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strings.rs
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strings.rs
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use std::borrow::Cow;
use std::char;
use std::ops::RangeInclusive;
use winnow::combinator::alt;
use winnow::combinator::cut_err;
use winnow::combinator::delimited;
use winnow::combinator::empty;
use winnow::combinator::fail;
use winnow::combinator::opt;
use winnow::combinator::peek;
use winnow::combinator::preceded;
use winnow::combinator::repeat;
use winnow::combinator::terminated;
use winnow::combinator::trace;
use winnow::prelude::*;
use winnow::stream::Stream;
use winnow::token::any;
use winnow::token::none_of;
use winnow::token::one_of;
use winnow::token::take_while;
use crate::parser::error::CustomError;
use crate::parser::numbers::HEXDIG;
use crate::parser::prelude::*;
use crate::parser::trivia::{from_utf8_unchecked, newline, ws, ws_newlines, NON_ASCII, WSCHAR};
// ;; String
// string = ml-basic-string / basic-string / ml-literal-string / literal-string
pub(crate) fn string<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
trace(
"string",
alt((
ml_basic_string,
basic_string,
ml_literal_string,
literal_string.map(Cow::Borrowed),
)),
)
.parse_next(input)
}
// ;; Basic String
// basic-string = quotation-mark *basic-char quotation-mark
pub(crate) fn basic_string<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
trace("basic-string", |input: &mut Input<'i>| {
let _ = one_of(QUOTATION_MARK).parse_next(input)?;
let mut c = Cow::Borrowed("");
if let Some(ci) = opt(basic_chars).parse_next(input)? {
c = ci;
}
while let Some(ci) = opt(basic_chars).parse_next(input)? {
c.to_mut().push_str(&ci);
}
let _ = cut_err(one_of(QUOTATION_MARK))
.context(StrContext::Label("basic string"))
.parse_next(input)?;
Ok(c)
})
.parse_next(input)
}
// quotation-mark = %x22 ; "
pub(crate) const QUOTATION_MARK: u8 = b'"';
// basic-char = basic-unescaped / escaped
fn basic_chars<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
alt((
// Deviate from the official grammar by batching the unescaped chars so we build a string a
// chunk at a time, rather than a `char` at a time.
take_while(1.., BASIC_UNESCAPED)
.try_map(std::str::from_utf8)
.map(Cow::Borrowed),
escaped.map(|c| Cow::Owned(String::from(c))),
))
.parse_next(input)
}
// basic-unescaped = wschar / %x21 / %x23-5B / %x5D-7E / non-ascii
pub(crate) const BASIC_UNESCAPED: (
(u8, u8),
u8,
RangeInclusive<u8>,
RangeInclusive<u8>,
RangeInclusive<u8>,
) = (WSCHAR, 0x21, 0x23..=0x5B, 0x5D..=0x7E, NON_ASCII);
// escaped = escape escape-seq-char
fn escaped(input: &mut Input<'_>) -> PResult<char> {
preceded(ESCAPE, escape_seq_char).parse_next(input)
}
// escape = %x5C ; \
pub(crate) const ESCAPE: u8 = b'\\';
// escape-seq-char = %x22 ; " quotation mark U+0022
// escape-seq-char =/ %x5C ; \ reverse solidus U+005C
// escape-seq-char =/ %x62 ; b backspace U+0008
// escape-seq-char =/ %x66 ; f form feed U+000C
// escape-seq-char =/ %x6E ; n line feed U+000A
// escape-seq-char =/ %x72 ; r carriage return U+000D
// escape-seq-char =/ %x74 ; t tab U+0009
// escape-seq-char =/ %x75 4HEXDIG ; uXXXX U+XXXX
// escape-seq-char =/ %x55 8HEXDIG ; UXXXXXXXX U+XXXXXXXX
fn escape_seq_char(input: &mut Input<'_>) -> PResult<char> {
dispatch! {any;
b'b' => empty.value('\u{8}'),
b'f' => empty.value('\u{c}'),
b'n' => empty.value('\n'),
b'r' => empty.value('\r'),
b't' => empty.value('\t'),
b'u' => cut_err(hexescape::<4>).context(StrContext::Label("unicode 4-digit hex code")),
b'U' => cut_err(hexescape::<8>).context(StrContext::Label("unicode 8-digit hex code")),
b'\\' => empty.value('\\'),
b'"' => empty.value('"'),
_ => {
cut_err(fail::<_, char, _>)
.context(StrContext::Label("escape sequence"))
.context(StrContext::Expected(StrContextValue::CharLiteral('b')))
.context(StrContext::Expected(StrContextValue::CharLiteral('f')))
.context(StrContext::Expected(StrContextValue::CharLiteral('n')))
.context(StrContext::Expected(StrContextValue::CharLiteral('r')))
.context(StrContext::Expected(StrContextValue::CharLiteral('t')))
.context(StrContext::Expected(StrContextValue::CharLiteral('u')))
.context(StrContext::Expected(StrContextValue::CharLiteral('U')))
.context(StrContext::Expected(StrContextValue::CharLiteral('\\')))
.context(StrContext::Expected(StrContextValue::CharLiteral('"')))
}
}
.parse_next(input)
}
pub(crate) fn hexescape<const N: usize>(input: &mut Input<'_>) -> PResult<char> {
take_while(0..=N, HEXDIG)
.verify(|b: &[u8]| b.len() == N)
.map(|b: &[u8]| unsafe { from_utf8_unchecked(b, "`is_ascii_digit` filters out on-ASCII") })
.verify_map(|s| u32::from_str_radix(s, 16).ok())
.try_map(|h| char::from_u32(h).ok_or(CustomError::OutOfRange))
.parse_next(input)
}
// ;; Multiline Basic String
// ml-basic-string = ml-basic-string-delim [ newline ] ml-basic-body
// ml-basic-string-delim
fn ml_basic_string<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
trace(
"ml-basic-string",
delimited(
ML_BASIC_STRING_DELIM,
preceded(opt(newline), cut_err(ml_basic_body)),
cut_err(ML_BASIC_STRING_DELIM),
)
.context(StrContext::Label("multiline basic string")),
)
.parse_next(input)
}
// ml-basic-string-delim = 3quotation-mark
pub(crate) const ML_BASIC_STRING_DELIM: &[u8] = b"\"\"\"";
// ml-basic-body = *mlb-content *( mlb-quotes 1*mlb-content ) [ mlb-quotes ]
fn ml_basic_body<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
let mut c = Cow::Borrowed("");
if let Some(ci) = opt(mlb_content).parse_next(input)? {
c = ci;
}
while let Some(ci) = opt(mlb_content).parse_next(input)? {
c.to_mut().push_str(&ci);
}
while let Some(qi) = opt(mlb_quotes(none_of(b'\"').value(()))).parse_next(input)? {
if let Some(ci) = opt(mlb_content).parse_next(input)? {
c.to_mut().push_str(qi);
c.to_mut().push_str(&ci);
while let Some(ci) = opt(mlb_content).parse_next(input)? {
c.to_mut().push_str(&ci);
}
} else {
break;
}
}
if let Some(qi) = opt(mlb_quotes(ML_BASIC_STRING_DELIM.void())).parse_next(input)? {
c.to_mut().push_str(qi);
}
Ok(c)
}
// mlb-content = mlb-char / newline / mlb-escaped-nl
// mlb-char = mlb-unescaped / escaped
fn mlb_content<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
alt((
// Deviate from the official grammar by batching the unescaped chars so we build a string a
// chunk at a time, rather than a `char` at a time.
take_while(1.., MLB_UNESCAPED)
.try_map(std::str::from_utf8)
.map(Cow::Borrowed),
// Order changed fromg grammar so `escaped` can more easily `cut_err` on bad escape sequences
mlb_escaped_nl.map(|_| Cow::Borrowed("")),
escaped.map(|c| Cow::Owned(String::from(c))),
newline.map(|_| Cow::Borrowed("\n")),
))
.parse_next(input)
}
// mlb-quotes = 1*2quotation-mark
fn mlb_quotes<'i>(
mut term: impl Parser<Input<'i>, (), ContextError>,
) -> impl Parser<Input<'i>, &'i str, ContextError> {
move |input: &mut Input<'i>| {
let start = input.checkpoint();
let res = terminated(b"\"\"", peek(term.by_ref()))
.map(|b| unsafe { from_utf8_unchecked(b, "`bytes` out non-ASCII") })
.parse_next(input);
match res {
Err(winnow::error::ErrMode::Backtrack(_)) => {
input.reset(&start);
terminated(b"\"", peek(term.by_ref()))
.map(|b| unsafe { from_utf8_unchecked(b, "`bytes` out non-ASCII") })
.parse_next(input)
}
res => res,
}
}
}
// mlb-unescaped = wschar / %x21 / %x23-5B / %x5D-7E / non-ascii
pub(crate) const MLB_UNESCAPED: (
(u8, u8),
u8,
RangeInclusive<u8>,
RangeInclusive<u8>,
RangeInclusive<u8>,
) = (WSCHAR, 0x21, 0x23..=0x5B, 0x5D..=0x7E, NON_ASCII);
// mlb-escaped-nl = escape ws newline *( wschar / newline
// When the last non-whitespace character on a line is a \,
// it will be trimmed along with all whitespace
// (including newlines) up to the next non-whitespace
// character or closing delimiter.
fn mlb_escaped_nl(input: &mut Input<'_>) -> PResult<()> {
repeat(1.., (ESCAPE, ws, ws_newlines))
.map(|()| ())
.value(())
.parse_next(input)
}
// ;; Literal String
// literal-string = apostrophe *literal-char apostrophe
pub(crate) fn literal_string<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
trace(
"literal-string",
delimited(
APOSTROPHE,
cut_err(take_while(0.., LITERAL_CHAR)),
cut_err(APOSTROPHE),
)
.try_map(std::str::from_utf8)
.context(StrContext::Label("literal string")),
)
.parse_next(input)
}
// apostrophe = %x27 ; ' apostrophe
pub(crate) const APOSTROPHE: u8 = b'\'';
// literal-char = %x09 / %x20-26 / %x28-7E / non-ascii
pub(crate) const LITERAL_CHAR: (
u8,
RangeInclusive<u8>,
RangeInclusive<u8>,
RangeInclusive<u8>,
) = (0x9, 0x20..=0x26, 0x28..=0x7E, NON_ASCII);
// ;; Multiline Literal String
// ml-literal-string = ml-literal-string-delim [ newline ] ml-literal-body
// ml-literal-string-delim
fn ml_literal_string<'i>(input: &mut Input<'i>) -> PResult<Cow<'i, str>> {
trace(
"ml-literal-string",
delimited(
(ML_LITERAL_STRING_DELIM, opt(newline)),
cut_err(ml_literal_body.map(|t| {
if t.contains("\r\n") {
Cow::Owned(t.replace("\r\n", "\n"))
} else {
Cow::Borrowed(t)
}
})),
cut_err(ML_LITERAL_STRING_DELIM),
)
.context(StrContext::Label("multiline literal string")),
)
.parse_next(input)
}
// ml-literal-string-delim = 3apostrophe
pub(crate) const ML_LITERAL_STRING_DELIM: &[u8] = b"'''";
// ml-literal-body = *mll-content *( mll-quotes 1*mll-content ) [ mll-quotes ]
fn ml_literal_body<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
(
repeat(0.., mll_content).map(|()| ()),
repeat(
0..,
(
mll_quotes(none_of(APOSTROPHE).value(())),
repeat(1.., mll_content).map(|()| ()),
),
)
.map(|()| ()),
opt(mll_quotes(ML_LITERAL_STRING_DELIM.void())),
)
.recognize()
.try_map(std::str::from_utf8)
.parse_next(input)
}
// mll-content = mll-char / newline
fn mll_content(input: &mut Input<'_>) -> PResult<u8> {
alt((one_of(MLL_CHAR), newline)).parse_next(input)
}
// mll-char = %x09 / %x20-26 / %x28-7E / non-ascii
const MLL_CHAR: (
u8,
RangeInclusive<u8>,
RangeInclusive<u8>,
RangeInclusive<u8>,
) = (0x9, 0x20..=0x26, 0x28..=0x7E, NON_ASCII);
// mll-quotes = 1*2apostrophe
fn mll_quotes<'i>(
mut term: impl Parser<Input<'i>, (), ContextError>,
) -> impl Parser<Input<'i>, &'i str, ContextError> {
move |input: &mut Input<'i>| {
let start = input.checkpoint();
let res = terminated(b"''", peek(term.by_ref()))
.map(|b| unsafe { from_utf8_unchecked(b, "`bytes` out non-ASCII") })
.parse_next(input);
match res {
Err(winnow::error::ErrMode::Backtrack(_)) => {
input.reset(&start);
terminated(b"'", peek(term.by_ref()))
.map(|b| unsafe { from_utf8_unchecked(b, "`bytes` out non-ASCII") })
.parse_next(input)
}
res => res,
}
}
}
#[cfg(test)]
#[cfg(feature = "parse")]
#[cfg(feature = "display")]
mod test {
use super::*;
#[test]
fn basic_string() {
let input =
r#""I'm a string. \"You can quote me\". Name\tJos\u00E9\nLocation\tSF. \U0002070E""#;
let expected = "I\'m a string. \"You can quote me\". Name\tJosé\nLocation\tSF. \u{2070E}";
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
#[test]
fn ml_basic_string() {
let cases = [
(
r#""""
Roses are red
Violets are blue""""#,
r#"Roses are red
Violets are blue"#,
),
(r#"""" \""" """"#, " \"\"\" "),
(r#"""" \\""""#, " \\"),
];
for &(input, expected) in &cases {
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
let invalid_cases = [r#"""" """#, r#"""" \""""#];
for input in &invalid_cases {
let parsed = string.parse(new_input(input));
assert!(parsed.is_err());
}
}
#[test]
fn ml_basic_string_escape_ws() {
let inputs = [
r#""""
The quick brown \
fox jumps over \
the lazy dog.""""#,
r#""""\
The quick brown \
fox jumps over \
the lazy dog.\
""""#,
];
for input in &inputs {
let expected = "The quick brown fox jumps over the lazy dog.";
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
let empties = [
r#""""\
""""#,
r#""""
\
\
""""#,
];
for input in &empties {
let expected = "";
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
}
#[test]
fn literal_string() {
let inputs = [
r"'C:\Users\nodejs\templates'",
r"'\\ServerX\admin$\system32\'",
r#"'Tom "Dubs" Preston-Werner'"#,
r"'<\i\c*\s*>'",
];
for input in &inputs {
let expected = &input[1..input.len() - 1];
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
}
#[test]
fn ml_literal_string() {
let inputs = [
r"'''I [dw]on't need \d{2} apples'''",
r#"''''one_quote''''"#,
];
for input in &inputs {
let expected = &input[3..input.len() - 3];
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
let input = r#"'''
The first newline is
trimmed in raw strings.
All other whitespace
is preserved.
'''"#;
let expected = &input[4..input.len() - 3];
let parsed = string.parse(new_input(input));
assert_eq!(parsed.as_deref(), Ok(expected), "Parsing {input:?}");
}
}