integrate a first version without any error handling

This commit is contained in:
Tamo 2021-10-22 14:33:18 +02:00
parent 01dedde1c9
commit c27870e765
No known key found for this signature in database
GPG Key ID: 20CD8020AFA88D69
9 changed files with 507 additions and 1019 deletions

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@ -12,6 +12,7 @@
use nom::branch::alt; use nom::branch::alt;
use nom::bytes::complete::tag; use nom::bytes::complete::tag;
use nom::error::ParseError;
use nom::sequence::tuple; use nom::sequence::tuple;
use nom::IResult; use nom::IResult;
use Condition::*; use Condition::*;
@ -46,14 +47,15 @@ impl<'a> Condition<'a> {
} }
/// condition = value ("==" | ">" ...) value /// condition = value ("==" | ">" ...) value
pub fn parse_condition(input: Span) -> IResult<Span, FilterCondition> { pub fn parse_condition<'a, E: ParseError<Span<'a>>>(
input: Span<'a>,
) -> IResult<Span<'a>, FilterCondition, E> {
let operator = alt((tag("<="), tag(">="), tag("!="), tag("<"), tag(">"), tag("="))); let operator = alt((tag("<="), tag(">="), tag("!="), tag("<"), tag(">"), tag("=")));
let (input, (key, op, value)) = let (input, (key, op, value)) =
tuple((|c| parse_value(c), operator, |c| parse_value(c)))(input)?; tuple((|c| parse_value(c), operator, |c| parse_value(c)))(input)?;
let fid = key; let fid = key;
// TODO
match *op.fragment() { match *op.fragment() {
"=" => { "=" => {
let k = FilterCondition::Condition { fid, op: Equal(value) }; let k = FilterCondition::Condition { fid, op: Equal(value) };
@ -78,7 +80,7 @@ pub fn parse_condition(input: Span) -> IResult<Span, FilterCondition> {
} }
/// to = value value TO value /// to = value value TO value
pub fn parse_to(input: Span) -> IResult<Span, FilterCondition> { pub fn parse_to<'a, E: ParseError<Span<'a>>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
let (input, (key, from, _, to)) = let (input, (key, from, _, to)) =
tuple((ws(|c| parse_value(c)), ws(|c| parse_value(c)), tag("TO"), ws(|c| parse_value(c))))( tuple((ws(|c| parse_value(c)), ws(|c| parse_value(c)), tag("TO"), ws(|c| parse_value(c))))(
input, input,

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@ -27,12 +27,12 @@ use nom::combinator::map;
use nom::error::{ContextError, ParseError}; use nom::error::{ContextError, ParseError};
use nom::multi::{many0, separated_list1}; use nom::multi::{many0, separated_list1};
use nom::number::complete::recognize_float; use nom::number::complete::recognize_float;
use nom::sequence::{delimited, preceded}; use nom::sequence::{delimited, preceded, tuple};
use nom::IResult; use nom::IResult;
use nom_locate::LocatedSpan; use nom_locate::LocatedSpan;
pub(crate) use value::parse_value; pub(crate) use value::parse_value;
type Span<'a> = LocatedSpan<&'a str>; pub type Span<'a> = LocatedSpan<&'a str>;
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub struct Token<'a> { pub struct Token<'a> {
@ -82,21 +82,22 @@ impl<'a> FilterCondition<'a> {
} }
} }
pub fn parse(input: &'a str) -> IResult<Span, Self> { pub fn parse<E: ParseError<Span<'a>>>(input: &'a str) -> Result<Self, E> {
let span = Span::new(input); let span = Span::new(input);
parse_expression(span) // handle error
Ok(parse_expression::<'a, E>(span).map(|(_rem, output)| output).ok().unwrap())
} }
} }
// remove OPTIONAL whitespaces before AND after the the provided parser // remove OPTIONAL whitespaces before AND after the the provided parser
fn ws<'a, O>( fn ws<'a, O, E: ParseError<Span<'a>>>(
inner: impl FnMut(Span<'a>) -> IResult<Span, O>, inner: impl FnMut(Span<'a>) -> IResult<Span, O, E>,
) -> impl FnMut(Span<'a>) -> IResult<Span, O> { ) -> impl FnMut(Span<'a>) -> IResult<Span, O, E> {
delimited(multispace0, inner, multispace0) delimited(multispace0, inner, multispace0)
} }
/// and = not (~ "AND" not)* /// and = not (~ "AND" not)*
fn parse_or(input: Span) -> IResult<Span, FilterCondition> { fn parse_or<'a, E: ParseError<Span<'a>>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
let (input, lhs) = parse_and(input)?; let (input, lhs) = parse_and(input)?;
let (input, ors) = many0(preceded(ws(tag("OR")), |c| parse_and(c)))(input)?; let (input, ors) = many0(preceded(ws(tag("OR")), |c| parse_and(c)))(input)?;
@ -106,7 +107,7 @@ fn parse_or(input: Span) -> IResult<Span, FilterCondition> {
Ok((input, expr)) Ok((input, expr))
} }
fn parse_and(input: Span) -> IResult<Span, FilterCondition> { fn parse_and<'a, E: ParseError<Span<'a>>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
let (input, lhs) = parse_not(input)?; let (input, lhs) = parse_not(input)?;
let (input, ors) = many0(preceded(ws(tag("AND")), |c| parse_not(c)))(input)?; let (input, ors) = many0(preceded(ws(tag("AND")), |c| parse_not(c)))(input)?;
let expr = ors let expr = ors
@ -116,15 +117,17 @@ fn parse_and(input: Span) -> IResult<Span, FilterCondition> {
} }
/// not = ("NOT" | "!") not | primary /// not = ("NOT" | "!") not | primary
fn parse_not(input: Span) -> IResult<Span, FilterCondition> { fn parse_not<'a, E: ParseError<Span<'a>>>(input: Span<'a>) -> IResult<Span, FilterCondition, E> {
alt((map(preceded(alt((tag("!"), tag("NOT"))), |c| parse_not(c)), |e| e.negate()), |c| { alt((map(preceded(alt((tag("!"), tag("NOT"))), |c| parse_not(c)), |e| e.negate()), |c| {
parse_primary(c) parse_primary(c)
}))(input) }))(input)
} }
/// geoRadius = WS* ~ "_geoRadius(float ~ "," ~ float ~ "," float) /// geoRadius = WS* ~ "_geoRadius(float ~ "," ~ float ~ "," float)
fn parse_geo_radius(input: Span) -> IResult<Span, FilterCondition> { fn parse_geo_radius<'a, E: ParseError<Span<'a>>>(
let err_msg_args_incomplete = "_geoRadius. The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"; input: Span<'a>,
) -> IResult<Span<'a>, FilterCondition, E> {
// let err_msg_args_incomplete = "_geoRadius. The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`";
/* /*
TODO TODO
let err_msg_latitude_invalid = let err_msg_latitude_invalid =
@ -134,30 +137,25 @@ fn parse_geo_radius(input: Span) -> IResult<Span, FilterCondition> {
"_geoRadius. Longitude must be contained between -180 and 180 degrees."; "_geoRadius. Longitude must be contained between -180 and 180 degrees.";
*/ */
// we want to forbid space BEFORE the _geoRadius but not after
let parsed = preceded::<_, _, _, _, _, _>( let parsed = preceded::<_, _, _, _, _, _>(
// TODO: forbid spaces between _geoRadius and parenthesis tuple((multispace0, tag("_geoRadius"))),
ws(tag("_geoRadius")),
delimited(char('('), separated_list1(tag(","), ws(|c| recognize_float(c))), char(')')), delimited(char('('), separated_list1(tag(","), ws(|c| recognize_float(c))), char(')')),
)(input); )(input);
let (input, args): (Span, Vec<Span>) = match parsed { let (input, args): (Span, Vec<Span>) = parsed?;
Ok(e) => e,
Err(_e) => {
return Err(nom::Err::Failure(nom::error::Error::add_context(
input,
err_msg_args_incomplete,
nom::error::Error::from_char(input, '('),
)));
}
};
if args.len() != 3 { if args.len() != 3 {
// TODO
panic!("todo");
/*
let e = nom::error::Error::from_char(input, '('); let e = nom::error::Error::from_char(input, '(');
return Err(nom::Err::Failure(nom::error::Error::add_context( return Err(nom::Err::Failure(nom::error::Error::add_context(
input, input,
err_msg_args_incomplete, err_msg_args_incomplete,
e, e,
))); )));
*/
} }
let res = FilterCondition::GeoLowerThan { let res = FilterCondition::GeoLowerThan {
@ -168,7 +166,9 @@ fn parse_geo_radius(input: Span) -> IResult<Span, FilterCondition> {
} }
/// primary = (WS* ~ "(" expression ")" ~ WS*) | condition | to | geoRadius /// primary = (WS* ~ "(" expression ")" ~ WS*) | condition | to | geoRadius
fn parse_primary(input: Span) -> IResult<Span, FilterCondition> { fn parse_primary<'a, E: ParseError<Span<'a>>>(
input: Span<'a>,
) -> IResult<Span, FilterCondition, E> {
alt(( alt((
delimited(ws(char('(')), |c| parse_expression(c), ws(char(')'))), delimited(ws(char('(')), |c| parse_expression(c), ws(char(')'))),
|c| parse_condition(c), |c| parse_condition(c),
@ -178,12 +178,16 @@ fn parse_primary(input: Span) -> IResult<Span, FilterCondition> {
} }
/// expression = or /// expression = or
pub fn parse_expression(input: Span) -> IResult<Span, FilterCondition> { pub fn parse_expression<'a, E: ParseError<Span<'a>>>(
input: Span<'a>,
) -> IResult<Span, FilterCondition, E> {
parse_or(input) parse_or(input)
} }
#[cfg(test)] #[cfg(test)]
pub mod tests { pub mod tests {
use nom::error::Error;
use super::*; use super::*;
/// Create a raw [Token]. You must specify the string that appear BEFORE your element followed by your element /// Create a raw [Token]. You must specify the string that appear BEFORE your element followed by your element
@ -469,7 +473,7 @@ pub mod tests {
]; ];
for (input, expected) in test_case { for (input, expected) in test_case {
let result = Fc::parse(input); let result = Fc::parse::<Error<Span>>(input);
assert!( assert!(
result.is_ok(), result.is_ok(),
@ -477,7 +481,7 @@ pub mod tests {
expected, expected,
result.unwrap_err() result.unwrap_err()
); );
let filter = result.unwrap().1; let filter = result.unwrap();
assert_eq!(filter, expected, "Filter `{}` failed.", input); assert_eq!(filter, expected, "Filter `{}` failed.", input);
} }
} }

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@ -1,13 +1,14 @@
use nom::branch::alt; use nom::branch::alt;
use nom::bytes::complete::{take_till, take_while1}; use nom::bytes::complete::{take_till, take_while1};
use nom::character::complete::char; use nom::character::complete::char;
use nom::error::ParseError;
use nom::sequence::delimited; use nom::sequence::delimited;
use nom::IResult; use nom::IResult;
use crate::{ws, Span, Token}; use crate::{ws, Span, Token};
/// value = WS* ~ ( word | singleQuoted | doubleQuoted) ~ WS* /// value = WS* ~ ( word | singleQuoted | doubleQuoted) ~ WS*
pub fn parse_value(input: Span) -> IResult<Span, Token> { pub fn parse_value<'a, E: ParseError<Span<'a>>>(input: Span<'a>) -> IResult<Span<'a>, Token, E> {
// singleQuoted = "'" .* all but quotes "'" // singleQuoted = "'" .* all but quotes "'"
let simple_quoted_key = |input| take_till(|c: char| c == '\'')(input); let simple_quoted_key = |input| take_till(|c: char| c == '\'')(input);
// doubleQuoted = "\"" (word | spaces)* "\"" // doubleQuoted = "\"" (word | spaces)* "\""
@ -29,6 +30,8 @@ fn is_key_component(c: char) -> bool {
#[cfg(test)] #[cfg(test)]
pub mod tests { pub mod tests {
use nom::error::Error;
use super::*; use super::*;
use crate::tests::rtok; use crate::tests::rtok;
@ -56,7 +59,7 @@ pub mod tests {
for (input, expected) in test_case { for (input, expected) in test_case {
let input = Span::new(input); let input = Span::new(input);
let result = parse_value(input); let result = parse_value::<Error<Span>>(input);
assert!( assert!(
result.is_ok(), result.is_ok(),

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@ -39,8 +39,8 @@ tempfile = "3.2.0"
uuid = { version = "0.8.2", features = ["v4"] } uuid = { version = "0.8.2", features = ["v4"] }
# facet filter parser # facet filter parser
filter_parser = { path = "../filter_parser" }
nom = "7.0.0" nom = "7.0.0"
nom_locate = "4.0.0"
# documents words self-join # documents words self-join
itertools = "0.10.0" itertools = "0.10.0"

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@ -34,7 +34,7 @@ pub use self::heed_codec::{
RoaringBitmapLenCodec, StrBEU32Codec, StrStrU8Codec, RoaringBitmapLenCodec, StrBEU32Codec, StrStrU8Codec,
}; };
pub use self::index::Index; pub use self::index::Index;
pub use self::search::{FacetDistribution, FilterCondition, MatchingWords, Search, SearchResult}; pub use self::search::{FacetDistribution, Filter, MatchingWords, Search, SearchResult};
pub type Result<T> = std::result::Result<T, error::Error>; pub type Result<T> = std::result::Result<T, error::Error>;

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@ -2,13 +2,12 @@ use std::fmt::Debug;
use std::ops::Bound::{self, Excluded, Included}; use std::ops::Bound::{self, Excluded, Included};
use either::Either; use either::Either;
use filter_parser::{Condition, FilterCondition, Span, Token};
use heed::types::DecodeIgnore; use heed::types::DecodeIgnore;
use log::debug; use log::debug;
use nom::error::{convert_error, VerboseError}; use nom::error::{convert_error, VerboseError};
use roaring::RoaringBitmap; use roaring::RoaringBitmap;
use self::FilterCondition::*;
use super::filter_parser::{Operator, ParseContext};
use super::FacetNumberRange; use super::FacetNumberRange;
use crate::error::{Error, UserError}; use crate::error::{Error, UserError};
use crate::heed_codec::facet::{ use crate::heed_codec::facet::{
@ -17,24 +16,19 @@ use crate::heed_codec::facet::{
use crate::{distance_between_two_points, CboRoaringBitmapCodec, FieldId, Index, Result}; use crate::{distance_between_two_points, CboRoaringBitmapCodec, FieldId, Index, Result};
#[derive(Debug, Clone)] #[derive(Debug, Clone)]
pub enum FilterCondition<'a> { pub struct Filter<'a> {
Operator(FieldId, Operator<'a>), condition: FilterCondition<'a>,
Or(Box<Self>, Box<Self>),
And(Box<Self>, Box<Self>),
Empty,
} }
impl<'a> FilterCondition<'a> { impl<'a> Filter<'a> {
pub fn from_array<I, J, A: 'a, B: 'a>( pub fn from_array<I, J>(
rtxn: &heed::RoTxn, rtxn: &heed::RoTxn,
index: &Index, index: &Index,
array: I, array: I,
) -> Result<Option<FilterCondition<'a>>> ) -> Result<Option<FilterCondition<'a>>>
where where
I: IntoIterator<Item = Either<J, B>>, I: IntoIterator<Item = Either<J, &'a str>>,
J: IntoIterator<Item = A>, J: IntoIterator<Item = &'a str>,
A: AsRef<str>,
B: AsRef<str>,
{ {
let mut ands: Option<FilterCondition> = None; let mut ands: Option<FilterCondition> = None;
@ -43,24 +37,32 @@ impl<'a> FilterCondition<'a> {
Either::Left(array) => { Either::Left(array) => {
let mut ors = None; let mut ors = None;
for rule in array { for rule in array {
let condition = FilterCondition::from_str(rtxn, index, rule.as_ref())?; let condition =
FilterCondition::parse::<VerboseError<Span>>(rule.as_ref()).unwrap();
ors = match ors.take() { ors = match ors.take() {
Some(ors) => Some(Or(Box::new(ors), Box::new(condition))), Some(ors) => {
Some(FilterCondition::Or(Box::new(ors), Box::new(condition)))
}
None => Some(condition), None => Some(condition),
}; };
} }
if let Some(rule) = ors { if let Some(rule) = ors {
ands = match ands.take() { ands = match ands.take() {
Some(ands) => Some(And(Box::new(ands), Box::new(rule))), Some(ands) => {
Some(FilterCondition::And(Box::new(ands), Box::new(rule)))
}
None => Some(rule), None => Some(rule),
}; };
} }
} }
Either::Right(rule) => { Either::Right(rule) => {
let condition = FilterCondition::from_str(rtxn, index, rule.as_ref())?; let condition =
FilterCondition::parse::<VerboseError<Span>>(rule.as_ref()).unwrap();
ands = match ands.take() { ands = match ands.take() {
Some(ands) => Some(And(Box::new(ands), Box::new(condition))), Some(ands) => {
Some(FilterCondition::And(Box::new(ands), Box::new(condition)))
}
None => Some(condition), None => Some(condition),
}; };
} }
@ -70,17 +72,14 @@ impl<'a> FilterCondition<'a> {
Ok(ands) Ok(ands)
} }
pub fn from_str( pub fn from_str(rtxn: &heed::RoTxn, index: &Index, expression: &'a str) -> Result<Self> {
rtxn: &heed::RoTxn,
index: &Index,
expression: &'a str,
) -> Result<FilterCondition<'a>> {
let fields_ids_map = index.fields_ids_map(rtxn)?; let fields_ids_map = index.fields_ids_map(rtxn)?;
let filterable_fields = index.filterable_fields(rtxn)?; let filterable_fields = index.filterable_fields(rtxn)?;
let ctx = // TODO TAMO
ParseContext { fields_ids_map: &fields_ids_map, filterable_fields: &filterable_fields }; let condition = FilterCondition::parse::<VerboseError<Span>>(expression).ok().unwrap();
match ctx.parse_expression::<VerboseError<&str>>(expression) { /*
Ok((_, fc)) => Ok(fc), let condition = match FilterCondition::parse::<VerboseError<Span>>(expression) {
Ok(fc) => Ok(fc),
Err(e) => { Err(e) => {
let ve = match e { let ve = match e {
nom::Err::Error(x) => x, nom::Err::Error(x) => x,
@ -88,25 +87,16 @@ impl<'a> FilterCondition<'a> {
_ => unreachable!(), _ => unreachable!(),
}; };
Err(Error::UserError(UserError::InvalidFilter { Err(Error::UserError(UserError::InvalidFilter {
input: convert_error(expression, ve).to_string(), input: convert_error(Span::new(expression), ve).to_string(),
})) }))
} }
} };
} */
pub fn negate(self) -> FilterCondition<'a> { Ok(Self { condition })
match self {
Operator(fid, op) => match op.negate() {
(op, None) => Operator(fid, op),
(a, Some(b)) => Or(Box::new(Operator(fid, a)), Box::new(Operator(fid, b))),
},
Or(a, b) => And(Box::new(a.negate()), Box::new(b.negate())),
And(a, b) => Or(Box::new(a.negate()), Box::new(b.negate())),
Empty => Empty,
}
} }
} }
impl<'a> FilterCondition<'a> { impl<'a> Filter<'a> {
/// Aggregates the documents ids that are part of the specified range automatically /// Aggregates the documents ids that are part of the specified range automatically
/// going deeper through the levels. /// going deeper through the levels.
fn explore_facet_number_levels( fn explore_facet_number_levels(
@ -221,20 +211,33 @@ impl<'a> FilterCondition<'a> {
numbers_db: heed::Database<FacetLevelValueF64Codec, CboRoaringBitmapCodec>, numbers_db: heed::Database<FacetLevelValueF64Codec, CboRoaringBitmapCodec>,
strings_db: heed::Database<FacetStringLevelZeroCodec, FacetStringLevelZeroValueCodec>, strings_db: heed::Database<FacetStringLevelZeroCodec, FacetStringLevelZeroValueCodec>,
field_id: FieldId, field_id: FieldId,
operator: &Operator<'a>, operator: &Condition<'a>,
) -> Result<RoaringBitmap> { ) -> Result<RoaringBitmap> {
// Make sure we always bound the ranges with the field id and the level, // Make sure we always bound the ranges with the field id and the level,
// as the facets values are all in the same database and prefixed by the // as the facets values are all in the same database and prefixed by the
// field id and the level. // field id and the level.
// TODO TAMO: return good error when we can't parse a span
let (left, right) = match operator { let (left, right) = match operator {
Operator::GreaterThan(val) => (Excluded(*val), Included(f64::MAX)), Condition::GreaterThan(val) => {
Operator::GreaterThanOrEqual(val) => (Included(*val), Included(f64::MAX)), (Excluded(val.inner.parse::<f64>().unwrap()), Included(f64::MAX))
Operator::Equal(number, string) => { }
Condition::GreaterThanOrEqual(val) => {
(Included(val.inner.parse::<f64>().unwrap()), Included(f64::MAX))
}
Condition::LowerThan(val) => (Included(f64::MIN), Excluded(val.inner.parse().unwrap())),
Condition::LowerThanOrEqual(val) => {
(Included(f64::MIN), Included(val.inner.parse().unwrap()))
}
Condition::Between { from, to } => {
(Included(from.inner.parse::<f64>().unwrap()), Included(to.inner.parse().unwrap()))
}
Condition::Equal(val) => {
let (_original_value, string_docids) = let (_original_value, string_docids) =
strings_db.get(rtxn, &(field_id, &string))?.unwrap_or_default(); strings_db.get(rtxn, &(field_id, val.inner))?.unwrap_or_default();
let number = val.inner.parse::<f64>().ok();
let number_docids = match number { let number_docids = match number {
Some(n) => { Some(n) => {
let n = Included(*n); let n = Included(n);
let mut output = RoaringBitmap::new(); let mut output = RoaringBitmap::new();
Self::explore_facet_number_levels( Self::explore_facet_number_levels(
rtxn, rtxn,
@ -251,50 +254,49 @@ impl<'a> FilterCondition<'a> {
}; };
return Ok(string_docids | number_docids); return Ok(string_docids | number_docids);
} }
Operator::NotEqual(number, string) => { Condition::NotEqual(val) => {
let number = val.inner.parse::<f64>().ok();
let all_numbers_ids = if number.is_some() { let all_numbers_ids = if number.is_some() {
index.number_faceted_documents_ids(rtxn, field_id)? index.number_faceted_documents_ids(rtxn, field_id)?
} else { } else {
RoaringBitmap::new() RoaringBitmap::new()
}; };
let all_strings_ids = index.string_faceted_documents_ids(rtxn, field_id)?; let all_strings_ids = index.string_faceted_documents_ids(rtxn, field_id)?;
let operator = Operator::Equal(*number, string.clone()); let operator = Condition::Equal(val.clone());
let docids = Self::evaluate_operator( let docids = Self::evaluate_operator(
rtxn, index, numbers_db, strings_db, field_id, &operator, rtxn, index, numbers_db, strings_db, field_id, &operator,
)?; )?;
return Ok((all_numbers_ids | all_strings_ids) - docids); return Ok((all_numbers_ids | all_strings_ids) - docids);
} } /*
Operator::LowerThan(val) => (Included(f64::MIN), Excluded(*val)), Condition::GeoLowerThan(base_point, distance) => {
Operator::LowerThanOrEqual(val) => (Included(f64::MIN), Included(*val)), let rtree = match index.geo_rtree(rtxn)? {
Operator::Between(left, right) => (Included(*left), Included(*right)), Some(rtree) => rtree,
Operator::GeoLowerThan(base_point, distance) => { None => return Ok(RoaringBitmap::new()),
let rtree = match index.geo_rtree(rtxn)? { };
Some(rtree) => rtree,
None => return Ok(RoaringBitmap::new()),
};
let result = rtree let result = rtree
.nearest_neighbor_iter(base_point) .nearest_neighbor_iter(base_point)
.take_while(|point| { .take_while(|point| {
distance_between_two_points(base_point, point.geom()) < *distance distance_between_two_points(base_point, point.geom()) < *distance
}) })
.map(|point| point.data) .map(|point| point.data)
.collect(); .collect();
return Ok(result); return Ok(result);
} }
Operator::GeoGreaterThan(point, distance) => { Condition::GeoGreaterThan(point, distance) => {
let result = Self::evaluate_operator( let result = Self::evaluate_operator(
rtxn, rtxn,
index, index,
numbers_db, numbers_db,
strings_db, strings_db,
field_id, field_id,
&Operator::GeoLowerThan(point.clone(), *distance), &Condition::GeoLowerThan(point.clone(), *distance),
)?; )?;
let geo_faceted_doc_ids = index.geo_faceted_documents_ids(rtxn)?; let geo_faceted_doc_ids = index.geo_faceted_documents_ids(rtxn)?;
return Ok(geo_faceted_doc_ids - result); return Ok(geo_faceted_doc_ids - result);
} }
*/
}; };
// Ask for the biggest value that can exist for this specific field, if it exists // Ask for the biggest value that can exist for this specific field, if it exists
@ -326,21 +328,390 @@ impl<'a> FilterCondition<'a> {
let numbers_db = index.facet_id_f64_docids; let numbers_db = index.facet_id_f64_docids;
let strings_db = index.facet_id_string_docids; let strings_db = index.facet_id_string_docids;
match self { match &self.condition {
Operator(fid, op) => { FilterCondition::Condition { fid, op } => {
Self::evaluate_operator(rtxn, index, numbers_db, strings_db, *fid, op) // TODO: parse fid
let _ = fid;
let fid = 42;
Self::evaluate_operator(rtxn, index, numbers_db, strings_db, fid, &op)
} }
Or(lhs, rhs) => { FilterCondition::Or(lhs, rhs) => {
let lhs = lhs.evaluate(rtxn, index)?; let lhs = Self::evaluate(&(lhs.as_ref().clone()).into(), rtxn, index)?;
let rhs = rhs.evaluate(rtxn, index)?; let rhs = Self::evaluate(&(rhs.as_ref().clone()).into(), rtxn, index)?;
Ok(lhs | rhs) Ok(lhs | rhs)
} }
And(lhs, rhs) => { FilterCondition::And(lhs, rhs) => {
let lhs = lhs.evaluate(rtxn, index)?; let lhs = Self::evaluate(&(lhs.as_ref().clone()).into(), rtxn, index)?;
let rhs = rhs.evaluate(rtxn, index)?; let rhs = Self::evaluate(&(rhs.as_ref().clone()).into(), rtxn, index)?;
Ok(lhs & rhs) Ok(lhs & rhs)
} }
Empty => Ok(RoaringBitmap::new()), Empty => Ok(RoaringBitmap::new()),
} }
} }
} }
impl<'a> From<FilterCondition<'a>> for Filter<'a> {
fn from(fc: FilterCondition<'a>) -> Self {
Self { condition: fc }
}
}
#[cfg(test)]
mod tests {
use big_s::S;
use either::Either;
use heed::EnvOpenOptions;
use maplit::hashset;
use super::*;
use crate::update::Settings;
use crate::Index;
#[test]
fn number() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut map = index.fields_ids_map(&wtxn).unwrap();
map.insert("timestamp");
index.put_fields_ids_map(&mut wtxn, &map).unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_filterable_fields(hashset! { "timestamp".into() });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
// Test that the facet condition is correctly generated.
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(&rtxn, &index, "timestamp 22 TO 44").unwrap();
let expected = FilterCondition::Operator(0, Between(22.0, 44.0));
assert_eq!(condition, expected);
let condition = FilterCondition::from_str(&rtxn, &index, "NOT timestamp 22 TO 44").unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::Operator(0, LowerThan(22.0))),
Box::new(FilterCondition::Operator(0, GreaterThan(44.0))),
);
assert_eq!(condition, expected);
}
#[test]
fn compare() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("channel"), S("timestamp"), S("id")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("channel"), S("timestamp") ,S("id")});
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(&rtxn, &index, "channel < 20").unwrap();
let expected = FilterCondition::Operator(0, LowerThan(20.0));
assert_eq!(condition, expected);
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(&rtxn, &index, "id < 200").unwrap();
let expected = FilterCondition::Operator(2, LowerThan(200.0));
assert_eq!(condition, expected);
}
#[test]
fn parentheses() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("channel"), S("timestamp")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("channel"), S("timestamp") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
// Test that the facet condition is correctly generated.
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(
&rtxn,
&index,
"channel = gotaga OR (timestamp 22 TO 44 AND channel != ponce)",
)
.unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::Operator(0, Operator::Equal(None, S("gotaga")))),
Box::new(FilterCondition::And(
Box::new(FilterCondition::Operator(1, Between(22.0, 44.0))),
Box::new(FilterCondition::Operator(0, Operator::NotEqual(None, S("ponce")))),
)),
);
assert_eq!(condition, expected);
let condition = FilterCondition::from_str(
&rtxn,
&index,
"channel = gotaga OR NOT (timestamp 22 TO 44 AND channel != ponce)",
)
.unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::Operator(0, Operator::Equal(None, S("gotaga")))),
Box::new(FilterCondition::Or(
Box::new(FilterCondition::Or(
Box::new(FilterCondition::Operator(1, LowerThan(22.0))),
Box::new(FilterCondition::Operator(1, GreaterThan(44.0))),
)),
Box::new(FilterCondition::Operator(0, Operator::Equal(None, S("ponce")))),
)),
);
assert_eq!(condition, expected);
}
#[test]
fn from_array() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("channel"), S("timestamp")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("channel"), S("timestamp") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
// Simple array with Left
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["channel = mv"])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = mv").unwrap();
assert_eq!(condition, expected);
// Simple array with Right
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, Option<&str>, _, _>(
&rtxn,
&index,
vec![Either::Right("channel = mv")],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = mv").unwrap();
assert_eq!(condition, expected);
// Array with Left and escaped quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["channel = \"Mister Mv\""])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = \"Mister Mv\"").unwrap();
assert_eq!(condition, expected);
// Array with Right and escaped quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, Option<&str>, _, _>(
&rtxn,
&index,
vec![Either::Right("channel = \"Mister Mv\"")],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = \"Mister Mv\"").unwrap();
assert_eq!(condition, expected);
// Array with Left and escaped simple quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["channel = 'Mister Mv'"])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = 'Mister Mv'").unwrap();
assert_eq!(condition, expected);
// Array with Right and escaped simple quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, Option<&str>, _, _>(
&rtxn,
&index,
vec![Either::Right("channel = 'Mister Mv'")],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = 'Mister Mv'").unwrap();
assert_eq!(condition, expected);
// Simple with parenthesis
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["(channel = mv)"])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "(channel = mv)").unwrap();
assert_eq!(condition, expected);
// Test that the facet condition is correctly generated.
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array(
&rtxn,
&index,
vec![
Either::Right("channel = gotaga"),
Either::Left(vec!["timestamp = 44", "channel != ponce"]),
],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(
&rtxn,
&index,
"channel = gotaga AND (timestamp = 44 OR channel != ponce)",
)
.unwrap();
assert_eq!(condition, expected);
}
#[test]
fn geo_radius() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("_geo"), S("price")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("_geo"), S("price") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
// basic test
let condition =
FilterCondition::from_str(&rtxn, &index, "_geoRadius(12, 13.0005, 2000)").unwrap();
let expected = FilterCondition::Operator(0, GeoLowerThan([12., 13.0005], 2000.));
assert_eq!(condition, expected);
// test the negation of the GeoLowerThan
let condition =
FilterCondition::from_str(&rtxn, &index, "NOT _geoRadius(50, 18, 2000.500)").unwrap();
let expected = FilterCondition::Operator(0, GeoGreaterThan([50., 18.], 2000.500));
assert_eq!(condition, expected);
// composition of multiple operations
let condition = FilterCondition::from_str(
&rtxn,
&index,
"(NOT _geoRadius(1, 2, 300) AND _geoRadius(1.001, 2.002, 1000.300)) OR price <= 10",
)
.unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::And(
Box::new(FilterCondition::Operator(0, GeoGreaterThan([1., 2.], 300.))),
Box::new(FilterCondition::Operator(0, GeoLowerThan([1.001, 2.002], 1000.300))),
)),
Box::new(FilterCondition::Operator(1, LowerThanOrEqual(10.))),
);
assert_eq!(condition, expected);
}
#[test]
fn geo_radius_error() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("_geo"), S("price")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("_geo"), S("price") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
// georadius don't have any parameters
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
// georadius don't have any parameters
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius()");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
// georadius don't have enough parameters
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(1, 2)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
// georadius have too many parameters
let result =
FilterCondition::from_str(&rtxn, &index, "_geoRadius(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-100, 150, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(
error.to_string().contains("Latitude must be contained between -90 and 90 degrees."),
"{}",
error.to_string()
);
// georadius have a bad latitude
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-90.0000001, 150, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error
.to_string()
.contains("Latitude must be contained between -90 and 90 degrees."));
// georadius have a bad longitude
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-10, 250, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error
.to_string()
.contains("Longitude must be contained between -180 and 180 degrees."));
// georadius have a bad longitude
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-10, 180.000001, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error
.to_string()
.contains("Longitude must be contained between -180 and 180 degrees."));
}
}

View File

@ -1,891 +0,0 @@
//! BNF grammar:
//!
//! ```text
//! expression = or
//! or = and (~ "OR" ~ and)
//! and = not (~ "AND" not)*
//! not = ("NOT" | "!") not | primary
//! primary = (WS* ~ "(" expression ")" ~ WS*) | condition | to | geoRadius
//! to = value value TO value
//! condition = value ("==" | ">" ...) value
//! value = WS* ~ ( word | singleQuoted | doubleQuoted) ~ WS*
//! singleQuoted = "'" .* all but quotes "'"
//! doubleQuoted = "\"" (word | spaces)* "\""
//! word = (alphanumeric | _ | - | .)+
//! geoRadius = WS* ~ "_geoRadius(float ~ "," ~ float ~ "," float)
//! ```
use std::collections::HashSet;
use std::fmt::Debug;
use std::result::Result as StdResult;
use nom::branch::alt;
use nom::bytes::complete::{tag, take_till, take_while1};
use nom::character::complete::{char, multispace0};
use nom::combinator::map;
use nom::error::{ContextError, ErrorKind, VerboseError};
use nom::multi::{many0, separated_list1};
use nom::number::complete::recognize_float;
use nom::sequence::{delimited, preceded, tuple};
use nom::IResult;
use nom_locate::LocatedSpan;
use self::Operator::*;
use super::FilterCondition;
use crate::{FieldId, FieldsIdsMap};
pub enum FilterError {
AttributeNotFilterable(String),
}
#[derive(Debug, Clone, PartialEq, Eq)]
struct Token<'a> {
pub position: Span<'a>,
pub inner: &'a str,
}
type Span<'a> = LocatedSpan<&'a str>;
#[derive(Debug, Clone)]
pub enum Operator<'a> {
GreaterThan(Token<'a>),
GreaterThanOrEqual(Token<'a>),
Equal(Option<Token<'a>>, Token<'a>),
NotEqual(Option<Token<'a>>, Token<'a>),
LowerThan(Token<'a>),
LowerThanOrEqual(Token<'a>),
Between(Token<'a>, Token<'a>),
GeoLowerThan([Token<'a>; 2], Token<'a>),
GeoGreaterThan([Token<'a>; 2], Token<'a>),
}
impl<'a> Operator<'a> {
/// This method can return two operations in case it must express
/// an OR operation for the between case (i.e. `TO`).
pub fn negate(self) -> (Self, Option<Self>) {
match self {
GreaterThan(n) => (LowerThanOrEqual(n), None),
GreaterThanOrEqual(n) => (LowerThan(n), None),
Equal(n, s) => (NotEqual(n, s), None),
NotEqual(n, s) => (Equal(n, s), None),
LowerThan(n) => (GreaterThanOrEqual(n), None),
LowerThanOrEqual(n) => (GreaterThan(n), None),
Between(n, m) => (LowerThan(n), Some(GreaterThan(m))),
GeoLowerThan(point, distance) => (GeoGreaterThan(point, distance), None),
GeoGreaterThan(point, distance) => (GeoLowerThan(point, distance), None),
}
}
}
pub trait FilterParserError<'a>:
nom::error::ParseError<&'a str> + ContextError<&'a str> + std::fmt::Debug
{
}
impl<'a> FilterParserError<'a> for VerboseError<&'a str> {}
pub struct ParseContext<'a> {
pub fields_ids_map: &'a FieldsIdsMap,
pub filterable_fields: &'a HashSet<String>,
}
impl<'a> ParseContext<'a> {
/// and = not (~ "AND" not)*
fn parse_or<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
let (input, lhs) = self.parse_and(input)?;
let (input, ors) =
many0(preceded(self.ws(tag("OR")), |c| Self::parse_and(self, c)))(input)?;
let expr = ors
.into_iter()
.fold(lhs, |acc, branch| FilterCondition::Or(Box::new(acc), Box::new(branch)));
Ok((input, expr))
}
fn parse_and<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
let (input, lhs) = self.parse_not(input)?;
let (input, ors) = many0(preceded(self.ws(tag("AND")), |c| self.parse_not(c)))(input)?;
let expr = ors
.into_iter()
.fold(lhs, |acc, branch| FilterCondition::And(Box::new(acc), Box::new(branch)));
Ok((input, expr))
}
/// not = ("NOT" | "!") not | primary
fn parse_not<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
alt((
map(preceded(alt((tag("!"), tag("NOT"))), |c| self.parse_not(c)), |e| e.negate()),
|c| self.parse_primary(c),
))(input)
}
fn ws<F, O, E>(&'a self, inner: F) -> impl FnMut(&'a str) -> IResult<&'a str, O, E>
where
F: FnMut(&'a str) -> IResult<&'a str, O, E>,
E: FilterParserError<'a>,
{
delimited(multispace0, inner, multispace0)
}
/// condition = value ("==" | ">" ...) value
fn parse_condition<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
let operator = alt((tag("<="), tag(">="), tag("!="), tag("<"), tag(">"), tag("=")));
let (input, (key, op, value)) =
tuple((|c| self.parse_value(c), operator, |c| self.parse_value(c)))(input)?;
let fid = self.parse_fid(input, key)?;
let r: StdResult<f64, nom::Err<VerboseError<&str>>> = self.parse_numeric(value);
match op {
"=" => {
let k =
FilterCondition::Operator(fid, Equal(r.ok(), value.to_string().to_lowercase()));
Ok((input, k))
}
"!=" => {
let k = FilterCondition::Operator(
fid,
NotEqual(r.ok(), value.to_string().to_lowercase()),
);
Ok((input, k))
}
">" | "<" | "<=" | ">=" => {
let numeric: f64 = self.parse_numeric(value)?;
let k = match op {
">" => FilterCondition::Operator(fid, GreaterThan(numeric)),
"<" => FilterCondition::Operator(fid, LowerThan(numeric)),
"<=" => FilterCondition::Operator(fid, LowerThanOrEqual(numeric)),
">=" => FilterCondition::Operator(fid, GreaterThanOrEqual(numeric)),
_ => unreachable!(),
};
Ok((input, k))
}
_ => unreachable!(),
}
}
fn parse_numeric<E, T>(&'a self, input: &'a str) -> StdResult<T, nom::Err<E>>
where
E: FilterParserError<'a>,
T: std::str::FromStr,
{
match input.parse::<T>() {
Ok(n) => Ok(n),
Err(_) => match input.chars().nth(0) {
Some(ch) => Err(nom::Err::Failure(E::from_char(input, ch))),
None => Err(nom::Err::Failure(E::from_error_kind(input, ErrorKind::Eof))),
},
}
}
fn parse_fid<E>(&'a self, input: &'a str, key: &'a str) -> StdResult<FieldId, nom::Err<E>>
where
E: FilterParserError<'a>,
{
match self.fields_ids_map.id(key) {
Some(fid) if self.filterable_fields.contains(key) => Ok(fid),
_ => Err(nom::Err::Failure(E::add_context(
input,
"Attribute is not filterable",
E::from_char(input, 'T'),
))),
}
}
/// to = value value TO value
fn parse_to<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
let (input, (key, from, _, to)) = tuple((
self.ws(|c| self.parse_value(c)),
self.ws(|c| self.parse_value(c)),
tag("TO"),
self.ws(|c| self.parse_value(c)),
))(input)?;
let fid = self.parse_fid(input, key)?;
let numeric_from: f64 = self.parse_numeric(from)?;
let numeric_to: f64 = self.parse_numeric(to)?;
let res = FilterCondition::Operator(fid, Between(numeric_from, numeric_to));
Ok((input, res))
}
/// geoRadius = WS* ~ "_geoRadius(float ~ "," ~ float ~ "," float)
fn parse_geo_radius<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
let err_msg_args_incomplete = "_geoRadius. The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`";
let err_msg_latitude_invalid =
"_geoRadius. Latitude must be contained between -90 and 90 degrees.";
let err_msg_longitude_invalid =
"_geoRadius. Longitude must be contained between -180 and 180 degrees.";
let parsed = preceded::<_, _, _, E, _, _>(
// TODO: forbid spaces between _geoRadius and parenthesis
self.ws(tag("_geoRadius")),
delimited(
char('('),
separated_list1(tag(","), self.ws(|c| recognize_float(c))),
char(')'),
),
)(input);
let (input, args): (&str, Vec<&str>) = match parsed {
Ok(e) => e,
Err(_e) => {
return Err(nom::Err::Failure(E::add_context(
input,
err_msg_args_incomplete,
E::from_char(input, '('),
)));
}
};
if args.len() != 3 {
let e = E::from_char(input, '(');
return Err(nom::Err::Failure(E::add_context(input, err_msg_args_incomplete, e)));
}
let lat = self.parse_numeric(args[0])?;
let lng = self.parse_numeric(args[1])?;
let dis = self.parse_numeric(args[2])?;
let fid = match self.fields_ids_map.id("_geo") {
Some(fid) => fid,
// TODO send an error
None => return Ok((input, FilterCondition::Empty)),
};
if !(-90.0..=90.0).contains(&lat) {
return Err(nom::Err::Failure(E::add_context(
input,
err_msg_latitude_invalid,
E::from_char(input, '('),
)));
} else if !(-180.0..=180.0).contains(&lng) {
return Err(nom::Err::Failure(E::add_context(
input,
err_msg_longitude_invalid,
E::from_char(input, '('),
)));
}
let res = FilterCondition::Operator(fid, GeoLowerThan([lat, lng], dis));
Ok((input, res))
}
/// primary = (WS* ~ "(" expression ")" ~ WS*) | condition | to | geoRadius
fn parse_primary<E>(&'a self, input: &'a str) -> IResult<&str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
alt((
delimited(self.ws(char('(')), |c| self.parse_expression(c), self.ws(char(')'))),
|c| self.parse_condition(c),
|c| self.parse_to(c),
|c| self.parse_geo_radius(c),
))(input)
}
/// value = WS* ~ ( word | singleQuoted | doubleQuoted) ~ WS*
fn parse_value<E>(&'a self, input: &'a str) -> IResult<&'a str, &'a str, E>
where
E: FilterParserError<'a>,
{
// singleQuoted = "'" .* all but quotes "'"
let simple_quoted_key = |input| take_till(|c: char| c == '\'')(input);
// doubleQuoted = "\"" (word | spaces)* "\""
let quoted_key = |input| take_till(|c: char| c == '"')(input);
// word = (alphanumeric | _ | - | .)+
let word = |input| take_while1(Self::is_key_component)(input);
alt((
self.ws(delimited(char('\''), simple_quoted_key, char('\''))),
self.ws(delimited(char('"'), quoted_key, char('"'))),
self.ws(word),
))(input)
}
fn is_key_component(c: char) -> bool {
c.is_alphanumeric() || ['_', '-', '.'].contains(&c)
}
/// expression = or
pub fn parse_expression<E>(&'a self, input: &'a str) -> IResult<&'a str, FilterCondition, E>
where
E: FilterParserError<'a>,
{
self.parse_or(input)
}
}
#[cfg(test)]
mod tests {
use big_s::S;
use either::Either;
use heed::EnvOpenOptions;
use maplit::hashset;
use super::*;
use crate::update::Settings;
use crate::Index;
#[test]
fn string() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut map = index.fields_ids_map(&wtxn).unwrap();
map.insert("channel");
map.insert("dog race");
map.insert("subscribers");
map.insert("_geo");
index.put_fields_ids_map(&mut wtxn, &map).unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_filterable_fields(
hashset! { S("channel"), S("dog race"), S("subscribers"), S("_geo") },
);
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
use FilterCondition as Fc;
let test_case = [
// simple test
(
Fc::from_str(&rtxn, &index, "channel = Ponce"),
Fc::Operator(0, Operator::Equal(None, S("ponce"))),
),
(
Fc::from_str(&rtxn, &index, "subscribers = 12"),
Fc::Operator(2, Operator::Equal(Some(12.), S("12"))),
),
// test all the quotes and simple quotes
(
Fc::from_str(&rtxn, &index, "channel = 'Mister Mv'"),
Fc::Operator(0, Operator::Equal(None, S("mister mv"))),
),
(
Fc::from_str(&rtxn, &index, "channel = \"Mister Mv\""),
Fc::Operator(0, Operator::Equal(None, S("mister mv"))),
),
(
Fc::from_str(&rtxn, &index, "'dog race' = Borzoi"),
Fc::Operator(1, Operator::Equal(None, S("borzoi"))),
),
(
Fc::from_str(&rtxn, &index, "\"dog race\" = Chusky"),
Fc::Operator(1, Operator::Equal(None, S("chusky"))),
),
(
Fc::from_str(&rtxn, &index, "\"dog race\" = \"Bernese Mountain\""),
Fc::Operator(1, Operator::Equal(None, S("bernese mountain"))),
),
(
Fc::from_str(&rtxn, &index, "'dog race' = 'Bernese Mountain'"),
Fc::Operator(1, Operator::Equal(None, S("bernese mountain"))),
),
(
Fc::from_str(&rtxn, &index, "\"dog race\" = 'Bernese Mountain'"),
Fc::Operator(1, Operator::Equal(None, S("bernese mountain"))),
),
// test all the operators
(
Fc::from_str(&rtxn, &index, "channel != ponce"),
Fc::Operator(0, Operator::NotEqual(None, S("ponce"))),
),
(
Fc::from_str(&rtxn, &index, "NOT channel = ponce"),
Fc::Operator(0, Operator::NotEqual(None, S("ponce"))),
),
(
Fc::from_str(&rtxn, &index, "subscribers < 1000"),
Fc::Operator(2, Operator::LowerThan(1000.)),
),
(
Fc::from_str(&rtxn, &index, "subscribers > 1000"),
Fc::Operator(2, Operator::GreaterThan(1000.)),
),
(
Fc::from_str(&rtxn, &index, "subscribers <= 1000"),
Fc::Operator(2, Operator::LowerThanOrEqual(1000.)),
),
(
Fc::from_str(&rtxn, &index, "subscribers >= 1000"),
Fc::Operator(2, Operator::GreaterThanOrEqual(1000.)),
),
(
Fc::from_str(&rtxn, &index, "NOT subscribers < 1000"),
Fc::Operator(2, Operator::GreaterThanOrEqual(1000.)),
),
(
Fc::from_str(&rtxn, &index, "NOT subscribers > 1000"),
Fc::Operator(2, Operator::LowerThanOrEqual(1000.)),
),
(
Fc::from_str(&rtxn, &index, "NOT subscribers <= 1000"),
Fc::Operator(2, Operator::GreaterThan(1000.)),
),
(
Fc::from_str(&rtxn, &index, "NOT subscribers >= 1000"),
Fc::Operator(2, Operator::LowerThan(1000.)),
),
(
Fc::from_str(&rtxn, &index, "subscribers 100 TO 1000"),
Fc::Operator(2, Operator::Between(100., 1000.)),
),
(
Fc::from_str(&rtxn, &index, "NOT subscribers 100 TO 1000"),
Fc::Or(
Box::new(Fc::Operator(2, Operator::LowerThan(100.))),
Box::new(Fc::Operator(2, Operator::GreaterThan(1000.))),
),
),
(
Fc::from_str(&rtxn, &index, "_geoRadius(12, 13, 14)"),
Fc::Operator(3, Operator::GeoLowerThan([12., 13.], 14.)),
),
(
Fc::from_str(&rtxn, &index, "NOT _geoRadius(12, 13, 14)"),
Fc::Operator(3, Operator::GeoGreaterThan([12., 13.], 14.)),
),
// test simple `or` and `and`
(
Fc::from_str(&rtxn, &index, "channel = ponce AND 'dog race' != 'bernese mountain'"),
Fc::And(
Box::new(Fc::Operator(0, Operator::Equal(None, S("ponce")))),
Box::new(Fc::Operator(1, Operator::NotEqual(None, S("bernese mountain")))),
),
),
(
Fc::from_str(&rtxn, &index, "channel = ponce OR 'dog race' != 'bernese mountain'"),
Fc::Or(
Box::new(Fc::Operator(0, Operator::Equal(None, S("ponce")))),
Box::new(Fc::Operator(1, Operator::NotEqual(None, S("bernese mountain")))),
),
),
(
Fc::from_str(
&rtxn,
&index,
"channel = ponce AND 'dog race' != 'bernese mountain' OR subscribers > 1000",
),
Fc::Or(
Box::new(Fc::And(
Box::new(Fc::Operator(0, Operator::Equal(None, S("ponce")))),
Box::new(Fc::Operator(1, Operator::NotEqual(None, S("bernese mountain")))),
)),
Box::new(Fc::Operator(2, Operator::GreaterThan(1000.))),
),
),
// test parenthesis
(
Fc::from_str(
&rtxn,
&index,
"channel = ponce AND ( 'dog race' != 'bernese mountain' OR subscribers > 1000 )",
),
Fc::And(
Box::new(Fc::Operator(0, Operator::Equal(None, S("ponce")))),
Box::new(Fc::Or(
Box::new(Fc::Operator(1, Operator::NotEqual(None, S("bernese mountain")))),
Box::new(Fc::Operator(2, Operator::GreaterThan(1000.))),
))),
),
(
Fc::from_str(
&rtxn,
&index,
"(channel = ponce AND 'dog race' != 'bernese mountain' OR subscribers > 1000) AND _geoRadius(12, 13, 14)",
),
Fc::And(
Box::new(Fc::Or(
Box::new(Fc::And(
Box::new(Fc::Operator(0, Operator::Equal(None, S("ponce")))),
Box::new(Fc::Operator(1, Operator::NotEqual(None, S("bernese mountain")))),
)),
Box::new(Fc::Operator(2, Operator::GreaterThan(1000.))),
)),
Box::new(Fc::Operator(3, Operator::GeoLowerThan([12., 13.], 14.))))
),
];
for (result, expected) in test_case {
assert!(
result.is_ok(),
"Filter {:?} was supposed to be parsed but failed with the following error: `{}`",
expected,
result.unwrap_err()
);
let filter = result.unwrap();
assert_eq!(filter, expected,);
}
}
#[test]
fn number() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut map = index.fields_ids_map(&wtxn).unwrap();
map.insert("timestamp");
index.put_fields_ids_map(&mut wtxn, &map).unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_filterable_fields(hashset! { "timestamp".into() });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
// Test that the facet condition is correctly generated.
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(&rtxn, &index, "timestamp 22 TO 44").unwrap();
let expected = FilterCondition::Operator(0, Between(22.0, 44.0));
assert_eq!(condition, expected);
let condition = FilterCondition::from_str(&rtxn, &index, "NOT timestamp 22 TO 44").unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::Operator(0, LowerThan(22.0))),
Box::new(FilterCondition::Operator(0, GreaterThan(44.0))),
);
assert_eq!(condition, expected);
}
#[test]
fn compare() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("channel"), S("timestamp"), S("id")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("channel"), S("timestamp") ,S("id")});
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(&rtxn, &index, "channel < 20").unwrap();
let expected = FilterCondition::Operator(0, LowerThan(20.0));
assert_eq!(condition, expected);
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(&rtxn, &index, "id < 200").unwrap();
let expected = FilterCondition::Operator(2, LowerThan(200.0));
assert_eq!(condition, expected);
}
#[test]
fn parentheses() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("channel"), S("timestamp")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("channel"), S("timestamp") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
// Test that the facet condition is correctly generated.
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_str(
&rtxn,
&index,
"channel = gotaga OR (timestamp 22 TO 44 AND channel != ponce)",
)
.unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::Operator(0, Operator::Equal(None, S("gotaga")))),
Box::new(FilterCondition::And(
Box::new(FilterCondition::Operator(1, Between(22.0, 44.0))),
Box::new(FilterCondition::Operator(0, Operator::NotEqual(None, S("ponce")))),
)),
);
assert_eq!(condition, expected);
let condition = FilterCondition::from_str(
&rtxn,
&index,
"channel = gotaga OR NOT (timestamp 22 TO 44 AND channel != ponce)",
)
.unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::Operator(0, Operator::Equal(None, S("gotaga")))),
Box::new(FilterCondition::Or(
Box::new(FilterCondition::Or(
Box::new(FilterCondition::Operator(1, LowerThan(22.0))),
Box::new(FilterCondition::Operator(1, GreaterThan(44.0))),
)),
Box::new(FilterCondition::Operator(0, Operator::Equal(None, S("ponce")))),
)),
);
assert_eq!(condition, expected);
}
#[test]
fn from_array() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("channel"), S("timestamp")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("channel"), S("timestamp") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
// Simple array with Left
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["channel = mv"])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = mv").unwrap();
assert_eq!(condition, expected);
// Simple array with Right
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, Option<&str>, _, _>(
&rtxn,
&index,
vec![Either::Right("channel = mv")],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = mv").unwrap();
assert_eq!(condition, expected);
// Array with Left and escaped quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["channel = \"Mister Mv\""])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = \"Mister Mv\"").unwrap();
assert_eq!(condition, expected);
// Array with Right and escaped quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, Option<&str>, _, _>(
&rtxn,
&index,
vec![Either::Right("channel = \"Mister Mv\"")],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = \"Mister Mv\"").unwrap();
assert_eq!(condition, expected);
// Array with Left and escaped simple quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["channel = 'Mister Mv'"])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = 'Mister Mv'").unwrap();
assert_eq!(condition, expected);
// Array with Right and escaped simple quote
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, Option<&str>, _, _>(
&rtxn,
&index,
vec![Either::Right("channel = 'Mister Mv'")],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "channel = 'Mister Mv'").unwrap();
assert_eq!(condition, expected);
// Simple with parenthesis
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array::<_, _, _, &str>(
&rtxn,
&index,
vec![Either::Left(["(channel = mv)"])],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(&rtxn, &index, "(channel = mv)").unwrap();
assert_eq!(condition, expected);
// Test that the facet condition is correctly generated.
let rtxn = index.read_txn().unwrap();
let condition = FilterCondition::from_array(
&rtxn,
&index,
vec![
Either::Right("channel = gotaga"),
Either::Left(vec!["timestamp = 44", "channel != ponce"]),
],
)
.unwrap()
.unwrap();
let expected = FilterCondition::from_str(
&rtxn,
&index,
"channel = gotaga AND (timestamp = 44 OR channel != ponce)",
)
.unwrap();
assert_eq!(condition, expected);
}
#[test]
fn geo_radius() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("_geo"), S("price")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("_geo"), S("price") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
// basic test
let condition =
FilterCondition::from_str(&rtxn, &index, "_geoRadius(12, 13.0005, 2000)").unwrap();
let expected = FilterCondition::Operator(0, GeoLowerThan([12., 13.0005], 2000.));
assert_eq!(condition, expected);
// test the negation of the GeoLowerThan
let condition =
FilterCondition::from_str(&rtxn, &index, "NOT _geoRadius(50, 18, 2000.500)").unwrap();
let expected = FilterCondition::Operator(0, GeoGreaterThan([50., 18.], 2000.500));
assert_eq!(condition, expected);
// composition of multiple operations
let condition = FilterCondition::from_str(
&rtxn,
&index,
"(NOT _geoRadius(1, 2, 300) AND _geoRadius(1.001, 2.002, 1000.300)) OR price <= 10",
)
.unwrap();
let expected = FilterCondition::Or(
Box::new(FilterCondition::And(
Box::new(FilterCondition::Operator(0, GeoGreaterThan([1., 2.], 300.))),
Box::new(FilterCondition::Operator(0, GeoLowerThan([1.001, 2.002], 1000.300))),
)),
Box::new(FilterCondition::Operator(1, LowerThanOrEqual(10.))),
);
assert_eq!(condition, expected);
}
#[test]
fn geo_radius_error() {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
// Set the filterable fields to be the channel.
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
builder.set_searchable_fields(vec![S("_geo"), S("price")]); // to keep the fields order
builder.set_filterable_fields(hashset! { S("_geo"), S("price") });
builder.execute(|_, _| ()).unwrap();
wtxn.commit().unwrap();
let rtxn = index.read_txn().unwrap();
// georadius don't have any parameters
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
// georadius don't have any parameters
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius()");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
// georadius don't have enough parameters
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(1, 2)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
// georadius have too many parameters
let result =
FilterCondition::from_str(&rtxn, &index, "_geoRadius(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error.to_string().contains("The `_geoRadius` filter expect three arguments: `_geoRadius(latitude, longitude, radius)`"));
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-100, 150, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(
error.to_string().contains("Latitude must be contained between -90 and 90 degrees."),
"{}",
error.to_string()
);
// georadius have a bad latitude
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-90.0000001, 150, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error
.to_string()
.contains("Latitude must be contained between -90 and 90 degrees."));
// georadius have a bad longitude
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-10, 250, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error
.to_string()
.contains("Longitude must be contained between -180 and 180 degrees."));
// georadius have a bad longitude
let result = FilterCondition::from_str(&rtxn, &index, "_geoRadius(-10, 180.000001, 10)");
assert!(result.is_err());
let error = result.unwrap_err();
assert!(error
.to_string()
.contains("Longitude must be contained between -180 and 180 degrees."));
}
}

View File

@ -1,10 +1,9 @@
pub use self::facet_distribution::FacetDistribution; pub use self::facet_distribution::FacetDistribution;
pub use self::facet_number::{FacetNumberIter, FacetNumberRange, FacetNumberRevRange}; pub use self::facet_number::{FacetNumberIter, FacetNumberRange, FacetNumberRevRange};
pub use self::facet_string::FacetStringIter; pub use self::facet_string::FacetStringIter;
pub use self::filter_condition::FilterCondition; pub use self::filter_condition::Filter;
mod facet_distribution; mod facet_distribution;
mod facet_number; mod facet_number;
mod facet_string; mod facet_string;
mod filter_condition; mod filter_condition;
mod filter_parser;

View File

@ -14,7 +14,7 @@ use meilisearch_tokenizer::{Analyzer, AnalyzerConfig};
use once_cell::sync::Lazy; use once_cell::sync::Lazy;
use roaring::bitmap::RoaringBitmap; use roaring::bitmap::RoaringBitmap;
pub use self::facet::{FacetDistribution, FacetNumberIter, FilterCondition}; pub use self::facet::{FacetDistribution, FacetNumberIter, Filter};
pub use self::matching_words::MatchingWords; pub use self::matching_words::MatchingWords;
use self::query_tree::QueryTreeBuilder; use self::query_tree::QueryTreeBuilder;
use crate::error::UserError; use crate::error::UserError;
@ -35,7 +35,7 @@ mod query_tree;
pub struct Search<'a> { pub struct Search<'a> {
query: Option<String>, query: Option<String>,
// this should be linked to the String in the query // this should be linked to the String in the query
filter: Option<FilterCondition<'a>>, filter: Option<Filter<'a>>,
offset: usize, offset: usize,
limit: usize, limit: usize,
sort_criteria: Option<Vec<AscDesc>>, sort_criteria: Option<Vec<AscDesc>>,
@ -97,7 +97,7 @@ impl<'a> Search<'a> {
self self
} }
pub fn filter(&mut self, condition: FilterCondition) -> &mut Search<'a> { pub fn filter(&mut self, condition: Filter<'a>) -> &mut Search<'a> {
self.filter = Some(condition); self.filter = Some(condition);
self self
} }