mirror of
https://github.com/meilisearch/meilisearch.git
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332 lines
12 KiB
Rust
332 lines
12 KiB
Rust
#![cfg_attr(all(test, fuzzing), feature(no_coverage))]
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#[macro_use]
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pub mod documents;
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mod asc_desc;
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mod criterion;
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mod error;
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mod external_documents_ids;
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pub mod facet;
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mod fields_ids_map;
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pub mod heed_codec;
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pub mod index;
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pub mod proximity;
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mod search;
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pub mod update;
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#[cfg(test)]
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#[macro_use]
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pub mod snapshot_tests;
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use std::collections::{BTreeMap, HashMap};
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use std::convert::{TryFrom, TryInto};
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use std::hash::BuildHasherDefault;
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pub use filter_parser::{Condition, FilterCondition, Span, Token};
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use fxhash::{FxHasher32, FxHasher64};
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pub use grenad::CompressionType;
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use serde_json::Value;
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pub use {charabia as tokenizer, heed};
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pub use self::asc_desc::{AscDesc, AscDescError, Member, SortError};
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pub use self::criterion::{default_criteria, Criterion, CriterionError};
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pub use self::error::{
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Error, FieldIdMapMissingEntry, InternalError, SerializationError, UserError,
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};
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pub use self::external_documents_ids::ExternalDocumentsIds;
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pub use self::fields_ids_map::FieldsIdsMap;
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pub use self::heed_codec::{
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BEU32StrCodec, BoRoaringBitmapCodec, BoRoaringBitmapLenCodec, CboRoaringBitmapCodec,
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CboRoaringBitmapLenCodec, FieldIdWordCountCodec, ObkvCodec, RoaringBitmapCodec,
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RoaringBitmapLenCodec, StrBEU32Codec, U8StrStrCodec, UncheckedU8StrStrCodec,
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};
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pub use self::index::Index;
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pub use self::search::{
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FacetDistribution, Filter, FormatOptions, MatchBounds, MatcherBuilder, MatchingWord,
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MatchingWords, Search, SearchResult, TermsMatchingStrategy, DEFAULT_VALUES_PER_FACET,
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};
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pub type Result<T> = std::result::Result<T, error::Error>;
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pub type Attribute = u32;
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pub type BEU16 = heed::zerocopy::U16<heed::byteorder::BE>;
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pub type BEU32 = heed::zerocopy::U32<heed::byteorder::BE>;
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pub type BEU64 = heed::zerocopy::U64<heed::byteorder::BE>;
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pub type DocumentId = u32;
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pub type FastMap4<K, V> = HashMap<K, V, BuildHasherDefault<FxHasher32>>;
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pub type FastMap8<K, V> = HashMap<K, V, BuildHasherDefault<FxHasher64>>;
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pub type FieldDistribution = BTreeMap<String, u64>;
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pub type FieldId = u16;
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pub type Object = serde_json::Map<String, serde_json::Value>;
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pub type Position = u32;
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pub type RelativePosition = u16;
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pub type SmallString32 = smallstr::SmallString<[u8; 32]>;
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pub type SmallVec16<T> = smallvec::SmallVec<[T; 16]>;
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pub type SmallVec32<T> = smallvec::SmallVec<[T; 32]>;
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pub type SmallVec8<T> = smallvec::SmallVec<[T; 8]>;
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/// A GeoPoint is a point in cartesian plan, called xyz_point in the code. Its metadata
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/// is a tuple composed of 1. the DocumentId of the associated document and 2. the original point
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/// expressed in term of latitude and longitude.
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pub type GeoPoint = rstar::primitives::GeomWithData<[f64; 3], (DocumentId, [f64; 2])>;
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/// The maximum length a LMDB key can be.
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///
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/// Note that the actual allowed length is a little bit higher, but
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/// we keep a margin of safety.
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const MAX_LMDB_KEY_LENGTH: usize = 500;
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/// The maximum length a field value can be when inserted in an LMDB key.
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///
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/// This number is determined by the keys of the different facet databases
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/// and adding a margin of safety.
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pub const MAX_FACET_VALUE_LENGTH: usize = MAX_LMDB_KEY_LENGTH - 20;
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/// The maximum length a word can be
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pub const MAX_WORD_LENGTH: usize = MAX_LMDB_KEY_LENGTH / 2;
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pub const MAX_POSITION_PER_ATTRIBUTE: u32 = u16::MAX as u32 + 1;
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// Convert an absolute word position into a relative position.
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// Return the field id of the attribute related to the absolute position
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// and the relative position in the attribute.
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pub fn relative_from_absolute_position(absolute: Position) -> (FieldId, RelativePosition) {
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((absolute >> 16) as u16, (absolute & 0xFFFF) as u16)
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}
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// Compute the absolute word position with the field id of the attribute and relative position in the attribute.
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pub fn absolute_from_relative_position(field_id: FieldId, relative: RelativePosition) -> Position {
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(field_id as u32) << 16 | (relative as u32)
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}
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/// Transform a raw obkv store into a JSON Object.
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pub fn obkv_to_json(
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displayed_fields: &[FieldId],
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fields_ids_map: &FieldsIdsMap,
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obkv: obkv::KvReaderU16,
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) -> Result<Object> {
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displayed_fields
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.iter()
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.copied()
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.flat_map(|id| obkv.get(id).map(|value| (id, value)))
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.map(|(id, value)| {
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let name = fields_ids_map.name(id).ok_or(error::FieldIdMapMissingEntry::FieldId {
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field_id: id,
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process: "obkv_to_json",
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})?;
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let value = serde_json::from_slice(value).map_err(error::InternalError::SerdeJson)?;
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Ok((name.to_owned(), value))
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})
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.collect()
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}
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/// Transform every field of a raw obkv store into a JSON Object.
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pub fn all_obkv_to_json(obkv: obkv::KvReaderU16, fields_ids_map: &FieldsIdsMap) -> Result<Object> {
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let all_keys = obkv.iter().map(|(k, _v)| k).collect::<Vec<_>>();
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obkv_to_json(all_keys.as_slice(), fields_ids_map, obkv)
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}
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/// Transform a JSON value into a string that can be indexed.
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pub fn json_to_string(value: &Value) -> Option<String> {
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fn inner(value: &Value, output: &mut String) -> bool {
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use std::fmt::Write;
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match value {
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Value::Null => false,
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Value::Bool(boolean) => write!(output, "{}", boolean).is_ok(),
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Value::Number(number) => write!(output, "{}", number).is_ok(),
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Value::String(string) => write!(output, "{}", string).is_ok(),
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Value::Array(array) => {
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let mut count = 0;
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for value in array {
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if inner(value, output) {
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output.push_str(". ");
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count += 1;
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}
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}
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// check that at least one value was written
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count != 0
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}
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Value::Object(object) => {
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let mut buffer = String::new();
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let mut count = 0;
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for (key, value) in object {
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buffer.clear();
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let _ = write!(&mut buffer, "{}: ", key);
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if inner(value, &mut buffer) {
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buffer.push_str(". ");
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// We write the "key: value. " pair only when
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// we are sure that the value can be written.
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output.push_str(&buffer);
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count += 1;
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}
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}
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// check that at least one value was written
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count != 0
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}
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}
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}
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let mut string = String::new();
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if inner(value, &mut string) {
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Some(string)
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} else {
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None
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}
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}
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/// Divides one slice into two at an index, returns `None` if mid is out of bounds.
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fn try_split_at<T>(slice: &[T], mid: usize) -> Option<(&[T], &[T])> {
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if mid <= slice.len() {
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Some(slice.split_at(mid))
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} else {
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None
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}
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}
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/// Divides one slice into an array and the tail at an index,
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/// returns `None` if `N` is out of bounds.
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fn try_split_array_at<T, const N: usize>(slice: &[T]) -> Option<([T; N], &[T])>
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where
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[T; N]: for<'a> TryFrom<&'a [T]>,
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{
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let (head, tail) = try_split_at(slice, N)?;
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let head = head.try_into().ok()?;
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Some((head, tail))
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}
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/// Return the distance between two points in meters. Each points are composed of two f64,
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/// one latitude and one longitude.
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pub fn distance_between_two_points(a: &[f64; 2], b: &[f64; 2]) -> f64 {
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let a = geoutils::Location::new(a[0], a[1]);
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let b = geoutils::Location::new(b[0], b[1]);
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a.haversine_distance_to(&b).meters()
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}
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/// Convert a point expressed in terms of latitude and longitude to a point in the
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/// cartesian coordinate expressed in terms of x, y and z.
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pub fn lat_lng_to_xyz(coord: &[f64; 2]) -> [f64; 3] {
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let [lat, lng] = coord.map(|f| f.to_radians());
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let x = lat.cos() * lng.cos();
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let y = lat.cos() * lng.sin();
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let z = lat.sin();
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[x, y, z]
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}
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/// Returns `true` if the field match one of the faceted fields.
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/// See the function [`is_faceted_by`] below to see what “matching” means.
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pub fn is_faceted(field: &str, faceted_fields: impl IntoIterator<Item = impl AsRef<str>>) -> bool {
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faceted_fields.into_iter().any(|facet| is_faceted_by(field, facet.as_ref()))
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}
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/// Returns `true` if the field match the facet.
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/// ```
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/// use milli::is_faceted_by;
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/// // -- the valid basics
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/// assert!(is_faceted_by("animaux", "animaux"));
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/// assert!(is_faceted_by("animaux.chien", "animaux"));
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/// assert!(is_faceted_by("animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux"));
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/// assert!(is_faceted_by("animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien"));
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/// assert!(is_faceted_by("animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien.race.bouvier bernois"));
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/// assert!(is_faceted_by("animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien.race.bouvier bernois.fourrure"));
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/// assert!(is_faceted_by("animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien.race.bouvier bernois.fourrure.couleur"));
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///
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/// // -- the wrongs
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/// assert!(!is_faceted_by("chien", "chat"));
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/// assert!(!is_faceted_by("animaux", "animaux.chien"));
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/// assert!(!is_faceted_by("animaux.chien", "animaux.chat"));
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///
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/// // -- the strange edge cases
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/// assert!(!is_faceted_by("animaux.chien", "anima"));
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/// assert!(!is_faceted_by("animaux.chien", "animau"));
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/// assert!(!is_faceted_by("animaux.chien", "animaux."));
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/// assert!(!is_faceted_by("animaux.chien", "animaux.c"));
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/// assert!(!is_faceted_by("animaux.chien", "animaux.ch"));
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/// assert!(!is_faceted_by("animaux.chien", "animaux.chi"));
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/// assert!(!is_faceted_by("animaux.chien", "animaux.chie"));
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/// ```
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pub fn is_faceted_by(field: &str, facet: &str) -> bool {
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field.starts_with(facet)
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&& field[facet.len()..].chars().next().map(|c| c == '.').unwrap_or(true)
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}
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#[cfg(test)]
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mod tests {
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use serde_json::json;
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use super::*;
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#[test]
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fn json_to_string_object() {
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let value = json!({
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"name": "John Doe",
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"age": 43,
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"not_there": null,
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});
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let string = json_to_string(&value).unwrap();
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assert_eq!(string, "name: John Doe. age: 43. ");
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}
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#[test]
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fn json_to_string_array() {
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let value = json!([
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{ "name": "John Doe" },
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43,
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"hello",
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[ "I", "am", "fine" ],
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null,
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]);
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let string = json_to_string(&value).unwrap();
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// We don't care about having two point (.) after the other as
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// the distance of hard separators is clamped to 8 anyway.
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assert_eq!(string, "name: John Doe. . 43. hello. I. am. fine. . ");
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}
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#[test]
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fn test_relative_position_conversion() {
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assert_eq!((0x0000, 0x0000), relative_from_absolute_position(0x00000000));
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assert_eq!((0x0000, 0xFFFF), relative_from_absolute_position(0x0000FFFF));
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assert_eq!((0xFFFF, 0x0000), relative_from_absolute_position(0xFFFF0000));
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assert_eq!((0xFF00, 0xFF00), relative_from_absolute_position(0xFF00FF00));
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assert_eq!((0xFF00, 0x00FF), relative_from_absolute_position(0xFF0000FF));
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assert_eq!((0x1234, 0x5678), relative_from_absolute_position(0x12345678));
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assert_eq!((0xFFFF, 0xFFFF), relative_from_absolute_position(0xFFFFFFFF));
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}
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#[test]
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fn test_absolute_position_conversion() {
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assert_eq!(0x00000000, absolute_from_relative_position(0x0000, 0x0000));
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assert_eq!(0x0000FFFF, absolute_from_relative_position(0x0000, 0xFFFF));
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assert_eq!(0xFFFF0000, absolute_from_relative_position(0xFFFF, 0x0000));
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assert_eq!(0xFF00FF00, absolute_from_relative_position(0xFF00, 0xFF00));
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assert_eq!(0xFF0000FF, absolute_from_relative_position(0xFF00, 0x00FF));
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assert_eq!(0x12345678, absolute_from_relative_position(0x1234, 0x5678));
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assert_eq!(0xFFFFFFFF, absolute_from_relative_position(0xFFFF, 0xFFFF));
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}
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#[test]
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fn test_all_obkv_to_json() {
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let mut fields_ids_map = FieldsIdsMap::new();
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let id1 = fields_ids_map.insert("field1").unwrap();
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let id2 = fields_ids_map.insert("field2").unwrap();
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let mut writer = obkv::KvWriterU16::memory();
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writer.insert(id1, b"1234").unwrap();
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writer.insert(id2, b"4321").unwrap();
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let contents = writer.into_inner().unwrap();
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let obkv = obkv::KvReaderU16::new(&contents);
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let expected = json!({
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"field1": 1234,
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"field2": 4321,
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});
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let expected = expected.as_object().unwrap();
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let actual = all_obkv_to_json(obkv, &fields_ids_map).unwrap();
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assert_eq!(&actual, expected);
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}
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}
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