mirror of
https://github.com/meilisearch/MeiliSearch
synced 2024-12-28 15:31:38 +01:00
407 lines
15 KiB
Rust
407 lines
15 KiB
Rust
use nom::branch::alt;
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use nom::bytes::complete::{take_till, take_while, take_while1};
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use nom::character::complete::{char, multispace0};
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use nom::combinator::cut;
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use nom::sequence::{delimited, terminated};
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use nom::{InputIter, InputLength, InputTake, Slice};
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use crate::error::{ExpectedValueKind, NomErrorExt};
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use crate::{
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parse_geo, parse_geo_bounding_box, parse_geo_distance, parse_geo_point, parse_geo_radius,
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Error, ErrorKind, IResult, Span, Token,
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};
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/// This function goes through all characters in the [Span] if it finds any escaped character (`\`).
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/// It generates a new string with all `\` removed from the [Span].
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fn unescape(buf: Span, char_to_escape: char) -> String {
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let to_escape = format!("\\{}", char_to_escape);
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buf.replace(&to_escape, &char_to_escape.to_string())
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}
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/// Parse a value in quote. If it encounter an escaped quote it'll unescape it.
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fn quoted_by(quote: char, input: Span) -> IResult<Token> {
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// empty fields / values are valid in json
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if input.is_empty() {
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return Ok((input.slice(input.input_len()..), input.into()));
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}
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let mut escaped = false;
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let mut i = input.iter_indices();
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while let Some((idx, c)) = i.next() {
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if c == quote {
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let (rem, output) = input.take_split(idx);
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return Ok((rem, Token::new(output, escaped.then(|| unescape(output, quote)))));
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} else if c == '\\' {
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if let Some((_, c)) = i.next() {
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escaped |= c == quote;
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} else {
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return Err(nom::Err::Error(Error::new_from_kind(
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input,
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ErrorKind::MalformedValue,
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)));
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}
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}
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// if it was preceeded by a `\` or if it was anything else we can continue to advance
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}
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Ok((
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input.slice(input.input_len()..),
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Token::new(input, escaped.then(|| unescape(input, quote))),
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))
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}
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// word = (alphanumeric | _ | - | .)+ except for reserved keywords
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pub fn word_not_keyword<'a>(input: Span<'a>) -> IResult<Token<'a>> {
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let (input, word): (_, Token<'a>) =
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take_while1(is_value_component)(input).map(|(s, t)| (s, t.into()))?;
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if is_keyword(word.value()) {
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return Err(nom::Err::Error(Error::new_from_kind(
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input,
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ErrorKind::ReservedKeyword(word.value().to_owned()),
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)));
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}
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Ok((input, word))
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}
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// word = {tag}
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pub fn word_exact<'a, 'b: 'a>(tag: &'b str) -> impl Fn(Span<'a>) -> IResult<'a, Token<'a>> {
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move |input| {
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let (input, word): (_, Token<'a>) =
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take_while1(is_value_component)(input).map(|(s, t)| (s, t.into()))?;
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if word.value() == tag {
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Ok((input, word))
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} else {
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Err(nom::Err::Error(Error::new_from_kind(
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input,
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ErrorKind::InternalError(nom::error::ErrorKind::Tag),
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)))
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}
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}
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}
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/// value = WS* ( word | singleQuoted | doubleQuoted) WS+
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pub fn parse_value(input: Span) -> IResult<Token> {
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// to get better diagnostic message we are going to strip the left whitespaces from the input right now
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let (input, _) = take_while(char::is_whitespace)(input)?;
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// then, we want to check if the user is misusing a geo expression
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// This expression can’t finish without error.
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// We want to return an error in case of failure.
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let geo_reserved_parse_functions = [parse_geo_point, parse_geo_distance, parse_geo];
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for parser in geo_reserved_parse_functions {
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if let Err(err) = parser(input) {
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if err.is_failure() {
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return Err(err);
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}
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}
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}
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match parse_geo_radius(input) {
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Ok(_) => {
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return Err(nom::Err::Failure(Error::new_from_kind(input, ErrorKind::MisusedGeoRadius)))
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}
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// if we encountered a failure it means the user badly wrote a _geoRadius filter.
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// But instead of showing them how to fix his syntax we are going to tell them they should not use this filter as a value.
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Err(e) if e.is_failure() => {
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return Err(nom::Err::Failure(Error::new_from_kind(input, ErrorKind::MisusedGeoRadius)))
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}
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_ => (),
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}
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match parse_geo_bounding_box(input) {
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Ok(_) => {
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return Err(nom::Err::Failure(Error::new_from_kind(
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input,
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ErrorKind::MisusedGeoBoundingBox,
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)))
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}
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// if we encountered a failure it means the user badly wrote a _geoBoundingBox filter.
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// But instead of showing them how to fix his syntax we are going to tell them they should not use this filter as a value.
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Err(e) if e.is_failure() => {
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return Err(nom::Err::Failure(Error::new_from_kind(
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input,
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ErrorKind::MisusedGeoBoundingBox,
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)))
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}
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_ => (),
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}
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// this parser is only used when an error is encountered and it parse the
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// largest string possible that do not contain any “language” syntax.
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// If we try to parse `name = 🦀 AND language = rust` we want to return an
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// error saying we could not parse `🦀`. Not that no value were found or that
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// we could note parse `🦀 AND language = rust`.
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// we want to remove the space before entering the alt because if we don't,
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// when we create the errors from the output of the alt we have spaces everywhere
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let error_word = take_till::<_, _, Error>(is_syntax_component);
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let (input, value) = terminated(
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alt((
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delimited(char('\''), cut(|input| quoted_by('\'', input)), cut(char('\''))),
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delimited(char('"'), cut(|input| quoted_by('"', input)), cut(char('"'))),
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word_not_keyword,
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)),
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multispace0,
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)(input)
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// if we found nothing in the alt it means the user specified something that was not recognized as a value
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.map_err(|e: nom::Err<Error>| {
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e.map_err(|error| {
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let expected_value_kind = if matches!(error.kind(), ErrorKind::ReservedKeyword(_)) {
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ExpectedValueKind::ReservedKeyword
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} else {
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ExpectedValueKind::Other
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};
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Error::new_from_kind(
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error_word(input).unwrap().1,
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ErrorKind::ExpectedValue(expected_value_kind),
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)
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})
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})
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.map_err(|e| {
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e.map_fail(|failure| {
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// if we found encountered a char failure it means the user had an unmatched quote
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if matches!(failure.kind(), ErrorKind::Char(_)) {
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Error::new_from_kind(input, ErrorKind::MissingClosingDelimiter(failure.char()))
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} else {
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// else we let the failure untouched
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failure
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}
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})
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})?;
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match unescaper::unescape(value.value()) {
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Ok(content) => {
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if content.len() != value.value().len() {
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Ok((input, Token::new(value.original_span(), Some(content))))
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} else {
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Ok((input, value))
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}
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}
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Err(unescaper::Error::IncompleteStr(_)) => Err(nom::Err::Incomplete(nom::Needed::Unknown)),
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Err(unescaper::Error::ParseIntError { .. }) => Err(nom::Err::Error(Error::new_from_kind(
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value.original_span(),
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ErrorKind::InvalidEscapedNumber,
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))),
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Err(unescaper::Error::InvalidChar { .. }) => Err(nom::Err::Error(Error::new_from_kind(
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value.original_span(),
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ErrorKind::MalformedValue,
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))),
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}
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}
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fn is_value_component(c: char) -> bool {
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c.is_alphanumeric() || ['_', '-', '.'].contains(&c)
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}
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fn is_syntax_component(c: char) -> bool {
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c.is_whitespace() || ['(', ')', '=', '<', '>', '!'].contains(&c)
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}
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fn is_keyword(s: &str) -> bool {
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matches!(
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s,
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"AND"
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| "OR"
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| "IN"
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| "NOT"
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| "TO"
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| "EXISTS"
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| "IS"
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| "NULL"
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| "EMPTY"
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| "_geoRadius"
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| "_geoBoundingBox"
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)
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}
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#[cfg(test)]
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pub mod test {
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use nom::Finish;
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use super::*;
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use crate::tests::rtok;
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#[test]
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fn test_span() {
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let test_case = [
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("channel", rtok("", "channel")),
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(".private", rtok("", ".private")),
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("I-love-kebab", rtok("", "I-love-kebab")),
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("but_snakes_is_also_good", rtok("", "but_snakes_is_also_good")),
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("parens(", rtok("", "parens")),
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("parens)", rtok("", "parens")),
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("not!", rtok("", "not")),
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(" channel", rtok(" ", "channel")),
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("channel ", rtok("", "channel")),
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(" channel ", rtok(" ", "channel")),
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("'channel'", rtok("'", "channel")),
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("\"channel\"", rtok("\"", "channel")),
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("'cha)nnel'", rtok("'", "cha)nnel")),
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("'cha\"nnel'", rtok("'", "cha\"nnel")),
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("\"cha'nnel\"", rtok("\"", "cha'nnel")),
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("\" some spaces \"", rtok("\"", " some spaces ")),
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("\"cha'nnel\"", rtok("'", "cha'nnel")),
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("\"cha'nnel\"", rtok("'", "cha'nnel")),
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("I'm tamo", rtok("'m tamo", "I")),
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("\"I'm \\\"super\\\" tamo\"", rtok("\"", "I'm \\\"super\\\" tamo")),
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];
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for (input, expected) in test_case {
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let input = Span::new_extra(input, input);
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let result = parse_value(input);
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assert!(
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result.is_ok(),
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"Filter `{:?}` was supposed to be parsed but failed with the following error: `{}`",
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expected,
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result.unwrap_err()
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);
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let token = result.unwrap().1;
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assert_eq!(token, expected, "Filter `{}` failed.", input);
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}
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}
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#[test]
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fn test_escape_inside_double_quote() {
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// (input, remaining, expected output token, output value)
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let test_case = [
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("aaaa", "", rtok("", "aaaa"), "aaaa"),
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(r#"aa"aa"#, r#""aa"#, rtok("", "aa"), "aa"),
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(r#"aa\"aa"#, r#""#, rtok("", r#"aa\"aa"#), r#"aa"aa"#),
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(r#"aa\\\aa"#, r#""#, rtok("", r#"aa\\\aa"#), r#"aa\\\aa"#),
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(r#"aa\\"\aa"#, r#""\aa"#, rtok("", r#"aa\\"#), r#"aa\\"#),
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(r#"aa\\\"\aa"#, r#""#, rtok("", r#"aa\\\"\aa"#), r#"aa\\"\aa"#),
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(r#"\"\""#, r#""#, rtok("", r#"\"\""#), r#""""#),
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];
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for (input, remaining, expected_tok, expected_val) in test_case {
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let span = Span::new_extra(input, "");
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let result = quoted_by('"', span);
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assert!(result.is_ok());
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let (rem, output) = result.unwrap();
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assert_eq!(rem.to_string(), remaining);
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assert_eq!(output, expected_tok);
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assert_eq!(output.value(), expected_val.to_string());
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}
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}
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#[test]
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fn test_unescape() {
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// double quote
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assert_eq!(
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unescape(Span::new_extra(r#"Hello \"World\""#, ""), '"'),
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r#"Hello "World""#.to_string()
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);
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assert_eq!(
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unescape(Span::new_extra(r#"Hello \\\"World\\\""#, ""), '"'),
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r#"Hello \\"World\\""#.to_string()
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);
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// simple quote
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assert_eq!(
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unescape(Span::new_extra(r#"Hello \'World\'"#, ""), '\''),
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r#"Hello 'World'"#.to_string()
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);
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assert_eq!(
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unescape(Span::new_extra(r#"Hello \\\'World\\\'"#, ""), '\''),
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r#"Hello \\'World\\'"#.to_string()
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);
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}
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#[test]
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fn test_value() {
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let test_case = [
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// (input, expected value, if a string was generated to hold the new value)
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("channel", "channel", false),
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// All the base test, no escaped string should be generated
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(".private", ".private", false),
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("I-love-kebab", "I-love-kebab", false),
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("but_snakes_is_also_good", "but_snakes_is_also_good", false),
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("parens(", "parens", false),
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("parens)", "parens", false),
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("not!", "not", false),
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(" channel", "channel", false),
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("channel ", "channel", false),
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(" channel ", "channel", false),
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("'channel'", "channel", false),
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("\"channel\"", "channel", false),
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("'cha)nnel'", "cha)nnel", false),
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("'cha\"nnel'", "cha\"nnel", false),
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("\"cha'nnel\"", "cha'nnel", false),
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("\" some spaces \"", " some spaces ", false),
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("\"cha'nnel\"", "cha'nnel", false),
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("\"cha'nnel\"", "cha'nnel", false),
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("I'm tamo", "I", false),
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// escaped thing but not quote
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(r#""\\""#, r#"\"#, true),
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(r#""\\\\\\""#, r#"\\\"#, true),
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(r#""aa\\aa""#, r#"aa\aa"#, true),
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// with double quote
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(r#""Hello \"world\"""#, r#"Hello "world""#, true),
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(r#""Hello \\\"world\\\"""#, r#"Hello \"world\""#, true),
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(r#""I'm \"super\" tamo""#, r#"I'm "super" tamo"#, true),
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(r#""\"\"""#, r#""""#, true),
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// with simple quote
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(r#"'Hello \'world\''"#, r#"Hello 'world'"#, true),
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(r#"'Hello \\\'world\\\''"#, r#"Hello \'world\'"#, true),
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(r#"'I\'m "super" tamo'"#, r#"I'm "super" tamo"#, true),
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(r#"'\'\''"#, r#"''"#, true),
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];
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for (input, expected, escaped) in test_case {
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let input = Span::new_extra(input, input);
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let result = parse_value(input);
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assert!(
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result.is_ok(),
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"Filter `{:?}` was supposed to be parsed but failed with the following error: `{}`",
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expected,
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result.unwrap_err()
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);
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let token = result.unwrap().1;
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assert_eq!(
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token.value.is_some(),
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escaped,
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"Filter `{}` was not supposed to be escaped",
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input
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);
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assert_eq!(
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token.value(),
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expected,
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"Filter `{}` failed by giving `{}` instead of `{}`.",
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input,
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token.value(),
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expected
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);
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}
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}
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#[test]
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fn diagnostic() {
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let test_case = [
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("🦀", "🦀"),
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(" 🦀", "🦀"),
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("🦀 AND crab = truc", "🦀"),
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("🦀_in_name", "🦀_in_name"),
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(" (name = ...", ""),
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];
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for (input, expected) in test_case {
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let input = Span::new_extra(input, input);
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let result = parse_value(input);
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assert!(
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result.is_err(),
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"Filter `{}` wasn’t supposed to be parsed but it did with the following result: `{:?}`",
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expected,
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result.unwrap()
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);
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// get the inner string referenced in the error
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let value = *result.finish().unwrap_err().context().fragment();
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assert_eq!(value, expected, "Filter `{}` was supposed to fail with the following value: `{}`, but it failed with: `{}`.", input, expected, value);
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}
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}
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}
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