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mod.rs
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mod.rs
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use crate::ast::{self, Ident};
use crate::parse::{token, ParseSess};
use crate::symbol::Symbol;
use crate::parse::unescape;
use crate::parse::unescape_error_reporting::{emit_unescape_error, push_escaped_char};
use errors::{FatalError, Diagnostic, DiagnosticBuilder};
use syntax_pos::{BytePos, Pos, Span, NO_EXPANSION};
use core::unicode::property::Pattern_White_Space;
use std::borrow::Cow;
use std::char;
use std::iter;
use std::mem::replace;
use rustc_data_structures::sync::Lrc;
use log::debug;
pub mod comments;
mod tokentrees;
mod unicode_chars;
#[derive(Clone, Debug)]
pub struct TokenAndSpan {
pub tok: token::Token,
pub sp: Span,
}
impl Default for TokenAndSpan {
fn default() -> Self {
TokenAndSpan {
tok: token::Whitespace,
sp: syntax_pos::DUMMY_SP,
}
}
}
#[derive(Clone, Debug)]
pub struct UnmatchedBrace {
pub expected_delim: token::DelimToken,
pub found_delim: token::DelimToken,
pub found_span: Span,
pub unclosed_span: Option<Span>,
pub candidate_span: Option<Span>,
}
pub struct StringReader<'a> {
crate sess: &'a ParseSess,
/// The absolute offset within the source_map of the next character to read
crate next_pos: BytePos,
/// The absolute offset within the source_map of the current character
crate pos: BytePos,
/// The current character (which has been read from self.pos)
crate ch: Option<char>,
crate source_file: Lrc<syntax_pos::SourceFile>,
/// Stop reading src at this index.
crate end_src_index: usize,
// cached:
peek_tok: token::Token,
peek_span: Span,
peek_span_src_raw: Span,
fatal_errs: Vec<DiagnosticBuilder<'a>>,
// cache a direct reference to the source text, so that we don't have to
// retrieve it via `self.source_file.src.as_ref().unwrap()` all the time.
src: Lrc<String>,
token: token::Token,
span: Span,
/// The raw source span which *does not* take `override_span` into account
span_src_raw: Span,
/// Stack of open delimiters and their spans. Used for error message.
open_braces: Vec<(token::DelimToken, Span)>,
crate unmatched_braces: Vec<UnmatchedBrace>,
/// The type and spans for all braces
///
/// Used only for error recovery when arriving to EOF with mismatched braces.
matching_delim_spans: Vec<(token::DelimToken, Span, Span)>,
crate override_span: Option<Span>,
last_unclosed_found_span: Option<Span>,
}
impl<'a> StringReader<'a> {
fn mk_sp(&self, lo: BytePos, hi: BytePos) -> Span {
self.mk_sp_and_raw(lo, hi).0
}
fn mk_sp_and_raw(&self, lo: BytePos, hi: BytePos) -> (Span, Span) {
let raw = Span::new(lo, hi, NO_EXPANSION);
let real = self.override_span.unwrap_or(raw);
(real, raw)
}
fn mk_ident(&self, string: &str) -> Ident {
let mut ident = Ident::from_str(string);
if let Some(span) = self.override_span {
ident.span = span;
}
ident
}
fn unwrap_or_abort(&mut self, res: Result<TokenAndSpan, ()>) -> TokenAndSpan {
match res {
Ok(tok) => tok,
Err(_) => {
self.emit_fatal_errors();
FatalError.raise();
}
}
}
fn next_token(&mut self) -> TokenAndSpan where Self: Sized {
let res = self.try_next_token();
self.unwrap_or_abort(res)
}
/// Returns the next token. EFFECT: advances the string_reader.
pub fn try_next_token(&mut self) -> Result<TokenAndSpan, ()> {
assert!(self.fatal_errs.is_empty());
let ret_val = TokenAndSpan {
tok: replace(&mut self.peek_tok, token::Whitespace),
sp: self.peek_span,
};
self.advance_token()?;
self.span_src_raw = self.peek_span_src_raw;
Ok(ret_val)
}
/// Immutably extract string if found at current position with given delimiters
fn peek_delimited(&self, from_ch: char, to_ch: char) -> Option<String> {
let mut pos = self.pos;
let mut idx = self.src_index(pos);
let mut ch = char_at(&self.src, idx);
if ch != from_ch {
return None;
}
pos = pos + Pos::from_usize(ch.len_utf8());
let start_pos = pos;
idx = self.src_index(pos);
while idx < self.end_src_index {
ch = char_at(&self.src, idx);
if ch == to_ch {
return Some(self.src[self.src_index(start_pos)..self.src_index(pos)].to_string());
}
pos = pos + Pos::from_usize(ch.len_utf8());
idx = self.src_index(pos);
}
return None;
}
fn try_real_token(&mut self) -> Result<TokenAndSpan, ()> {
let mut t = self.try_next_token()?;
loop {
match t.tok {
token::Whitespace | token::Comment | token::Shebang(_) => {
t = self.try_next_token()?;
}
_ => break,
}
}
self.token = t.tok.clone();
self.span = t.sp;
Ok(t)
}
pub fn real_token(&mut self) -> TokenAndSpan {
let res = self.try_real_token();
self.unwrap_or_abort(res)
}
#[inline]
fn is_eof(&self) -> bool {
self.ch.is_none()
}
fn fail_unterminated_raw_string(&self, pos: BytePos, hash_count: u16) {
let mut err = self.struct_span_fatal(pos, pos, "unterminated raw string");
err.span_label(self.mk_sp(pos, pos), "unterminated raw string");
if hash_count > 0 {
err.note(&format!("this raw string should be terminated with `\"{}`",
"#".repeat(hash_count as usize)));
}
err.emit();
FatalError.raise();
}
fn fatal(&self, m: &str) -> FatalError {
self.fatal_span(self.peek_span, m)
}
crate fn emit_fatal_errors(&mut self) {
for err in &mut self.fatal_errs {
err.emit();
}
self.fatal_errs.clear();
}
pub fn buffer_fatal_errors(&mut self) -> Vec<Diagnostic> {
let mut buffer = Vec::new();
for err in self.fatal_errs.drain(..) {
err.buffer(&mut buffer);
}
buffer
}
pub fn peek(&self) -> TokenAndSpan {
// FIXME(pcwalton): Bad copy!
TokenAndSpan {
tok: self.peek_tok.clone(),
sp: self.peek_span,
}
}
/// For comments.rs, which hackily pokes into next_pos and ch
fn new_raw(sess: &'a ParseSess,
source_file: Lrc<syntax_pos::SourceFile>,
override_span: Option<Span>) -> Self {
let mut sr = StringReader::new_raw_internal(sess, source_file, override_span);
sr.bump();
sr
}
fn new_raw_internal(sess: &'a ParseSess, source_file: Lrc<syntax_pos::SourceFile>,
override_span: Option<Span>) -> Self
{
if source_file.src.is_none() {
sess.span_diagnostic.bug(&format!("Cannot lex source_file without source: {}",
source_file.name));
}
let src = (*source_file.src.as_ref().unwrap()).clone();
StringReader {
sess,
next_pos: source_file.start_pos,
pos: source_file.start_pos,
ch: Some('\n'),
source_file,
end_src_index: src.len(),
// dummy values; not read
peek_tok: token::Eof,
peek_span: syntax_pos::DUMMY_SP,
peek_span_src_raw: syntax_pos::DUMMY_SP,
src,
fatal_errs: Vec::new(),
token: token::Eof,
span: syntax_pos::DUMMY_SP,
span_src_raw: syntax_pos::DUMMY_SP,
open_braces: Vec::new(),
unmatched_braces: Vec::new(),
matching_delim_spans: Vec::new(),
override_span,
last_unclosed_found_span: None,
}
}
pub fn new_or_buffered_errs(sess: &'a ParseSess,
source_file: Lrc<syntax_pos::SourceFile>,
override_span: Option<Span>) -> Result<Self, Vec<Diagnostic>> {
let mut sr = StringReader::new_raw(sess, source_file, override_span);
if sr.advance_token().is_err() {
Err(sr.buffer_fatal_errors())
} else {
Ok(sr)
}
}
pub fn retokenize(sess: &'a ParseSess, mut span: Span) -> Self {
let begin = sess.source_map().lookup_byte_offset(span.lo());
let end = sess.source_map().lookup_byte_offset(span.hi());
// Make the range zero-length if the span is invalid.
if span.lo() > span.hi() || begin.sf.start_pos != end.sf.start_pos {
span = span.shrink_to_lo();
}
let mut sr = StringReader::new_raw_internal(sess, begin.sf, None);
// Seek the lexer to the right byte range.
sr.next_pos = span.lo();
sr.end_src_index = sr.src_index(span.hi());
sr.bump();
if sr.advance_token().is_err() {
sr.emit_fatal_errors();
FatalError.raise();
}
sr
}
#[inline]
fn ch_is(&self, c: char) -> bool {
self.ch == Some(c)
}
/// Report a fatal lexical error with a given span.
fn fatal_span(&self, sp: Span, m: &str) -> FatalError {
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) -> FatalError {
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)
}
/// Report a lexical error spanning [`from_pos`, `to_pos`), appending an
/// escaped character to the error message
fn fatal_span_char(&self, from_pos: BytePos, to_pos: BytePos, m: &str, c: char) -> FatalError {
let mut m = m.to_string();
m.push_str(": ");
push_escaped_char(&mut m, c);
self.fatal_span_(from_pos, to_pos, &m[..])
}
fn struct_span_fatal(&self, from_pos: BytePos, to_pos: BytePos, m: &str)
-> DiagnosticBuilder<'a>
{
self.sess.span_diagnostic.struct_span_fatal(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>
{
let mut m = m.to_string();
m.push_str(": ");
push_escaped_char(&mut m, c);
self.sess.span_diagnostic.struct_span_fatal(self.mk_sp(from_pos, to_pos), &m[..])
}
/// Report a lexical error spanning [`from_pos`, `to_pos`), appending an
/// escaped character to the error message
fn err_span_char(&self, from_pos: BytePos, to_pos: BytePos, m: &str, c: char) {
let mut m = m.to_string();
m.push_str(": ");
push_escaped_char(&mut m, c);
self.err_span_(from_pos, to_pos, &m[..]);
}
/// Advance peek_tok and peek_span to refer to the next token, and
/// possibly update the interner.
fn advance_token(&mut self) -> Result<(), ()> {
match self.scan_whitespace_or_comment() {
Some(comment) => {
self.peek_span_src_raw = comment.sp;
self.peek_span = comment.sp;
self.peek_tok = comment.tok;
}
None => {
if self.is_eof() {
self.peek_tok = token::Eof;
let (real, raw) = self.mk_sp_and_raw(
self.source_file.end_pos,
self.source_file.end_pos,
);
self.peek_span = real;
self.peek_span_src_raw = raw;
} else {
let start_bytepos = self.pos;
self.peek_tok = self.next_token_inner()?;
let (real, raw) = self.mk_sp_and_raw(start_bytepos, self.pos);
self.peek_span = real;
self.peek_span_src_raw = raw;
};
}
}
Ok(())
}
#[inline]
fn src_index(&self, pos: BytePos) -> usize {
(pos - self.source_file.start_pos).to_usize()
}
/// Calls `f` with a string slice of the source text spanning from `start`
/// up to but excluding `self.pos`, meaning the slice does not include
/// the character `self.ch`.
fn with_str_from<T, F>(&self, start: BytePos, f: F) -> T
where F: FnOnce(&str) -> T
{
self.with_str_from_to(start, self.pos, f)
}
/// Creates a Name from a given offset to the current offset.
fn name_from(&self, start: BytePos) -> ast::Name {
debug!("taking an ident from {:?} to {:?}", start, self.pos);
self.with_str_from(start, Symbol::intern)
}
/// As name_from, with an explicit endpoint.
fn name_from_to(&self, start: BytePos, end: BytePos) -> ast::Name {
debug!("taking an ident from {:?} to {:?}", start, end);
self.with_str_from_to(start, end, Symbol::intern)
}
/// Calls `f` with a string slice of the source text spanning from `start`
/// up to but excluding `end`.
fn with_str_from_to<T, F>(&self, start: BytePos, end: BytePos, f: F) -> T
where F: FnOnce(&str) -> T
{
f(&self.src[self.src_index(start)..self.src_index(end)])
}
/// Converts CRLF to LF in the given string, raising an error on bare CR.
fn translate_crlf<'b>(&self, start: BytePos, s: &'b str, errmsg: &'b str) -> Cow<'b, str> {
let mut chars = s.char_indices().peekable();
while let Some((i, ch)) = chars.next() {
if ch == '\r' {
if let Some((lf_idx, '\n')) = chars.peek() {
return translate_crlf_(self, start, s, *lf_idx, chars, errmsg).into();
}
let pos = start + BytePos(i as u32);
let end_pos = start + BytePos((i + ch.len_utf8()) as u32);
self.err_span_(pos, end_pos, errmsg);
}
}
return s.into();
fn translate_crlf_(rdr: &StringReader<'_>,
start: BytePos,
s: &str,
mut j: usize,
mut chars: iter::Peekable<impl Iterator<Item = (usize, char)>>,
errmsg: &str)
-> String {
let mut buf = String::with_capacity(s.len());
// Skip first CR
buf.push_str(&s[.. j - 1]);
while let Some((i, ch)) = chars.next() {
if ch == '\r' {
if j < i {
buf.push_str(&s[j..i]);
}
let next = i + ch.len_utf8();
j = next;
if chars.peek().map(|(_, ch)| *ch) != Some('\n') {
let pos = start + BytePos(i as u32);
let end_pos = start + BytePos(next as u32);
rdr.err_span_(pos, end_pos, errmsg);
}
}
}
if j < s.len() {
buf.push_str(&s[j..]);
}
buf
}
}
/// Advance the StringReader by one character.
crate fn bump(&mut self) {
let next_src_index = self.src_index(self.next_pos);
if next_src_index < self.end_src_index {
let next_ch = char_at(&self.src, next_src_index);
let next_ch_len = next_ch.len_utf8();
self.ch = Some(next_ch);
self.pos = self.next_pos;
self.next_pos = self.next_pos + Pos::from_usize(next_ch_len);
} else {
self.ch = None;
self.pos = self.next_pos;
}
}
fn nextch(&self) -> Option<char> {
let next_src_index = self.src_index(self.next_pos);
if next_src_index < self.end_src_index {
Some(char_at(&self.src, next_src_index))
} else {
None
}
}
#[inline]
fn nextch_is(&self, c: char) -> bool {
self.nextch() == Some(c)
}
fn nextnextch(&self) -> Option<char> {
let next_src_index = self.src_index(self.next_pos);
if next_src_index < self.end_src_index {
let next_next_src_index =
next_src_index + char_at(&self.src, next_src_index).len_utf8();
if next_next_src_index < self.end_src_index {
return Some(char_at(&self.src, next_next_src_index));
}
}
None
}
#[inline]
fn nextnextch_is(&self, c: char) -> bool {
self.nextnextch() == Some(c)
}
/// Eats <XID_start><XID_continue>*, if possible.
fn scan_optional_raw_name(&mut self) -> Option<ast::Name> {
if !ident_start(self.ch) {
return None;
}
let start = self.pos;
self.bump();
while ident_continue(self.ch) {
self.bump();
}
self.with_str_from(start, |string| {
if string == "_" {
self.sess.span_diagnostic
.struct_span_warn(self.mk_sp(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("for more information, see issue #42326 \
<https://github.com/rust-lang/rust/issues/42326>")
.emit();
None
} else {
Some(Symbol::intern(string))
}
})
}
/// PRECONDITION: self.ch is not whitespace
/// Eats any kind of comment.
fn scan_comment(&mut self) -> Option<TokenAndSpan> {
if let Some(c) = self.ch {
if c.is_whitespace() {
let msg = "called consume_any_line_comment, but there was whitespace";
self.sess.span_diagnostic.span_err(self.mk_sp(self.pos, self.pos), msg);
}
}
if self.ch_is('/') {
match self.nextch() {
Some('/') => {
self.bump();
self.bump();
// line comments starting with "///" or "//!" are doc-comments
let doc_comment = (self.ch_is('/') && !self.nextch_is('/')) || self.ch_is('!');
let start_bpos = self.pos - BytePos(2);
while !self.is_eof() {
match self.ch.unwrap() {
'\n' => break,
'\r' => {
if self.nextch_is('\n') {
// CRLF
break;
} else if doc_comment {
self.err_span_(self.pos,
self.next_pos,
"bare CR not allowed in doc-comment");
}
}
_ => (),
}
self.bump();
}
let tok = if doc_comment {
self.with_str_from(start_bpos, |string| {
token::DocComment(Symbol::intern(string))
})
} else {
token::Comment
};
Some(TokenAndSpan { tok, sp: self.mk_sp(start_bpos, self.pos) })
}
Some('*') => {
self.bump();
self.bump();
self.scan_block_comment()
}
_ => None,
}
} else if self.ch_is('#') {
if self.nextch_is('!') {
// Parse an inner attribute.
if self.nextnextch_is('[') {
return None;
}
let is_beginning_of_file = self.pos == self.source_file.start_pos;
if is_beginning_of_file {
debug!("Skipping a shebang");
let start = self.pos;
while !self.ch_is('\n') && !self.is_eof() {
self.bump();
}
return Some(TokenAndSpan {
tok: token::Shebang(self.name_from(start)),
sp: self.mk_sp(start, self.pos),
});
}
}
None
} else {
None
}
}
/// If there is whitespace, shebang, or a comment, scan it. Otherwise,
/// return `None`.
fn scan_whitespace_or_comment(&mut self) -> Option<TokenAndSpan> {
match self.ch.unwrap_or('\0') {
// # to handle shebang at start of file -- this is the entry point
// for skipping over all "junk"
'/' | '#' => {
let c = self.scan_comment();
debug!("scanning a comment {:?}", c);
c
},
c if is_pattern_whitespace(Some(c)) => {
let start_bpos = self.pos;
while is_pattern_whitespace(self.ch) {
self.bump();
}
let c = Some(TokenAndSpan {
tok: token::Whitespace,
sp: self.mk_sp(start_bpos, self.pos),
});
debug!("scanning whitespace: {:?}", c);
c
}
_ => None,
}
}
/// Might return a sugared-doc-attr
fn scan_block_comment(&mut self) -> Option<TokenAndSpan> {
// block comments starting with "/**" or "/*!" are doc-comments
let is_doc_comment = self.ch_is('*') || self.ch_is('!');
let start_bpos = self.pos - BytePos(2);
let mut level: isize = 1;
let mut has_cr = false;
while level > 0 {
if self.is_eof() {
let msg = if is_doc_comment {
"unterminated block doc-comment"
} else {
"unterminated block comment"
};
let last_bpos = self.pos;
self.fatal_span_(start_bpos, last_bpos, msg).raise();
}
let n = self.ch.unwrap();
match n {
'/' if self.nextch_is('*') => {
level += 1;
self.bump();
}
'*' if self.nextch_is('/') => {
level -= 1;
self.bump();
}
'\r' => {
has_cr = true;
}
_ => (),
}
self.bump();
}
self.with_str_from(start_bpos, |string| {
// but comments with only "*"s between two "/"s are not
let tok = if is_block_doc_comment(string) {
let string = if has_cr {
self.translate_crlf(start_bpos,
string,
"bare CR not allowed in block doc-comment")
} else {
string.into()
};
token::DocComment(Symbol::intern(&string[..]))
} else {
token::Comment
};
Some(TokenAndSpan {
tok,
sp: self.mk_sp(start_bpos, self.pos),
})
})
}
/// Scan through any digits (base `scan_radix`) or underscores,
/// and return how many digits there were.
///
/// `real_radix` represents the true radix of the number we're
/// interested in, and errors will be emitted for any digits
/// between `real_radix` and `scan_radix`.
fn scan_digits(&mut self, real_radix: u32, scan_radix: u32) -> usize {
assert!(real_radix <= scan_radix);
let mut len = 0;
loop {
let c = self.ch;
if c == Some('_') {
debug!("skipping a _");
self.bump();
continue;
}
match c.and_then(|cc| cc.to_digit(scan_radix)) {
Some(_) => {
debug!("{:?} in scan_digits", c);
// check that the hypothetical digit is actually
// in range for the true radix
if c.unwrap().to_digit(real_radix).is_none() {
self.err_span_(self.pos,
self.next_pos,
&format!("invalid digit for a base {} literal", real_radix));
}
len += 1;
self.bump();
}
_ => return len,
}
}
}
/// Lex a LIT_INTEGER or a LIT_FLOAT
fn scan_number(&mut self, c: char) -> token::Lit {
let mut base = 10;
let start_bpos = self.pos;
self.bump();
let num_digits = if c == '0' {
match self.ch.unwrap_or('\0') {
'b' => {
self.bump();
base = 2;
self.scan_digits(2, 10)
}
'o' => {
self.bump();
base = 8;
self.scan_digits(8, 10)
}
'x' => {
self.bump();
base = 16;
self.scan_digits(16, 16)
}
'0'..='9' | '_' | '.' | 'e' | 'E' => {
self.scan_digits(10, 10) + 1
}
_ => {
// just a 0
return token::Integer(self.name_from(start_bpos));
}
}
} else if c.is_digit(10) {
self.scan_digits(10, 10) + 1
} else {
0
};
if num_digits == 0 {
self.err_span_(start_bpos, self.pos, "no valid digits found for number");
return token::Integer(Symbol::intern("0"));
}
// might be a float, but don't be greedy if this is actually an
// integer literal followed by field/method access or a range pattern
// (`0..2` and `12.foo()`)
if self.ch_is('.') && !self.nextch_is('.') &&
!ident_start(self.nextch()) {
// might have stuff after the ., and if it does, it needs to start
// with a number
self.bump();
if self.ch.unwrap_or('\0').is_digit(10) {
self.scan_digits(10, 10);
self.scan_float_exponent();
}
let pos = self.pos;
self.check_float_base(start_bpos, pos, base);
token::Float(self.name_from(start_bpos))
} else {
// it might be a float if it has an exponent
if self.ch_is('e') || self.ch_is('E') {
self.scan_float_exponent();
let pos = self.pos;
self.check_float_base(start_bpos, pos, base);
return token::Float(self.name_from(start_bpos));
}
// but we certainly have an integer!
token::Integer(self.name_from(start_bpos))
}
}
/// Scan over a float exponent.
fn scan_float_exponent(&mut self) {
if self.ch_is('e') || self.ch_is('E') {
self.bump();
if self.ch_is('-') || self.ch_is('+') {
self.bump();
}
if self.scan_digits(10, 10) == 0 {
let mut err = self.struct_span_fatal(
self.pos, self.next_pos,
"expected at least one digit in exponent"
);
if let Some(ch) = self.ch {
// check for e.g., Unicode minus '−' (Issue #49746)
if unicode_chars::check_for_substitution(self, ch, &mut err) {
self.bump();
self.scan_digits(10, 10);
}
}
err.emit();
}
}
}
/// Checks that a base is valid for a floating literal, emitting a nice
/// error if it isn't.
fn check_float_base(&mut self, start_bpos: BytePos, last_bpos: BytePos, base: usize) {
match base {
16 => {
self.err_span_(start_bpos,
last_bpos,
"hexadecimal float literal is not supported")
}
8 => {
self.err_span_(start_bpos,
last_bpos,
"octal float literal is not supported")
}
2 => {
self.err_span_(start_bpos,
last_bpos,
"binary float literal is not supported")
}
_ => (),
}
}
fn binop(&mut self, op: token::BinOpToken) -> token::Token {
self.bump();
if self.ch_is('=') {
self.bump();
token::BinOpEq(op)
} else {
token::BinOp(op)
}
}
/// Returns the next token from the string, advances the input past that
/// token, and updates the interner
fn next_token_inner(&mut self) -> Result<token::Token, ()> {
let c = self.ch;
if ident_start(c) {
let (is_ident_start, is_raw_ident) =
match (c.unwrap(), self.nextch(), self.nextnextch()) {
// r# followed by an identifier starter is a raw identifier.
// This is an exception to the r# case below.
('r', Some('#'), x) if ident_start(x) => (true, true),
// r as in r" or r#" is part of a raw string literal.
// b as in b' is part of a byte literal.
// They are not identifiers, and are handled further down.
('r', Some('"'), _) |
('r', Some('#'), _) |
('b', Some('"'), _) |
('b', Some('\''), _) |
('b', Some('r'), Some('"')) |
('b', Some('r'), Some('#')) => (false, false),
_ => (true, false),
};
if is_ident_start {
let raw_start = self.pos;
if is_raw_ident {
// Consume the 'r#' characters.
self.bump();
self.bump();
}
let start = self.pos;
self.bump();
while ident_continue(self.ch) {
self.bump();
}
return Ok(self.with_str_from(start, |string| {
// FIXME: perform NFKC normalization here. (Issue #2253)
let ident = self.mk_ident(string);
if is_raw_ident {
let span = self.mk_sp(raw_start, self.pos);
if !ident.can_be_raw() {
self.err_span(span, &format!("`{}` cannot be a raw identifier", ident));
}
self.sess.raw_identifier_spans.borrow_mut().push(span);
}
token::Ident(ident, is_raw_ident)
}));
}
}
if is_dec_digit(c) {
let num = self.scan_number(c.unwrap());
let suffix = self.scan_optional_raw_name();
debug!("next_token_inner: scanned number {:?}, {:?}", num, suffix);
return Ok(token::Literal(num, suffix));
}
match c.expect("next_token_inner called at EOF") {
// One-byte tokens.
';' => {
self.bump();
Ok(token::Semi)
}
',' => {
self.bump();
Ok(token::Comma)
}
'.' => {
self.bump();
if self.ch_is('.') {
self.bump();
if self.ch_is('.') {
self.bump();
Ok(token::DotDotDot)
} else if self.ch_is('=') {
self.bump();
Ok(token::DotDotEq)
} else {
Ok(token::DotDot)
}
} else {
Ok(token::Dot)
}
}
'(' => {
self.bump();
Ok(token::OpenDelim(token::Paren))
}
')' => {
self.bump();
Ok(token::CloseDelim(token::Paren))
}
'{' => {
self.bump();
Ok(token::OpenDelim(token::Brace))
}
'}' => {
self.bump();
Ok(token::CloseDelim(token::Brace))
}
'[' => {
self.bump();
Ok(token::OpenDelim(token::Bracket))
}
']' => {
self.bump();
Ok(token::CloseDelim(token::Bracket))
}
'@' => {
self.bump();
Ok(token::At)
}
'#' => {