthesis (i.e., `(` or `)`).
Paren,
/// A square bracket (i.e., `[` or `]`).
Bracket,
/// A curly brace (i.e., `{` or `}`).
Brace,
/// An empty delimiter.
NoDelim,
}
impl DelimToken {
pub fn len(self) -> usize {
if self == NoDelim { 0 } else { 1 }
}
pub fn is_empty(self) -> bool {
self == NoDelim
}
}
#[derive(Clone, Copy, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable_Generic)]
pub enum LitKind {
Bool, // AST only, must never appear in a `Token`
Byte,
Char,
Integer,
Float,
Str,
StrRaw(u16), // raw string delimited by `n` hash symbols
ByteStr,
ByteStrRaw(u16), // raw byte string delimited by `n` hash symbols
Err,
}
/// A literal token.
#[derive(Clone, Copy, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable_Generic)]
pub struct Lit {
pub kind: LitKind,
pub symbol: Symbol,
pub suffix: Option<Symbol>,
}
impl fmt::Display for Lit {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let Lit { kind, symbol, suffix } = *self;
match kind {
Byte => write!(f, "b'{}'", symbol)?,
Char => write!(f, "'{}'", symbol)?,
Str => write!(f, "\"{}\"", symbol)?,
StrRaw(n) => write!(
f,
"r{delim}\"{string}\"{delim}",
delim = "#".repeat(n as usize),
string = symbol
)?,
ByteStr => write!(f, "b\"{}\"", symbol)?,
ByteStrRaw(n) => write!(
f,
"br{delim}\"{string}\"{delim}",
delim = "#".repeat(n as usize),
string = symbol
)?,
Integer | Float | Bool | Err => write!(f, "{}", symbol)?,
}
if let Some(suffix) = suffix {
write!(f, "{}", suffix)?;
}
Ok(())
}
}
impl LitKind {
/// An English article for the literal token kind.
pub fn article(self) -> &'static str {
match self {
Integer | Err => "an",
_ => "a",
}
}
pub fn descr(self) -> &'static str {
match self {
Bool => panic!("literal token contains `Lit::Bool`"),
Byte => "byte",
Char => "char",
Integer => "integer",
Float => "float",
Str | StrRaw(..) => "string",
ByteStr | ByteStrRaw(..) => "byte string",
Err => "error",
}
}
crate fn may_have_suffix(self) -> bool {
match self {
Integer | Float | Err => true,
_ => false,
}
}
}
impl Lit {
pub fn new(kind: LitKind, symbol: Symbol, suffix: Option<Symbol>) -> Lit {
Lit { kind, symbol, suffix }
}
}
pub fn ident_can_begin_expr(name: ast::Name, span: Span, is_raw: bool) -> bool {
let ident_token = Token::new(Ident(name, is_raw), span);
!ident_token.is_reserved_ident()
|| ident_token.is_path_segment_keyword()
|| [
kw::Async,
kw::Do,
kw::Box,
kw::Break,
kw::Continue,
kw::False,
kw::For,
kw::If,
kw::Let,
kw::Loop,
kw::Match,
kw::Move,
kw::Return,
kw::True,
kw::Unsafe,
kw::While,
kw::Yield,
kw::Static,
]
.contains(&name)
}
fn ident_can_begin_type(name: ast::Name, span: Span, is_raw: bool) -> bool {
let ident_token = Token::new(Ident(name, is_raw), span);
!ident_token.is_reserved_ident()
|| ident_token.is_path_segment_keyword()
|| [kw::Underscore, kw::For, kw::Impl, kw::Fn, kw::Unsafe, kw::Extern, kw::Typeof, kw::Dyn]
.contains(&name)
}
#[derive(Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable_Generic)]
pub enum TokenKind {
/* Expression-operator symbols. */
Eq,
Lt,
Le,
EqEq,
Ne,
Ge,
Gt,
AndAnd,
OrOr,
Not,
Tilde,
BinOp(BinOpToken),
BinOpEq(BinOpToken),
/* Structural symbols */
At,
Dot,
DotDot,
DotDotDot,
DotDotEq,
Comma,
Semi,
Colon,
ModSep,
RArrow,
LArrow,
FatArrow,
Pound,
Dollar,
Question,
/// Used by proc macros for representing lifetimes, not generated by lexer right now.
SingleQuote,
/// An opening delimiter (e.g., `{`).
OpenDelim(DelimToken),
/// A closing delimiter (e.g., `}`).
CloseDelim(DelimToken),
/* Literals */
Literal(Lit),
/// Identifier token.
/// Do not forget about `NtIdent` when you want to match on identifiers.
/// It's recommended to use `Token::(ident,uninterpolate,uninterpolated_span)` to
/// treat regular and interpolated identifiers in the same way.
Ident(ast::Name, /* is_raw */ bool),
/// Lifetime identifier token.
/// Do not forget about `NtLifetime` when you want to match on lifetime identifiers.
/// It's recommended to use `Token::(lifetime,uninterpolate,uninterpolated_span)` to
/// treat regular and interpolated lifetime identifiers in the same way.
Lifetime(ast::Name),
Interpolated(Lrc<Nonterminal>),
// Can be expanded into several tokens.
/// A doc comment.
DocComment(ast::Name),
// Junk. These carry no data because we don't really care about the data
// they *would* carry, and don't really want to allocate a new ident for
// them. Instead, users could extract that from the associated span.
/// Whitespace.
Whitespace,
/// A comment.
Comment,
Shebang(ast::Name),
/// A completely invalid token which should be skipped.
Unknown(ast::Name),
Eof,
}
// `TokenKind` is used a lot. Make sure it doesn't unintentionally get bigger.
#[cfg(target_arch = "x86_64")]
rustc_data_structures::static_assert_size!(TokenKind, 16);
#[derive(Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable_Generic)]
pub struct Token {
pub kind: TokenKind,
pub span: Span,
}
impl TokenKind {
pub fn lit(kind: LitKind, symbol: Symbol, suffix: Option<Symbol>) -> TokenKind {
Literal(Lit::new(kind, symbol, suffix))
}
// An approximation to proc-macro-style single-character operators used by rustc parser.
// If the operator token can be broken into two tokens, the first of which is single-character,
// then this function performs that operation, otherwise it returns `None`.
pub fn break_two_token_op(&self) -> Option<(TokenKind, TokenKind)> {
Some(match *self {
Le => (Lt, Eq),
EqEq => (Eq, Eq),
Ne => (Not, Eq),
Ge => (Gt, Eq),
AndAnd => (BinOp(And), BinOp(And)),
OrOr => (BinOp(Or), BinOp(Or)),
BinOp(Shl) => (Lt, Lt),
BinOp(Shr) => (Gt, Gt),
BinOpEq(Plus) => (BinOp(Plus), Eq),
BinOpEq(Minus) => (BinOp(Minus), Eq),
BinOpEq(Star) => (BinOp(Star), Eq),
BinOpEq(Slash) => (BinOp(Slash), Eq),
BinOpEq(Percent) => (BinOp(Percent), Eq),
BinOpEq(Caret) => (BinOp(Caret), Eq),
BinOpEq(And) => (BinOp(And), Eq),
BinOpEq(Or) => (BinOp(Or), Eq),
BinOpEq(Shl) => (Lt, Le),
BinOpEq(Shr) => (Gt, Ge),
DotDot => (Dot, Dot),
DotDotDot => (Dot, DotDot),
ModSep => (Colon, Colon),
RArrow => (BinOp(Minus), Gt),
LArrow => (Lt, BinOp(Minus)),
FatArrow => (Eq, Gt),
_ => return None,
})
}
/// Returns tokens that are likely to be typed accidentally instead of the current token.
/// Enables better error recovery when the wrong token is found.
pub fn similar_tokens(&self) -> Option<Vec<TokenKind>> {
match *self {
Comma => Some(vec![Dot, Lt, Semi]),
Semi => Some(vec![Colon, Comma]),
_ => None,
}
}
}
impl Token {
pub fn new(kind: TokenKind, span: Span) -> Self {
Token { kind, span }
}
/// Some token that will be thrown away later.
pub fn dummy() -> Self {
Token::new(TokenKind::Whitespace, DUMMY_SP)
}
/// Recovers a `Token` from an `ast::Ident`. This creates a raw identifier if necessary.
pub fn from_ast_ident(ident: ast::Ident) -> Self {
Token::new(Ident(ident.name, ident.is_raw_guess()), ident.span)
}
/// Return this token by value and leave a dummy token in its place.
pub fn take(&mut self) -> Self {
mem::replace(self, Token::dummy())
}
/// For interpolated tokens, returns a span of the fragment to which the interpolated
/// token refers. For all other tokens this is just a regular span.
/// It is particularly important to use this for identifiers and lifetimes
/// for which spans affect name resolution and edition checks.
/// Note that keywords are also identifiers, so they should use this
/// if they keep spans or perform edition checks.
pub fn uninterpolated_span(&self) -> Span {
match &self.kind {
Interpolated(nt) => nt.span(),
_ => self.span,
}
}
pub fn is_op(&self) -> bool {
match self.kind {
OpenDelim(..) | CloseDelim(..) | Literal(..) | DocComment(..) | Ident(..)
| Lifetime(..) | Interpolated(..) | Whitespace | Comment | Shebang(..) | Eof => false,
_ => true,
}
}
pub fn is_like_plus(&self) -> bool {
match self.kind {
BinOp(Plus) | BinOpEq(Plus) => true,
_ => false,
}
}
/// Returns `true` if the token can appear at the start of an expression.
pub fn can_begin_expr(&self) -> bool {
match self.uninterpolate().kind {
Ident(name, is_raw) =>
ident_can_begin_expr(name, self.span, is_raw), // value name or keyword
OpenDelim(..) | // tuple, array or block
Literal(..) | // literal
Not | // operator not
BinOp(Minus) | // unary minus
BinOp(Star) | // dereference
BinOp(Or) | OrOr | // closure
BinOp(And) | // reference
AndAnd | // double reference
// DotDotDot is no longer supported, but we need some way to display the error
DotDot | DotDotDot | DotDotEq | // range notation
Lt | BinOp(Shl) | // associated path
ModSep | // global path
Lifetime(..) | // labeled loop
Pound => true, // expression attributes
Interpolated(ref nt) => match **nt {
NtLiteral(..) |
NtExpr(..) |
NtBlock(..) |
NtPath(..) => true,
_ => false,
},
_ => false,
}
}
/// Returns `true` if the token can appear at the start of a type.
pub fn can_begin_type(&self) -> bool {
match self.uninterpolate().kind {
Ident(name, is_raw) =>
ident_can_begin_type(name, self.span, is_raw), // type name or keyword
OpenDelim(Paren) | // tuple
OpenDelim(Bracket) | // array
Not | // never
BinOp(Star) | // raw pointer
BinOp(And) | // reference
AndAnd | // double reference
Question | // maybe bound in trait object
Lifetime(..) | // lifetime bound in trait object
Lt | BinOp(Shl) | // associated path
ModSep => true, // global path
Interpolated(ref nt) => match **nt {
NtTy(..) | NtPath(..) => true,
_ => false,
},
_ => false,
}
}
/// Returns `true` if the token can appear at the start of a const param.
pub fn can_begin_const_arg(&self) -> bool {
match self.kind {
OpenDelim(Brace) => true,
Interpolated(ref nt) => match **nt {
NtExpr(..) | NtBlock(..) | NtLiteral(..) => true,
_ => false,
},
_ => self.can_begin_literal_maybe_minus(),
}
}
/// Returns `true` if the token can appear at the start of a generic bound.
pub fn can_begin_bound(&self) -> bool {
self.is_path_start()
|| self.is_lifetime()
|| self.is_keyword(kw::For)
|| self == &Question
|| self == &OpenDelim(Paren)
}
/// Returns `true` if the token is any literal
pub fn is_lit(&self) -> bool {
match self.kind {
Literal(..) => true,
_ => false,
}
}
/// Returns `true` if the token is any literal, a minus (which can prefix a literal,
/// for example a '-42', or one of the boolean idents).
///
/// In other words, would this token be a valid start of `parse_literal_maybe_minus`?
///
/// Keep this in sync with and `Lit::from_token`, excluding unary negation.
pub fn can_begin_literal_maybe_minus(&self) -> bool {
match self.uninterpolate().kind {
Literal(..) | BinOp(Minus) => true,
Ident(name, false) if name.is_bool_lit() => true,
Interpolated(ref nt) => match &**nt {
NtLiteral(_) => true,
NtExpr(e) => match &e.kind {
ast::ExprKind::Lit(_) => true,
ast::ExprKind::Unary(ast::UnOp::Neg, e) => {
matches!(&e.kind, ast::ExprKind::Lit(_))
}
_ => false,
},
_ => false,
},
_ => false,
}
}
// A convenience function for matching on identifiers during parsing.
// Turns interpolated identifier (`$i: ident`) or lifetime (`$l: lifetime`) token
// into the regular identifier or lifetime token it refers to,
// otherwise returns the original token.
pub fn uninterpolate(&self) -> Cow<'_, Token> {
match &self.kind {
Interpolated(nt) => match **nt {
NtIdent(ident, is_raw) => {
Cow::Owned(Token::new(Ident(ident.name, is_raw), ident.span))
}
NtLifetime(ident) => Cow::Owned(Token::new(Lifetime(ident.name), ident.span)),
_ => Cow::Borrowed(self),
},
_ => Cow::Borrowed(self),
}
}
/// Returns an identifier if this token is an identifier.
pub fn ident(&self) -> Option<(ast::Ident, /* is_raw */ bool)> {
let token = self.uninterpolate();
match token.kind {
Ident(name, is_raw) => Some((ast::Ident::new(name, token.span), is_raw)),
_ => None,
}
}
/// Returns a lifetime identifier if this token is a lifetime.
pub fn lifetime(&self) -> Option<ast::Ident> {
let token = self.uninterpolate();
match token.kind {
Lifetime(name) => Some(ast::Ident::new(name, token.span)),
_ => None,
}
}
/// Returns `true` if the token is an identifier.
pub fn is_ident(&self) -> bool {
self.ident().is_some()
}
/// Returns `true` if the token is a lifetime.
pub fn is_lifetime(&self) -> bool {
self.lifetime().is_some()
}
/// Returns `true` if the token is a identifier whose name is the given
/// string slice.
pub fn is_ident_named(&self, name: Symbol) -> bool {
self.ident().map_or(false, |(ident, _)| ident.name == name)
}
/// Returns `true` if the token is an interpolated path.
fn is_path(&self) -> bool {
if let Interpolated(ref nt) = self.kind {
if let NtPath(..) = **nt {
return true;
}
}
false
}
/// Would `maybe_whole_expr` in `parser.rs` return `Ok(..)`?
/// That is, is this a pre-parsed expression dropped into the token stream
/// (which happens while parsing the result of macro expansion)?
pub fn is_whole_expr(&self) -> bool {
if let Interpolated(ref nt) = self.kind {
if let NtExpr(_) | NtLiteral(_) | NtPath(_) | NtIdent(..) | NtBlock(_) = **nt {
return true;
}
}
false
}
// Is the token an interpolated block (`$b:block`)?
pub fn is_whole_block(&self) -> bool {
if let Interpolated(ref nt) = self.kind {
if let NtBlock(..) = **nt {
return true;
}
}
false
}
/// Returns `true` if the token is either the `mut` or `const` keyword.
pub fn is_mutability(&self) -> bool {
self.is_keyword(kw::Mut) || self.is_keyword(kw::Const)
}
pub fn is_qpath_start(&self) -> bool {
self == &Lt || self == &BinOp(Shl)
}
pub fn is_path_start(&self) -> bool {
self == &ModSep
|| self.is_qpath_start()
|| self.is_path()
|| self.is_path_segment_keyword()
|| self.is_ident() && !self.is_reserved_ident()
}
/// Returns `true` if the token is a given keyword, `kw`.
pub fn is_keyword(&self, kw: Symbol) -> bool {
self.is_non_raw_ident_where(|id| id.name == kw)
}
pub fn is_path_segment_keyword(&self) -> bool {
self.is_non_raw_ident_where(ast::Ident::is_path_segment_keyword)
}
// Returns true for reserved identifiers used internally for elided lifetimes,
// unnamed method parameters, crate root module, error recovery etc.
pub fn is_special_ident(&self) -> bool {
self.is_non_raw_ident_where(ast::Ident::is_special)
}
/// Returns `true` if the token is a keyword used in the language.
pub fn is_used_keyword(&self) -> bool {
self.is_non_raw_ident_where(ast::Ident::is_used_keyword)
}
/// Returns `true` if the token is a keyword reserved for possible future use.
pub fn is_unused_keyword(&self) -> bool {
self.is_non_raw_ident_where(ast::Ident::is_unused_keyword)
}
/// Returns `true` if the token is either a special identifier or a keyword.
pub fn is_reserved_ident(&self) -> bool {
self.is_non_raw_ident_where(ast::Ident::is_reserved)
}
/// Returns `true` if the token is the identifier `true` or `false`.
pub fn is_bool_lit(&self) -> bool {
self.is_non_raw_ident_where(|id| id.name.is_bool_lit())
}
/// Returns `true` if the token is a non-raw identifier for which `pred` holds.
pub fn is_non_raw_ident_where(&self, pred: impl FnOnce(ast::Ident) -> bool) -> bool {
match self.ident() {
Some((id, false)) => pred(id),
_ => false,
}
}
pub fn glue(&self, joint: &Token) -> Option<Token> {
let kind = match self.kind {
Eq => match joint.kind {
Eq => EqEq,
Gt => FatArrow,
_ => return None,
},
Lt => match joint.kind {
Eq => Le,
Lt => BinOp(Shl),
Le => BinOpEq(Shl),
BinOp(Minus) => LArrow,
_ => return None,
},
Gt => match joint.kind {
Eq => Ge,
Gt => BinOp(Shr),
Ge => BinOpEq(Shr),
_ => return None,
},
Not => match joint.kind {
Eq => Ne,
_ => return None,
},
BinOp(op) => match joint.kind {
Eq => BinOpEq(op),
BinOp(And) if op == And => AndAnd,
BinOp(Or) if op == Or => OrOr,
Gt if op == Minus => RArrow,
_ => return None,
},
Dot => match joint.kind {
Dot => DotDot,
DotDot => DotDotDot,
_ => return None,
},
DotDot => match joint.kind {
Dot => DotDotDot,
Eq => DotDotEq,
_ => return None,
},
Colon => match joint.kind {
Colon => ModSep,
_ => return None,
},
SingleQuote => match joint.kind {
Ident(name, false) => Lifetime(Symbol::intern(&format!("'{}", name))),
_ => return None,
},
Le | EqEq | Ne | Ge | AndAnd | OrOr | Tilde | BinOpEq(..) | At | DotDotDot
| DotDotEq | Comma | Semi | ModSep | RArrow | LArrow | FatArrow | Pound | Dollar
| Question | OpenDelim(..) | CloseDelim(..) | Literal(..) | Ident(..)
| Lifetime(..) | Interpolated(..) | DocComment(..) | Whitespace | Comment
| Shebang(..) | Unknown(..) | Eof => return None,
};
Some(Token::new(kind, self.span.to(joint.span)))
}
// See comments in `Nonterminal::to_tokenstream` for why we care about
// *probably* equal here rather than actual equality
crate fn probably_equal_for_proc_macro(&self, other: &Token) -> bool {
if mem::discriminant(&self.kind) != mem::discriminant(&other.kind) {
return false;
}
match (&self.kind, &other.kind) {
(&Eq, &Eq)
| (&Lt, &Lt)
| (&Le, &Le)
| (&EqEq, &EqEq)
| (&Ne, &Ne)
| (&Ge, &Ge)
| (&Gt, &Gt)
| (&AndAnd, &AndAnd)
| (&OrOr, &OrOr)
| (&Not, &Not)
| (&Tilde, &Tilde)
| (&At, &At)
| (&Dot, &Dot)
| (&DotDot, &DotDot)
| (&DotDotDot, &DotDotDot)
| (&DotDotEq, &DotDotEq)
| (&Comma, &Comma)
| (&Semi, &Semi)
| (&Colon, &Colon)
| (&ModSep, &ModSep)
| (&RArrow, &RArrow)
| (&LArrow, &LArrow)
| (&FatArrow, &FatArrow)
| (&Pound, &Pound)
| (&Dollar, &Dollar)
| (&Question, &Question)
| (&Whitespace, &Whitespace)
| (&Comment, &Comment)
| (&Eof, &Eof) => true,
(&BinOp(a), &BinOp(b)) | (&BinOpEq(a), &BinOpEq(b)) => a == b,
(&OpenDelim(a), &OpenDelim(b)) | (&CloseDelim(a), &CloseDelim(b)) => a == b,
(&DocComment(a), &DocComment(b)) | (&Shebang(a), &Shebang(b)) => a == b,
(&Literal(a), &Literal(b)) => a == b,
(&Lifetime(a), &Lifetime(b)) => a == b,
(&Ident(a, b), &Ident(c, d)) => {
b == d && (a == c || a == kw::DollarCrate || c == kw::DollarCrate)
}
(&Interpolated(_), &Interpolated(_)) => false,
_ => panic!("forgot to add a token?"),
}
}
}
impl PartialEq<TokenKind> for Token {
fn eq(&self, rhs: &TokenKind) -> bool {
self.kind == *rhs
}
}
#[derive(Clone, RustcEncodable, RustcDecodable)]
/// For interpolation during macro expansion.
pub enum Nonterminal {
NtItem(P<ast::Item>),
NtBlock(P<ast::Block>),
NtStmt(ast::Stmt),
NtPat(P<ast::Pat>),
NtExpr(P<ast::Expr>),
NtTy(P<ast::Ty>),
NtIdent(ast::Ident, /* is_raw */ bool),
NtLifetime(ast::Ident),
NtLiteral(P<ast::Expr>),
/// Stuff inside brackets for attributes
NtMeta(P<ast::AttrItem>),
NtPath(ast::Path),
NtVis(ast::Visibility),
NtTT(TokenTree),
}
// `Nonterminal` is used a lot. Make sure it doesn't unintentionally get bigger.
#[cfg(target_arch = "x86_64")]
rustc_data_structures::static_assert_size!(Nonterminal, 40);
impl Nonterminal {
fn span(&self) -> Span {
match self {
NtItem(item) => item.span,
NtBlock(block) => block.span,
NtStmt(stmt) => stmt.span,
NtPat(pat) => pat.span,
NtExpr(expr) | NtLiteral(expr) => expr.span,
NtTy(ty) => ty.span,
NtIdent(ident, _) | NtLifetime(ident) => ident.span,
NtMeta(attr_item) => attr_item.span(),
NtPath(path) => path.span,
NtVis(vis) => vis.span,
NtTT(tt) => tt.span(),
}
}
}
impl PartialEq for Nonterminal {
fn eq(&self, rhs: &Self) -> bool {
match (self, rhs) {
(NtIdent(ident_lhs, is_raw_lhs), NtIdent(ident_rhs, is_raw_rhs)) => {
ident_lhs == ident_rhs && is_raw_lhs == is_raw_rhs
}
(NtLifetime(ident_lhs), NtLifetime(ident_rhs)) => ident_lhs == ident_rhs,
(NtTT(tt_lhs), NtTT(tt_rhs)) => tt_lhs == tt_rhs,
// FIXME: Assume that all "complex" nonterminal are not equal, we can't compare them
// correctly based on data from AST. This will prevent them from matching each other
// in macros. The comparison will become possible only when each nonterminal has an
// attached token stream from which it was parsed.
_ => false,
}
}
}
impl fmt::Debug for Nonterminal {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
NtItem(..) => f.pad("NtItem(..)"),
NtBlock(..) => f.pad("NtBlock(..)"),
NtStmt(..) => f.pad("NtStmt(..)"),
NtPat(..) => f.pad("NtPat(..)"),
NtExpr(..) => f.pad("NtExpr(..)"),
NtTy(..) => f.pad("NtTy(..)"),
NtIdent(..) => f.pad("NtIdent(..)"),
NtLiteral(..) => f.pad("NtLiteral(..)"),
NtMeta(..) => f.pad("NtMeta(..)"),
NtPath(..) => f.pad("NtPath(..)"),
NtTT(..) => f.pad("NtTT(..)"),
NtVis(..) => f.pad("NtVis(..)"),
NtLifetime(..) => f.pad("NtLifetime(..)"),
}
}
}
impl<CTX> HashStable<CTX> for Nonterminal
where
CTX: crate::HashStableContext,
{
fn hash_stable(&self, _hcx: &mut CTX, _hasher: &mut StableHasher) {
panic!("interpolated tokens should not be present in the HIR")
}
}