mirror of
https://github.com/meilisearch/MeiliSearch
synced 2024-11-26 23:04:26 +01:00
remove all genericity in favor of my custom error type
This commit is contained in:
parent
76a2adb7c3
commit
5d3af5f273
@ -9,10 +9,9 @@ use nom::branch::alt;
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use nom::bytes::complete::tag;
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use nom::bytes::complete::tag;
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use nom::combinator::cut;
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use nom::combinator::cut;
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use nom::sequence::tuple;
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use nom::sequence::tuple;
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use nom::IResult;
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use Condition::*;
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use Condition::*;
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use crate::{parse_value, FPError, FilterCondition, Span, Token};
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use crate::{parse_value, FilterCondition, IResult, Span, Token};
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#[derive(Debug, Clone, PartialEq, Eq)]
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#[derive(Debug, Clone, PartialEq, Eq)]
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pub enum Condition<'a> {
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pub enum Condition<'a> {
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@ -42,9 +41,7 @@ impl<'a> Condition<'a> {
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}
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}
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/// condition = value ("==" | ">" ...) value
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/// condition = value ("==" | ">" ...) value
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pub fn parse_condition<'a, E: FPError<'a>>(
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pub fn parse_condition(input: Span) -> IResult<FilterCondition> {
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input: Span<'a>,
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) -> IResult<Span<'a>, FilterCondition, E> {
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let operator = alt((tag("<="), tag(">="), tag("!="), tag("<"), tag(">"), tag("=")));
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let operator = alt((tag("<="), tag(">="), tag("!="), tag("<"), tag(">"), tag("=")));
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let (input, (key, op, value)) = tuple((|c| parse_value(c), operator, cut(parse_value)))(input)?;
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let (input, (key, op, value)) = tuple((|c| parse_value(c), operator, cut(parse_value)))(input)?;
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@ -74,7 +71,7 @@ pub fn parse_condition<'a, E: FPError<'a>>(
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}
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}
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/// to = value value TO value
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/// to = value value TO value
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pub fn parse_to<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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pub fn parse_to(input: Span) -> IResult<FilterCondition> {
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let (input, (key, from, _, to)) =
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let (input, (key, from, _, to)) =
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tuple((|c| parse_value(c), |c| parse_value(c), tag("TO"), cut(parse_value)))(input)?;
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tuple((|c| parse_value(c), |c| parse_value(c), tag("TO"), cut(parse_value)))(input)?;
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@ -37,16 +37,13 @@ use nom::error::{ContextError, ParseError};
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use nom::multi::{many0, separated_list1};
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use nom::multi::{many0, separated_list1};
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use nom::number::complete::recognize_float;
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use nom::number::complete::recognize_float;
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use nom::sequence::{delimited, preceded, terminated, tuple};
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use nom::sequence::{delimited, preceded, terminated, tuple};
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use nom::{Finish, IResult};
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use nom::Finish;
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use nom_locate::LocatedSpan;
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use nom_locate::LocatedSpan;
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pub(crate) use value::parse_value;
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pub(crate) use value::parse_value;
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pub type Span<'a> = LocatedSpan<&'a str, &'a str>;
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pub type Span<'a> = LocatedSpan<&'a str, &'a str>;
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pub trait FilterParserError<'a>: ParseError<Span<'a>> + ContextError<Span<'a>> {}
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type IResult<'a, Ret> = nom::IResult<Span<'a>, Ret, Error<'a>>;
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impl<'a, T> FilterParserError<'a> for T where T: ParseError<Span<'a>> + ContextError<Span<'a>> {}
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use FilterParserError as FPError;
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#[derive(Debug, Clone, PartialEq, Eq)]
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#[derive(Debug, Clone, PartialEq, Eq)]
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pub struct Token<'a> {
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pub struct Token<'a> {
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@ -96,24 +93,22 @@ impl<'a> FilterCondition<'a> {
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}
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}
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}
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}
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pub fn parse<E: FPError<'a>>(input: &'a str) -> Result<Self, E> {
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pub fn parse(input: &'a str) -> Result<Self, Error> {
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if input.trim().is_empty() {
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if input.trim().is_empty() {
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return Ok(Self::Empty);
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return Ok(Self::Empty);
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}
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}
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let span = Span::new_extra(input, input);
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let span = Span::new_extra(input, input);
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parse_filter::<'a, E>(span).finish().map(|(_rem, output)| output)
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parse_filter(span).finish().map(|(_rem, output)| output)
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}
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}
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}
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}
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// remove OPTIONAL whitespaces before AND after the the provided parser
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// remove OPTIONAL whitespaces before AND after the the provided parser
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fn ws<'a, O, E: FPError<'a>>(
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fn ws<'a, O>(inner: impl FnMut(Span<'a>) -> IResult<O>) -> impl FnMut(Span<'a>) -> IResult<O> {
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inner: impl FnMut(Span<'a>) -> IResult<Span, O, E>,
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) -> impl FnMut(Span<'a>) -> IResult<Span, O, E> {
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delimited(multispace0, inner, multispace0)
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delimited(multispace0, inner, multispace0)
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}
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}
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/// and = not (~ "AND" not)*
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/// and = not (~ "AND" not)*
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fn parse_or<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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fn parse_or(input: Span) -> IResult<FilterCondition> {
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let (input, lhs) = parse_and(input)?;
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let (input, lhs) = parse_and(input)?;
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let (input, ors) = many0(preceded(ws(tag("OR")), cut(parse_and)))(input)?;
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let (input, ors) = many0(preceded(ws(tag("OR")), cut(parse_and)))(input)?;
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@ -123,7 +118,7 @@ fn parse_or<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterConditio
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Ok((input, expr))
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Ok((input, expr))
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}
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}
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fn parse_and<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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fn parse_and(input: Span) -> IResult<FilterCondition> {
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let (input, lhs) = parse_not(input)?;
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let (input, lhs) = parse_not(input)?;
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let (input, ors) = many0(preceded(ws(tag("AND")), cut(parse_not)))(input)?;
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let (input, ors) = many0(preceded(ws(tag("AND")), cut(parse_not)))(input)?;
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let expr = ors
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let expr = ors
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@ -133,7 +128,7 @@ fn parse_and<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterConditi
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}
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}
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/// not = ("NOT" | "!") not | primary
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/// not = ("NOT" | "!") not | primary
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fn parse_not<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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fn parse_not(input: Span) -> IResult<FilterCondition> {
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alt((
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alt((
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map(preceded(alt((tag("!"), tag("NOT"))), cut(parse_not)), |e| e.negate()),
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map(preceded(alt((tag("!"), tag("NOT"))), cut(parse_not)), |e| e.negate()),
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cut(parse_primary),
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cut(parse_primary),
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@ -141,7 +136,7 @@ fn parse_not<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterConditi
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}
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}
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/// geoRadius = WS* ~ "_geoRadius(float ~ "," ~ float ~ "," float)
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/// geoRadius = WS* ~ "_geoRadius(float ~ "," ~ float ~ "," float)
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fn parse_geo_radius<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span<'a>, FilterCondition, E> {
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fn parse_geo_radius(input: Span) -> IResult<FilterCondition> {
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let err_msg_args_incomplete = "_geoRadius. The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`";
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let err_msg_args_incomplete = "_geoRadius. The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`";
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// we want to forbid space BEFORE the _geoRadius but not after
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// we want to forbid space BEFORE the _geoRadius but not after
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@ -153,8 +148,8 @@ fn parse_geo_radius<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span<'a>, Fi
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let (input, args): (Span, Vec<Span>) = parsed?;
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let (input, args): (Span, Vec<Span>) = parsed?;
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if args.len() != 3 {
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if args.len() != 3 {
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let e = E::from_char(input, '(');
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let e = Error::from_char(input, '(');
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return Err(nom::Err::Failure(E::add_context(input, err_msg_args_incomplete, e)));
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return Err(nom::Err::Failure(Error::add_context(input, err_msg_args_incomplete, e)));
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}
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}
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let res = FilterCondition::GeoLowerThan {
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let res = FilterCondition::GeoLowerThan {
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@ -165,7 +160,7 @@ fn parse_geo_radius<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span<'a>, Fi
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}
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}
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/// primary = (WS* ~ "(" expression ")" ~ WS*) | geoRadius | condition | to
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/// primary = (WS* ~ "(" expression ")" ~ WS*) | geoRadius | condition | to
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fn parse_primary<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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fn parse_primary(input: Span) -> IResult<FilterCondition> {
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alt((
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alt((
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delimited(ws(char('(')), cut(parse_expression), cut(ws(char(')')))),
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delimited(ws(char('(')), cut(parse_expression), cut(ws(char(')')))),
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|c| parse_geo_radius(c),
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|c| parse_geo_radius(c),
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@ -175,12 +170,12 @@ fn parse_primary<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCon
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}
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}
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/// expression = or
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/// expression = or
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pub fn parse_expression<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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pub fn parse_expression(input: Span) -> IResult<FilterCondition> {
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parse_or(input)
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parse_or(input)
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}
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}
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/// filter = expression ~ EOF
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/// filter = expression ~ EOF
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pub fn parse_filter<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
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pub fn parse_filter(input: Span) -> IResult<FilterCondition> {
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terminated(parse_expression, eof)(input)
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terminated(parse_expression, eof)(input)
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}
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}
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@ -472,7 +467,7 @@ pub mod tests {
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];
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];
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for (input, expected) in test_case {
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for (input, expected) in test_case {
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let result = Fc::parse::<Error<Span>>(input);
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let result = Fc::parse(input);
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assert!(
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assert!(
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result.is_ok(),
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result.is_ok(),
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@ -489,22 +484,22 @@ pub mod tests {
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fn error() {
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fn error() {
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use FilterCondition as Fc;
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use FilterCondition as Fc;
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let result = Fc::parse::<crate::Error<Span>>("test = truc OR truc");
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let result = Fc::parse("test = truc OR truc");
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assert!(result.is_err());
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assert!(result.is_err());
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let test_case = [
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let test_case = [
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// simple test
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// simple test
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("channel = Ponce = 12", "An error occured"),
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("OR", "An error occured"),
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("OR", "An error occured"),
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("AND", "An error occured"),
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("AND", "An error occured"),
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("channel = Ponce OR", "An error occured"),
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("channel = Ponce OR", "An error occured"),
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("channel = Ponce = 12", "An error occured"),
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("_geoRadius = 12", "An error occured"),
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("_geoRadius = 12", "An error occured"),
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("_geoPoint(12, 13, 14)", "An error occured"),
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("_geoPoint(12, 13, 14)", "An error occured"),
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("_geo = _geoRadius(12, 13, 14)", "An error occured"),
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("_geo = _geoRadius(12, 13, 14)", "An error occured"),
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];
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];
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for (input, expected) in test_case {
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for (input, expected) in test_case {
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let result = Fc::parse::<Error<Span>>(input);
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let result = Fc::parse(input);
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assert!(
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assert!(
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result.is_err(),
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result.is_err(),
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@ -2,25 +2,25 @@ use nom::branch::alt;
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use nom::bytes::complete::{take_till, take_while1};
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use nom::bytes::complete::{take_till, take_while1};
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use nom::character::complete::char;
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use nom::character::complete::char;
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use nom::sequence::delimited;
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use nom::sequence::delimited;
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use nom::IResult;
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use crate::{ws, FPError, Span, Token};
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use crate::{ws, Error, IResult, Span, Token};
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/// value = WS* ~ ( word | singleQuoted | doubleQuoted) ~ WS*
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/// value = WS* ~ ( word | singleQuoted | doubleQuoted) ~ WS*
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pub fn parse_value<'a, E: FPError<'a>>(input: Span<'a>) -> IResult<Span<'a>, Token, E> {
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pub fn parse_value(input: Span) -> IResult<Token> {
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// singleQuoted = "'" .* all but quotes "'"
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// singleQuoted = "'" .* all but quotes "'"
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let simple_quoted_key = |input| take_till(|c: char| c == '\'')(input);
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let simple_quoted = |input| take_till(|c: char| c == '\'')(input);
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// doubleQuoted = "\"" (word | spaces)* "\""
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// doubleQuoted = "\"" (word | spaces)* "\""
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let quoted_key = |input| take_till(|c: char| c == '"')(input);
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let double_quoted = |input| take_till(|c: char| c == '"')(input);
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// word = (alphanumeric | _ | - | .)+
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// word = (alphanumeric | _ | - | .)+
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let word = |input| take_while1(is_key_component)(input);
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let word = |input| take_while1(is_key_component)(input);
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alt((
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ws(alt((
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ws(delimited(char('\''), simple_quoted_key, char('\''))),
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delimited(char('\''), simple_quoted, char('\'')),
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ws(delimited(char('"'), quoted_key, char('"'))),
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delimited(char('"'), double_quoted, char('"')),
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ws(word),
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word,
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))(input)
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)))(input)
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.map(|(s, t)| (s, t.into()))
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.map(|(s, t)| (s, t.into()))
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.map_err(|e| e.map(|_| Error::expected_value(input)))
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}
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}
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fn is_key_component(c: char) -> bool {
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fn is_key_component(c: char) -> bool {
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@ -29,8 +29,6 @@ fn is_key_component(c: char) -> bool {
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#[cfg(test)]
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#[cfg(test)]
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pub mod tests {
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pub mod tests {
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use nom::error::Error;
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use super::*;
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use super::*;
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use crate::tests::rtok;
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use crate::tests::rtok;
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@ -58,7 +56,7 @@ pub mod tests {
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for (input, expected) in test_case {
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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 input = Span::new_extra(input, input);
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let result = parse_value::<Error<Span>>(input);
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let result = parse_value(input);
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assert!(
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assert!(
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result.is_ok(),
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result.is_ok(),
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