354 lines
12 KiB
Rust
Raw Normal View History

2020-05-05 22:19:34 +02:00
use std::borrow::Cow;
use std::collections::HashMap;
use std::hash::Hash;
use std::ops::Deref;
use cow_utils::CowUtils;
use either::Either;
use heed::types::{Str, OwnedType};
use indexmap::IndexMap;
use serde_json::Value;
use meilisearch_schema::{FieldId, Schema};
use meilisearch_types::DocumentId;
use crate::database::MainT;
use crate::error::{FacetError, Error};
use crate::store::BEU16;
/// Data structure used to represent a boolean expression in the form of nested arrays.
/// Values in the outer array are and-ed together, values in the inner arrays are or-ed together.
#[derive(Debug, PartialEq)]
pub struct FacetFilter(Vec<Either<Vec<FacetKey>, FacetKey>>);
impl Deref for FacetFilter {
type Target = Vec<Either<Vec<FacetKey>, FacetKey>>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl FacetFilter {
pub fn from_str(
s: &str,
schema: &Schema,
attributes_for_faceting: &[FieldId],
) -> Result<Self, FacetError> {
let parsed = serde_json::from_str::<Value>(s).map_err(|e| FacetError::ParsingError(e.to_string()))?;
let mut filter = Vec::new();
match parsed {
Value::Array(and_exprs) => {
if and_exprs.is_empty() {
return Err(FacetError::EmptyArray);
}
for expr in and_exprs {
match expr {
Value::String(s) => {
let key = FacetKey::from_str( &s, schema, attributes_for_faceting)?;
filter.push(Either::Right(key));
}
Value::Array(or_exprs) => {
if or_exprs.is_empty() {
return Err(FacetError::EmptyArray);
}
let mut inner = Vec::new();
for expr in or_exprs {
match expr {
Value::String(s) => {
let key = FacetKey::from_str( &s, schema, attributes_for_faceting)?;
inner.push(key);
}
bad_value => return Err(FacetError::unexpected_token(&["String"], bad_value)),
}
}
filter.push(Either::Left(inner));
}
bad_value => return Err(FacetError::unexpected_token(&["Array", "String"], bad_value)),
}
}
return Ok(Self(filter));
}
2020-05-05 22:28:46 +02:00
bad_value => Err(FacetError::unexpected_token(&["Array"], bad_value)),
2020-05-05 22:19:34 +02:00
}
}
}
#[derive(Debug, Eq, PartialEq, Hash)]
#[repr(C)]
pub struct FacetKey(FieldId, String);
impl FacetKey {
pub fn new(field_id: FieldId, value: String) -> Self {
let value = match value.cow_to_lowercase() {
Cow::Borrowed(_) => value,
Cow::Owned(s) => s,
};
Self(field_id, value)
}
pub fn key(&self) -> FieldId {
self.0
}
pub fn value(&self) -> &str {
&self.1
}
// TODO improve parser
fn from_str(
s: &str,
schema: &Schema,
attributes_for_faceting: &[FieldId],
) -> Result<Self, FacetError> {
let mut split = s.splitn(2, ':');
let key = split
.next()
.ok_or_else(|| FacetError::InvalidFormat(s.to_string()))?
.trim();
let field_id = schema
.id(key)
.ok_or_else(|| FacetError::AttributeNotFound(key.to_string()))?;
if !attributes_for_faceting.contains(&field_id) {
return Err(FacetError::attribute_not_set(
attributes_for_faceting
.iter()
.filter_map(|&id| schema.name(id))
.map(str::to_string)
.collect::<Vec<_>>(),
key))
}
let value = split
.next()
.ok_or_else(|| FacetError::InvalidFormat(s.to_string()))?
.trim();
// unquoting the string if need be:
let mut indices = value.char_indices();
let value = match (indices.next(), indices.last()) {
(Some((s, '\'')), Some((e, '\''))) |
(Some((s, '\"')), Some((e, '\"'))) => value[s + 1..e].to_string(),
_ => value.to_string(),
};
Ok(Self::new(field_id, value))
}
}
impl<'a> heed::BytesEncode<'a> for FacetKey {
type EItem = FacetKey;
fn bytes_encode(item: &'a Self::EItem) -> Option<Cow<'a, [u8]>> {
let mut buffer = Vec::with_capacity(2 + item.1.len());
let id = BEU16::new(item.key().into());
let id_bytes = OwnedType::bytes_encode(&id)?;
let value_bytes = Str::bytes_encode(item.value())?;
buffer.extend_from_slice(id_bytes.as_ref());
buffer.extend_from_slice(value_bytes.as_ref());
Some(Cow::Owned(buffer))
}
}
impl<'a> heed::BytesDecode<'a> for FacetKey {
type DItem = FacetKey;
fn bytes_decode(bytes: &'a [u8]) -> Option<Self::DItem> {
let (id_bytes, value_bytes) = bytes.split_at(2);
let id = OwnedType::<BEU16>::bytes_decode(id_bytes)?;
let id = id.get().into();
let string = Str::bytes_decode(&value_bytes)?;
Some(FacetKey(id, string.to_string()))
}
}
pub fn add_to_facet_map(
facet_map: &mut HashMap<FacetKey, Vec<DocumentId>>,
field_id: FieldId,
value: Value,
document_id: DocumentId,
) -> Result<(), FacetError> {
let value = match value {
Value::String(s) => s,
// ignore null
Value::Null => return Ok(()),
value => return Err(FacetError::InvalidDocumentAttribute(value.to_string())),
};
let key = FacetKey::new(field_id, value);
facet_map.entry(key).or_insert_with(Vec::new).push(document_id);
Ok(())
}
pub fn facet_map_from_docids(
rtxn: &heed::RoTxn<MainT>,
index: &crate::Index,
document_ids: &[DocumentId],
attributes_for_facetting: &[FieldId],
) -> Result<HashMap<FacetKey, Vec<DocumentId>>, Error> {
let mut facet_map = HashMap::new();
for document_id in document_ids {
for result in index
.documents_fields
.document_fields(rtxn, *document_id)?
{
let (field_id, bytes) = result?;
if attributes_for_facetting.contains(&field_id) {
match serde_json::from_slice(bytes)? {
Value::Array(values) => {
for v in values {
add_to_facet_map(&mut facet_map, field_id, v, *document_id)?;
}
}
v => add_to_facet_map(&mut facet_map, field_id, v, *document_id)?,
};
}
}
}
Ok(facet_map)
}
pub fn facet_map_from_docs(
schema: &Schema,
documents: &HashMap<DocumentId, IndexMap<String, Value>>,
attributes_for_facetting: &[FieldId],
) -> Result<HashMap<FacetKey, Vec<DocumentId>>, Error> {
let mut facet_map = HashMap::new();
let attributes_for_facetting = attributes_for_facetting
.iter()
.filter_map(|&id| schema.name(id).map(|name| (id, name)))
.collect::<Vec<_>>();
for (id, document) in documents {
for (field_id, name) in &attributes_for_facetting {
if let Some(value) = document.get(*name) {
match value {
Value::Array(values) => {
for v in values {
add_to_facet_map(&mut facet_map, *field_id, v.clone(), *id)?;
}
}
v => add_to_facet_map(&mut facet_map, *field_id, v.clone(), *id)?,
}
}
}
}
Ok(facet_map)
}
#[cfg(test)]
mod test {
use super::*;
use meilisearch_schema::Schema;
#[test]
fn test_facet_key() {
let mut schema = Schema::new();
let id = schema.insert_and_index("hello").unwrap();
let facet_list = [schema.id("hello").unwrap()];
assert_eq!(
FacetKey::from_str("hello:12", &schema, &facet_list).unwrap(),
FacetKey::new(id, "12".to_string())
);
assert_eq!(
FacetKey::from_str("hello:\"foo bar\"", &schema, &facet_list).unwrap(),
FacetKey::new(id, "foo bar".to_string())
);
assert_eq!(
FacetKey::from_str("hello:'foo bar'", &schema, &facet_list).unwrap(),
FacetKey::new(id, "foo bar".to_string())
);
// weird case
assert_eq!(
FacetKey::from_str("hello:blabla:machin", &schema, &facet_list).unwrap(),
FacetKey::new(id, "blabla:machin".to_string())
);
assert_eq!(
FacetKey::from_str("hello:\"\"", &schema, &facet_list).unwrap(),
FacetKey::new(id, "".to_string())
);
assert_eq!(
FacetKey::from_str("hello:'", &schema, &facet_list).unwrap(),
FacetKey::new(id, "'".to_string())
);
assert_eq!(
FacetKey::from_str("hello:''", &schema, &facet_list).unwrap(),
FacetKey::new(id, "".to_string())
);
assert!(FacetKey::from_str("hello", &schema, &facet_list).is_err());
assert!(FacetKey::from_str("toto:12", &schema, &facet_list).is_err());
}
#[test]
fn test_parse_facet_array() {
use either::Either::{Left, Right};
let mut schema = Schema::new();
let _id = schema.insert_and_index("hello").unwrap();
let facet_list = [schema.id("hello").unwrap()];
assert_eq!(
FacetFilter::from_str("[[\"hello:12\"]]", &schema, &facet_list).unwrap(),
FacetFilter(vec![Left(vec![FacetKey(FieldId(0), "12".to_string())])])
);
assert_eq!(
FacetFilter::from_str("[\"hello:12\"]", &schema, &facet_list).unwrap(),
FacetFilter(vec![Right(FacetKey(FieldId(0), "12".to_string()))])
);
assert_eq!(
FacetFilter::from_str("[\"hello:12\", \"hello:13\"]", &schema, &facet_list).unwrap(),
FacetFilter(vec![
Right(FacetKey(FieldId(0), "12".to_string())),
Right(FacetKey(FieldId(0), "13".to_string()))
])
);
assert_eq!(
FacetFilter::from_str("[[\"hello:12\", \"hello:13\"]]", &schema, &facet_list).unwrap(),
FacetFilter(vec![Left(vec![
FacetKey(FieldId(0), "12".to_string()),
FacetKey(FieldId(0), "13".to_string())
])])
);
assert_eq!(
FacetFilter::from_str(
"[[\"hello:12\", \"hello:13\"], \"hello:14\"]",
&schema,
&facet_list
)
.unwrap(),
FacetFilter(vec![
Left(vec![
FacetKey(FieldId(0), "12".to_string()),
FacetKey(FieldId(0), "13".to_string())
]),
Right(FacetKey(FieldId(0), "14".to_string()))
])
);
// invalid array depths
assert!(FacetFilter::from_str(
"[[[\"hello:12\", \"hello:13\"], \"hello:14\"]]",
&schema,
&facet_list
)
.is_err());
assert!(FacetFilter::from_str(
"[[[\"hello:12\", \"hello:13\"]], \"hello:14\"]]",
&schema,
&facet_list
)
.is_err());
assert!(FacetFilter::from_str("\"hello:14\"", &schema, &facet_list).is_err());
// unexisting key
assert!(FacetFilter::from_str("[\"foo:12\"]", &schema, &facet_list).is_err());
// invalid facet key
assert!(FacetFilter::from_str("[\"foo=12\"]", &schema, &facet_list).is_err());
assert!(FacetFilter::from_str("[\"foo12\"]", &schema, &facet_list).is_err());
assert!(FacetFilter::from_str("[\"\"]", &schema, &facet_list).is_err());
// empty array error
assert!(FacetFilter::from_str("[]", &schema, &facet_list).is_err());
assert!(FacetFilter::from_str("[\"hello:12\", []]", &schema, &facet_list).is_err());
}
}