MeiliSearch/milli/src/update/index_documents/extract/extract_geo_points.rs
2023-10-30 11:39:31 +01:00

102 lines
4.1 KiB
Rust

use std::fs::File;
use std::io::{self, BufReader};
use concat_arrays::concat_arrays;
use serde_json::Value;
use super::helpers::{create_writer, writer_into_reader, GrenadParameters};
use crate::error::GeoError;
use crate::update::del_add::{DelAdd, KvReaderDelAdd, KvWriterDelAdd};
use crate::update::index_documents::extract_finite_float_from_value;
use crate::{FieldId, InternalError, Result};
/// Extracts the geographical coordinates contained in each document under the `_geo` field.
///
/// Returns the generated grenad reader containing the docid as key associated to the (latitude, longitude)
#[logging_timer::time]
pub fn extract_geo_points<R: io::Read + io::Seek>(
obkv_documents: grenad::Reader<R>,
indexer: GrenadParameters,
primary_key_id: FieldId,
(lat_fid, lng_fid): (FieldId, FieldId),
) -> Result<grenad::Reader<BufReader<File>>> {
puffin::profile_function!();
let mut writer = create_writer(
indexer.chunk_compression_type,
indexer.chunk_compression_level,
tempfile::tempfile()?,
);
let mut cursor = obkv_documents.into_cursor()?;
while let Some((docid_bytes, value)) = cursor.move_on_next()? {
let obkv = obkv::KvReader::new(value);
// since we only need the primary key when we throw an error
// we create this getter to lazily get it when needed
let document_id = || -> Value {
let document_id = obkv.get(primary_key_id).unwrap();
serde_json::from_slice(document_id).unwrap()
};
// first we get the two fields
match (obkv.get(lat_fid), obkv.get(lng_fid)) {
(Some(lat), Some(lng)) => {
let deladd_lat_obkv = KvReaderDelAdd::new(lat);
let deladd_lng_obkv = KvReaderDelAdd::new(lng);
// then we extract the values
let del_lat_lng = deladd_lat_obkv
.get(DelAdd::Deletion)
.zip(deladd_lng_obkv.get(DelAdd::Deletion))
.map(|(lat, lng)| extract_lat_lng(lat, lng, document_id))
.transpose()?;
let add_lat_lng = deladd_lat_obkv
.get(DelAdd::Addition)
.zip(deladd_lng_obkv.get(DelAdd::Addition))
.map(|(lat, lng)| extract_lat_lng(lat, lng, document_id))
.transpose()?;
if del_lat_lng != add_lat_lng {
let mut obkv = KvWriterDelAdd::memory();
if let Some([lat, lng]) = del_lat_lng {
#[allow(clippy::drop_non_drop)]
let bytes: [u8; 16] = concat_arrays![lat.to_ne_bytes(), lng.to_ne_bytes()];
obkv.insert(DelAdd::Deletion, bytes)?;
}
if let Some([lat, lng]) = add_lat_lng {
#[allow(clippy::drop_non_drop)]
let bytes: [u8; 16] = concat_arrays![lat.to_ne_bytes(), lng.to_ne_bytes()];
obkv.insert(DelAdd::Addition, bytes)?;
}
let bytes = obkv.into_inner()?;
writer.insert(docid_bytes, bytes)?;
}
}
(None, Some(_)) => {
return Err(GeoError::MissingLatitude { document_id: document_id() }.into())
}
(Some(_), None) => {
return Err(GeoError::MissingLongitude { document_id: document_id() }.into())
}
(None, None) => (),
}
}
writer_into_reader(writer)
}
/// Extract the finite floats lat and lng from two bytes slices.
fn extract_lat_lng(lat: &[u8], lng: &[u8], document_id: impl Fn() -> Value) -> Result<[f64; 2]> {
let lat = extract_finite_float_from_value(
serde_json::from_slice(lat).map_err(InternalError::SerdeJson)?,
)
.map_err(|lat| GeoError::BadLatitude { document_id: document_id(), value: lat })?;
let lng = extract_finite_float_from_value(
serde_json::from_slice(lng).map_err(InternalError::SerdeJson)?,
)
.map_err(|lng| GeoError::BadLongitude { document_id: document_id(), value: lng })?;
Ok([lat, lng])
}