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|
use crate::lexer::unicode_chars::UNICODE_ARRAY;
use rustc_ast::ast::{self, AttrStyle};
use rustc_ast::token::{self, CommentKind, Delimiter, Token, TokenKind};
use rustc_ast::tokenstream::TokenStream;
use rustc_ast::util::unicode::contains_text_flow_control_chars;
use rustc_errors::{
error_code, Applicability, DiagnosticBuilder, ErrorGuaranteed, PResult, StashKey,
};
use rustc_lexer::unescape::{self, Mode};
use rustc_lexer::Cursor;
use rustc_lexer::{Base, DocStyle, RawStrError};
use rustc_session::lint::builtin::{
RUST_2021_PREFIXES_INCOMPATIBLE_SYNTAX, TEXT_DIRECTION_CODEPOINT_IN_COMMENT,
};
use rustc_session::lint::BuiltinLintDiagnostics;
use rustc_session::parse::ParseSess;
use rustc_span::symbol::{sym, Symbol};
use rustc_span::{edition::Edition, BytePos, Pos, Span};
mod tokentrees;
mod unescape_error_reporting;
mod unicode_chars;
use unescape_error_reporting::{emit_unescape_error, escaped_char};
// This type is used a lot. Make sure it doesn't unintentionally get bigger.
//
// This assertion is in this crate, rather than in `rustc_lexer`, because that
// crate cannot depend on `rustc_data_structures`.
#[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))]
rustc_data_structures::static_assert_size!(rustc_lexer::Token, 12);
#[derive(Clone, Debug)]
pub struct UnmatchedBrace {
pub expected_delim: Delimiter,
pub found_delim: Option<Delimiter>,
pub found_span: Span,
pub unclosed_span: Option<Span>,
pub candidate_span: Option<Span>,
}
pub(crate) fn parse_token_trees<'a>(
sess: &'a ParseSess,
mut src: &'a str,
mut start_pos: BytePos,
override_span: Option<Span>,
) -> (PResult<'a, TokenStream>, Vec<UnmatchedBrace>) {
// Skip `#!`, if present.
if let Some(shebang_len) = rustc_lexer::strip_shebang(src) {
src = &src[shebang_len..];
start_pos = start_pos + BytePos::from_usize(shebang_len);
}
let cursor = Cursor::new(src);
let string_reader =
StringReader { sess, start_pos, pos: start_pos, src, cursor, override_span };
tokentrees::TokenTreesReader::parse_all_token_trees(string_reader)
}
struct StringReader<'a> {
sess: &'a ParseSess,
/// Initial position, read-only.
start_pos: BytePos,
/// The absolute offset within the source_map of the current character.
pos: BytePos,
/// Source text to tokenize.
src: &'a str,
/// Cursor for getting lexer tokens.
cursor: Cursor<'a>,
override_span: Option<Span>,
}
impl<'a> StringReader<'a> {
fn mk_sp(&self, lo: BytePos, hi: BytePos) -> Span {
self.override_span.unwrap_or_else(|| Span::with_root_ctxt(lo, hi))
}
/// Returns the next token, paired with a bool indicating if the token was
/// preceded by whitespace.
fn next_token(&mut self) -> (Token, bool) {
let mut preceded_by_whitespace = false;
// Skip trivial (whitespace & comments) tokens
loop {
let token = self.cursor.advance_token();
let start = self.pos;
self.pos = self.pos + BytePos(token.len);
debug!("next_token: {:?}({:?})", token.kind, self.str_from(start));
// Now "cook" the token, converting the simple `rustc_lexer::TokenKind` enum into a
// rich `rustc_ast::TokenKind`. This turns strings into interned symbols and runs
// additional validation.
let kind = match token.kind {
rustc_lexer::TokenKind::LineComment { doc_style } => {
// Skip non-doc comments
let Some(doc_style) = doc_style else {
self.lint_unicode_text_flow(start);
preceded_by_whitespace = true;
continue;
};
// Opening delimiter of the length 3 is not included into the symbol.
let content_start = start + BytePos(3);
let content = self.str_from(content_start);
self.cook_doc_comment(content_start, content, CommentKind::Line, doc_style)
}
rustc_lexer::TokenKind::BlockComment { doc_style, terminated } => {
if !terminated {
self.report_unterminated_block_comment(start, doc_style);
}
// Skip non-doc comments
let Some(doc_style) = doc_style else {
self.lint_unicode_text_flow(start);
preceded_by_whitespace = true;
continue;
};
// Opening delimiter of the length 3 and closing delimiter of the length 2
// are not included into the symbol.
let content_start = start + BytePos(3);
let content_end = self.pos - BytePos(if terminated { 2 } else { 0 });
let content = self.str_from_to(content_start, content_end);
self.cook_doc_comment(content_start, content, CommentKind::Block, doc_style)
}
rustc_lexer::TokenKind::Whitespace => {
preceded_by_whitespace = true;
continue;
}
rustc_lexer::TokenKind::Ident => {
let sym = nfc_normalize(self.str_from(start));
let span = self.mk_sp(start, self.pos);
self.sess.symbol_gallery.insert(sym, span);
token::Ident(sym, false)
}
rustc_lexer::TokenKind::RawIdent => {
let sym = nfc_normalize(self.str_from(start + BytePos(2)));
let span = self.mk_sp(start, self.pos);
self.sess.symbol_gallery.insert(sym, span);
if !sym.can_be_raw() {
self.err_span(span, &format!("`{}` cannot be a raw identifier", sym));
}
self.sess.raw_identifier_spans.borrow_mut().push(span);
token::Ident(sym, true)
}
rustc_lexer::TokenKind::UnknownPrefix => {
self.report_unknown_prefix(start);
let sym = nfc_normalize(self.str_from(start));
let span = self.mk_sp(start, self.pos);
self.sess.symbol_gallery.insert(sym, span);
token::Ident(sym, false)
}
rustc_lexer::TokenKind::InvalidIdent
// Do not recover an identifier with emoji if the codepoint is a confusable
// with a recoverable substitution token, like `➖`.
if !UNICODE_ARRAY
.iter()
.any(|&(c, _, _)| {
let sym = self.str_from(start);
sym.chars().count() == 1 && c == sym.chars().next().unwrap()
}) =>
{
let sym = nfc_normalize(self.str_from(start));
let span = self.mk_sp(start, self.pos);
self.sess.bad_unicode_identifiers.borrow_mut().entry(sym).or_default()
.push(span);
token::Ident(sym, false)
}
rustc_lexer::TokenKind::Literal { kind, suffix_start } => {
let suffix_start = start + BytePos(suffix_start);
let (kind, symbol) = self.cook_lexer_literal(start, suffix_start, kind);
let suffix = if suffix_start < self.pos {
let string = self.str_from(suffix_start);
if string == "_" {
self.sess
.span_diagnostic
.struct_span_warn(
self.mk_sp(suffix_start, self.pos),
"underscore literal suffix is not allowed",
)
.warn(
"this was previously accepted by the compiler but is \
being phased out; it will become a hard error in \
a future release!",
)
.note(
"see issue #42326 \
<https://github.com/rust-lang/rust/issues/42326> \
for more information",
)
.emit();
None
} else {
Some(Symbol::intern(string))
}
} else {
None
};
token::Literal(token::Lit { kind, symbol, suffix })
}
rustc_lexer::TokenKind::Lifetime { starts_with_number } => {
// Include the leading `'` in the real identifier, for macro
// expansion purposes. See #12512 for the gory details of why
// this is necessary.
let lifetime_name = self.str_from(start);
if starts_with_number {
let span = self.mk_sp(start, self.pos);
let mut diag = self.sess.struct_err("lifetimes cannot start with a number");
diag.set_span(span);
diag.stash(span, StashKey::LifetimeIsChar);
}
let ident = Symbol::intern(lifetime_name);
token::Lifetime(ident)
}
rustc_lexer::TokenKind::Semi => token::Semi,
rustc_lexer::TokenKind::Comma => token::Comma,
rustc_lexer::TokenKind::Dot => token::Dot,
rustc_lexer::TokenKind::OpenParen => token::OpenDelim(Delimiter::Parenthesis),
rustc_lexer::TokenKind::CloseParen => token::CloseDelim(Delimiter::Parenthesis),
rustc_lexer::TokenKind::OpenBrace => token::OpenDelim(Delimiter::Brace),
rustc_lexer::TokenKind::CloseBrace => token::CloseDelim(Delimiter::Brace),
rustc_lexer::TokenKind::OpenBracket => token::OpenDelim(Delimiter::Bracket),
rustc_lexer::TokenKind::CloseBracket => token::CloseDelim(Delimiter::Bracket),
rustc_lexer::TokenKind::At => token::At,
rustc_lexer::TokenKind::Pound => token::Pound,
rustc_lexer::TokenKind::Tilde => token::Tilde,
rustc_lexer::TokenKind::Question => token::Question,
rustc_lexer::TokenKind::Colon => token::Colon,
rustc_lexer::TokenKind::Dollar => token::Dollar,
rustc_lexer::TokenKind::Eq => token::Eq,
rustc_lexer::TokenKind::Bang => token::Not,
rustc_lexer::TokenKind::Lt => token::Lt,
rustc_lexer::TokenKind::Gt => token::Gt,
rustc_lexer::TokenKind::Minus => token::BinOp(token::Minus),
rustc_lexer::TokenKind::And => token::BinOp(token::And),
rustc_lexer::TokenKind::Or => token::BinOp(token::Or),
rustc_lexer::TokenKind::Plus => token::BinOp(token::Plus),
rustc_lexer::TokenKind::Star => token::BinOp(token::Star),
rustc_lexer::TokenKind::Slash => token::BinOp(token::Slash),
rustc_lexer::TokenKind::Caret => token::BinOp(token::Caret),
rustc_lexer::TokenKind::Percent => token::BinOp(token::Percent),
rustc_lexer::TokenKind::Unknown | rustc_lexer::TokenKind::InvalidIdent => {
let c = self.str_from(start).chars().next().unwrap();
let mut err =
self.struct_err_span_char(start, self.pos, "unknown start of token", c);
// FIXME: the lexer could be used to turn the ASCII version of unicode
// homoglyphs, instead of keeping a table in `check_for_substitution`into the
// token. Ideally, this should be inside `rustc_lexer`. However, we should
// first remove compound tokens like `<<` from `rustc_lexer`, and then add
// fancier error recovery to it, as there will be less overall work to do this
// way.
let token = unicode_chars::check_for_substitution(self, start, c, &mut err);
if c == '\x00' {
err.help("source files must contain UTF-8 encoded text, unexpected null bytes might occur when a different encoding is used");
}
err.emit();
if let Some(token) = token {
token
} else {
preceded_by_whitespace = true;
continue;
}
}
rustc_lexer::TokenKind::Eof => token::Eof,
};
let span = self.mk_sp(start, self.pos);
return (Token::new(kind, span), preceded_by_whitespace);
}
}
/// Report a fatal lexical error with a given span.
fn fatal_span(&self, sp: Span, m: &str) -> ! {
self.sess.span_diagnostic.span_fatal(sp, m)
}
/// Report a lexical error with a given span.
fn err_span(&self, sp: Span, m: &str) {
self.sess.span_diagnostic.struct_span_err(sp, m).emit();
}
/// Report a fatal error spanning [`from_pos`, `to_pos`).
fn fatal_span_(&self, from_pos: BytePos, to_pos: BytePos, m: &str) -> ! {
self.fatal_span(self.mk_sp(from_pos, to_pos), m)
}
/// Report a lexical error spanning [`from_pos`, `to_pos`).
fn err_span_(&self, from_pos: BytePos, to_pos: BytePos, m: &str) {
self.err_span(self.mk_sp(from_pos, to_pos), m)
}
fn struct_fatal_span_char(
&self,
from_pos: BytePos,
to_pos: BytePos,
m: &str,
c: char,
) -> DiagnosticBuilder<'a, !> {
self.sess
.span_diagnostic
.struct_span_fatal(self.mk_sp(from_pos, to_pos), &format!("{}: {}", m, escaped_char(c)))
}
fn struct_err_span_char(
&self,
from_pos: BytePos,
to_pos: BytePos,
m: &str,
c: char,
) -> DiagnosticBuilder<'a, ErrorGuaranteed> {
self.sess
.span_diagnostic
.struct_span_err(self.mk_sp(from_pos, to_pos), &format!("{}: {}", m, escaped_char(c)))
}
/// Detect usages of Unicode codepoints changing the direction of the text on screen and loudly
/// complain about it.
fn lint_unicode_text_flow(&self, start: BytePos) {
// Opening delimiter of the length 2 is not included into the comment text.
let content_start = start + BytePos(2);
let content = self.str_from(content_start);
if contains_text_flow_control_chars(content) {
let span = self.mk_sp(start, self.pos);
self.sess.buffer_lint_with_diagnostic(
&TEXT_DIRECTION_CODEPOINT_IN_COMMENT,
span,
ast::CRATE_NODE_ID,
"unicode codepoint changing visible direction of text present in comment",
BuiltinLintDiagnostics::UnicodeTextFlow(span, content.to_string()),
);
}
}
fn cook_doc_comment(
&self,
content_start: BytePos,
content: &str,
comment_kind: CommentKind,
doc_style: DocStyle,
) -> TokenKind {
if content.contains('\r') {
for (idx, _) in content.char_indices().filter(|&(_, c)| c == '\r') {
self.err_span_(
content_start + BytePos(idx as u32),
content_start + BytePos(idx as u32 + 1),
match comment_kind {
CommentKind::Line => "bare CR not allowed in doc-comment",
CommentKind::Block => "bare CR not allowed in block doc-comment",
},
);
}
}
let attr_style = match doc_style {
DocStyle::Outer => AttrStyle::Outer,
DocStyle::Inner => AttrStyle::Inner,
};
token::DocComment(comment_kind, attr_style, Symbol::intern(content))
}
fn cook_lexer_literal(
&self,
start: BytePos,
suffix_start: BytePos,
kind: rustc_lexer::LiteralKind,
) -> (token::LitKind, Symbol) {
// prefix means `"` or `br"` or `r###"`, ...
let (lit_kind, mode, prefix_len, postfix_len) = match kind {
rustc_lexer::LiteralKind::Char { terminated } => {
if !terminated {
self.sess.span_diagnostic.span_fatal_with_code(
self.mk_sp(start, suffix_start),
"unterminated character literal",
error_code!(E0762),
)
}
(token::Char, Mode::Char, 1, 1) // ' '
}
rustc_lexer::LiteralKind::Byte { terminated } => {
if !terminated {
self.sess.span_diagnostic.span_fatal_with_code(
self.mk_sp(start + BytePos(1), suffix_start),
"unterminated byte constant",
error_code!(E0763),
)
}
(token::Byte, Mode::Byte, 2, 1) // b' '
}
rustc_lexer::LiteralKind::Str { terminated } => {
if !terminated {
self.sess.span_diagnostic.span_fatal_with_code(
self.mk_sp(start, suffix_start),
"unterminated double quote string",
error_code!(E0765),
)
}
(token::Str, Mode::Str, 1, 1) // " "
}
rustc_lexer::LiteralKind::ByteStr { terminated } => {
if !terminated {
self.sess.span_diagnostic.span_fatal_with_code(
self.mk_sp(start + BytePos(1), suffix_start),
"unterminated double quote byte string",
error_code!(E0766),
)
}
(token::ByteStr, Mode::ByteStr, 2, 1) // b" "
}
rustc_lexer::LiteralKind::RawStr { n_hashes } => {
if let Some(n_hashes) = n_hashes {
let n = u32::from(n_hashes);
(token::StrRaw(n_hashes), Mode::RawStr, 2 + n, 1 + n) // r##" "##
} else {
self.report_raw_str_error(start, 1);
}
}
rustc_lexer::LiteralKind::RawByteStr { n_hashes } => {
if let Some(n_hashes) = n_hashes {
let n = u32::from(n_hashes);
(token::ByteStrRaw(n_hashes), Mode::RawByteStr, 3 + n, 1 + n) // br##" "##
} else {
self.report_raw_str_error(start, 2);
}
}
rustc_lexer::LiteralKind::Int { base, empty_int } => {
return if empty_int {
self.sess
.span_diagnostic
.struct_span_err_with_code(
self.mk_sp(start, suffix_start),
"no valid digits found for number",
error_code!(E0768),
)
.emit();
(token::Integer, sym::integer(0))
} else {
self.validate_int_literal(base, start, suffix_start);
(token::Integer, self.symbol_from_to(start, suffix_start))
};
}
rustc_lexer::LiteralKind::Float { base, empty_exponent } => {
if empty_exponent {
self.err_span_(start, self.pos, "expected at least one digit in exponent");
}
match base {
Base::Hexadecimal => self.err_span_(
start,
suffix_start,
"hexadecimal float literal is not supported",
),
Base::Octal => {
self.err_span_(start, suffix_start, "octal float literal is not supported")
}
Base::Binary => {
self.err_span_(start, suffix_start, "binary float literal is not supported")
}
_ => (),
}
let id = self.symbol_from_to(start, suffix_start);
return (token::Float, id);
}
};
let content_start = start + BytePos(prefix_len);
let content_end = suffix_start - BytePos(postfix_len);
let id = self.symbol_from_to(content_start, content_end);
self.validate_literal_escape(mode, content_start, content_end, prefix_len, postfix_len);
(lit_kind, id)
}
#[inline]
fn src_index(&self, pos: BytePos) -> usize {
(pos - self.start_pos).to_usize()
}
/// Slice of the source text from `start` up to but excluding `self.pos`,
/// meaning the slice does not include the character `self.ch`.
fn str_from(&self, start: BytePos) -> &str {
self.str_from_to(start, self.pos)
}
/// As symbol_from, with an explicit endpoint.
fn symbol_from_to(&self, start: BytePos, end: BytePos) -> Symbol {
debug!("taking an ident from {:?} to {:?}", start, end);
Symbol::intern(self.str_from_to(start, end))
}
/// Slice of the source text spanning from `start` up to but excluding `end`.
fn str_from_to(&self, start: BytePos, end: BytePos) -> &str {
&self.src[self.src_index(start)..self.src_index(end)]
}
fn report_raw_str_error(&self, start: BytePos, prefix_len: u32) -> ! {
match rustc_lexer::validate_raw_str(self.str_from(start), prefix_len) {
Err(RawStrError::InvalidStarter { bad_char }) => {
self.report_non_started_raw_string(start, bad_char)
}
Err(RawStrError::NoTerminator { expected, found, possible_terminator_offset }) => self
.report_unterminated_raw_string(start, expected, possible_terminator_offset, found),
Err(RawStrError::TooManyDelimiters { found }) => {
self.report_too_many_hashes(start, found)
}
Ok(()) => panic!("no error found for supposedly invalid raw string literal"),
}
}
fn report_non_started_raw_string(&self, start: BytePos, bad_char: char) -> ! {
self.struct_fatal_span_char(
start,
self.pos,
"found invalid character; only `#` is allowed in raw string delimitation",
bad_char,
)
.emit()
}
fn report_unterminated_raw_string(
&self,
start: BytePos,
n_hashes: u32,
possible_offset: Option<u32>,
found_terminators: u32,
) -> ! {
let mut err = self.sess.span_diagnostic.struct_span_fatal_with_code(
self.mk_sp(start, start),
"unterminated raw string",
error_code!(E0748),
);
err.span_label(self.mk_sp(start, start), "unterminated raw string");
if n_hashes > 0 {
err.note(&format!(
"this raw string should be terminated with `\"{}`",
"#".repeat(n_hashes as usize)
));
}
if let Some(possible_offset) = possible_offset {
let lo = start + BytePos(possible_offset as u32);
let hi = lo + BytePos(found_terminators as u32);
let span = self.mk_sp(lo, hi);
err.span_suggestion(
span,
"consider terminating the string here",
"#".repeat(n_hashes as usize),
Applicability::MaybeIncorrect,
);
}
err.emit()
}
fn report_unterminated_block_comment(&self, start: BytePos, doc_style: Option<DocStyle>) {
let msg = match doc_style {
Some(_) => "unterminated block doc-comment",
None => "unterminated block comment",
};
let last_bpos = self.pos;
let mut err = self.sess.span_diagnostic.struct_span_fatal_with_code(
self.mk_sp(start, last_bpos),
msg,
error_code!(E0758),
);
let mut nested_block_comment_open_idxs = vec![];
let mut last_nested_block_comment_idxs = None;
let mut content_chars = self.str_from(start).char_indices().peekable();
while let Some((idx, current_char)) = content_chars.next() {
match content_chars.peek() {
Some((_, '*')) if current_char == '/' => {
nested_block_comment_open_idxs.push(idx);
}
Some((_, '/')) if current_char == '*' => {
last_nested_block_comment_idxs =
nested_block_comment_open_idxs.pop().map(|open_idx| (open_idx, idx));
}
_ => {}
};
}
if let Some((nested_open_idx, nested_close_idx)) = last_nested_block_comment_idxs {
err.span_label(self.mk_sp(start, start + BytePos(2)), msg)
.span_label(
self.mk_sp(
start + BytePos(nested_open_idx as u32),
start + BytePos(nested_open_idx as u32 + 2),
),
"...as last nested comment starts here, maybe you want to close this instead?",
)
.span_label(
self.mk_sp(
start + BytePos(nested_close_idx as u32),
start + BytePos(nested_close_idx as u32 + 2),
),
"...and last nested comment terminates here.",
);
}
err.emit();
}
// RFC 3101 introduced the idea of (reserved) prefixes. As of Rust 2021,
// using a (unknown) prefix is an error. In earlier editions, however, they
// only result in a (allowed by default) lint, and are treated as regular
// identifier tokens.
fn report_unknown_prefix(&self, start: BytePos) {
let prefix_span = self.mk_sp(start, self.pos);
let prefix_str = self.str_from_to(start, self.pos);
let msg = format!("prefix `{}` is unknown", prefix_str);
let expn_data = prefix_span.ctxt().outer_expn_data();
if expn_data.edition >= Edition::Edition2021 {
// In Rust 2021, this is a hard error.
let mut err = self.sess.span_diagnostic.struct_span_err(prefix_span, &msg);
err.span_label(prefix_span, "unknown prefix");
if prefix_str == "rb" {
err.span_suggestion_verbose(
prefix_span,
"use `br` for a raw byte string",
"br",
Applicability::MaybeIncorrect,
);
} else if expn_data.is_root() {
err.span_suggestion_verbose(
prefix_span.shrink_to_hi(),
"consider inserting whitespace here",
" ",
Applicability::MaybeIncorrect,
);
}
err.note("prefixed identifiers and literals are reserved since Rust 2021");
err.emit();
} else {
// Before Rust 2021, only emit a lint for migration.
self.sess.buffer_lint_with_diagnostic(
&RUST_2021_PREFIXES_INCOMPATIBLE_SYNTAX,
prefix_span,
ast::CRATE_NODE_ID,
&msg,
BuiltinLintDiagnostics::ReservedPrefix(prefix_span),
);
}
}
fn report_too_many_hashes(&self, start: BytePos, found: u32) -> ! {
self.fatal_span_(
start,
self.pos,
&format!(
"too many `#` symbols: raw strings may be delimited \
by up to 255 `#` symbols, but found {}",
found
),
)
}
fn validate_literal_escape(
&self,
mode: Mode,
content_start: BytePos,
content_end: BytePos,
prefix_len: u32,
postfix_len: u32,
) {
let lit_content = self.str_from_to(content_start, content_end);
unescape::unescape_literal(lit_content, mode, &mut |range, result| {
// Here we only check for errors. The actual unescaping is done later.
if let Err(err) = result {
let span_with_quotes = self
.mk_sp(content_start - BytePos(prefix_len), content_end + BytePos(postfix_len));
let (start, end) = (range.start as u32, range.end as u32);
let lo = content_start + BytePos(start);
let hi = lo + BytePos(end - start);
let span = self.mk_sp(lo, hi);
emit_unescape_error(
&self.sess.span_diagnostic,
lit_content,
span_with_quotes,
span,
mode,
range,
err,
);
}
});
}
fn validate_int_literal(&self, base: Base, content_start: BytePos, content_end: BytePos) {
let base = match base {
Base::Binary => 2,
Base::Octal => 8,
_ => return,
};
let s = self.str_from_to(content_start + BytePos(2), content_end);
for (idx, c) in s.char_indices() {
let idx = idx as u32;
if c != '_' && c.to_digit(base).is_none() {
let lo = content_start + BytePos(2 + idx);
let hi = content_start + BytePos(2 + idx + c.len_utf8() as u32);
self.err_span_(lo, hi, &format!("invalid digit for a base {} literal", base));
}
}
}
}
pub fn nfc_normalize(string: &str) -> Symbol {
use unicode_normalization::{is_nfc_quick, IsNormalized, UnicodeNormalization};
match is_nfc_quick(string.chars()) {
IsNormalized::Yes => Symbol::intern(string),
_ => {
let normalized_str: String = string.chars().nfc().collect();
Symbol::intern(&normalized_str)
}
}
}
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