Exact attribute with state

milli/src/search/new/exact_attribute.rs

@@ -1,5 +1,5 @@
 use heed::BytesDecode;
-use roaring::MultiOps;
+use roaring::{MultiOps, RoaringBitmap};
 
 use super::query_graph::QueryGraph;
 use super::ranking_rules::{RankingRule, RankingRuleOutput};
@@ -7,19 +7,18 @@ use crate::search::new::query_graph::QueryNodeData;
 use crate::search::new::query_term::ExactTerm;
 use crate::{CboRoaringBitmapCodec, Result, SearchContext, SearchLogger};
 
-/// FIXME:
+/// A ranking rule that produces 3 disjoint buckets:
 ///
-/// - A lot of work done in next_bucket that start_iteration could do.
-/// - Consider calling the graph based rule directly from this one.
-/// - currently we did exact term, don't forget about prefix
-/// - some tests
+/// 1. Documents from the universe whose value is exactly the query.
+/// 2. Documents from the universe not in (1) whose value starts with the query.
+/// 3. Documents from the universe not in (1) or (2).
 pub struct ExactAttribute {
-    query_graph: Option<QueryGraph>,
+    state: State,
 }
 
 impl ExactAttribute {
     pub fn new() -> Self {
-        Self { query_graph: None }
+        Self { state: Default::default() }
     }
 }
 
@@ -30,23 +29,69 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
 
     fn start_iteration(
         &mut self,
-        _ctx: &mut SearchContext<'ctx>,
+        ctx: &mut SearchContext<'ctx>,
         _logger: &mut dyn SearchLogger<QueryGraph>,
-        _universe: &roaring::RoaringBitmap,
+        universe: &roaring::RoaringBitmap,
         query: &QueryGraph,
     ) -> Result<()> {
-        self.query_graph = Some(query.clone());
+        self.state = State::start_iteration(ctx, universe, query)?;
+
         Ok(())
     }
 
     fn next_bucket(
         &mut self,
-        ctx: &mut SearchContext<'ctx>,
+        _ctx: &mut SearchContext<'ctx>,
         _logger: &mut dyn SearchLogger<QueryGraph>,
         universe: &roaring::RoaringBitmap,
     ) -> Result<Option<RankingRuleOutput<QueryGraph>>> {
-        // iterate on the nodes of the graph, retain LocatedQueryTermSubset
-        let query_graph = self.query_graph.as_ref().unwrap();
+        let state = std::mem::take(&mut self.state);
+        let (state, output) = State::next(state, universe);
+        self.state = state;
+
+        Ok(output)
+    }
+
+    fn end_iteration(
+        &mut self,
+        _ctx: &mut SearchContext<'ctx>,
+        _logger: &mut dyn SearchLogger<QueryGraph>,
+    ) {
+        self.state = Default::default();
+    }
+}
+
+/// Inner state of the ranking rule.
+#[derive(Default)]
+enum State {
+    /// State between two iterations
+    #[default]
+    Uninitialized,
+    /// The next call to `next` will output the documents in the universe that have an attribute that is the exact query
+    ExactAttribute(QueryGraph, Vec<FieldCandidates>),
+    /// The next call to `next` will output the documents in the universe that have an attribute that starts with the exact query,
+    /// but isn't the exact query.
+    AttributeStarts(QueryGraph, Vec<FieldCandidates>),
+    /// The next calls to `next` will output the input universe.
+    Empty(QueryGraph),
+}
+
+/// The candidates sorted by attributes
+///
+/// Each of the bitmap in a single `FieldCandidates` struct applies to the same field.
+struct FieldCandidates {
+    /// The candidates that start with all the words of the query in the field
+    start_with_exact: RoaringBitmap,
+    /// The candidates that have the same number of words as the query in the field
+    exact_word_count: RoaringBitmap,
+}
+
+impl State {
+    fn start_iteration(
+        ctx: &mut SearchContext<'_>,
+        universe: &RoaringBitmap,
+        query_graph: &QueryGraph,
+    ) -> Result<Self> {
         let mut exact_term_position_ids: Vec<(ExactTerm, u16, u8)> =
             Vec::with_capacity(query_graph.nodes.len() as usize);
         for (_, node) in query_graph.nodes.iter() {
@@ -55,11 +100,7 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
                     let exact_term = if let Some(exact_term) = term.term_subset.exact_term(ctx) {
                         exact_term
                     } else {
-                        // FIXME: Use `None` or some function indicating that we're passing down the bucket to our child rules
-                        return Ok(Some(RankingRuleOutput {
-                            query: query_graph.clone(),
-                            candidates: universe.clone(),
-                        }));
+                        continue;
                     };
                     exact_term_position_ids.push((
                         exact_term,
@@ -73,14 +114,17 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
 
         exact_term_position_ids.sort_by_key(|(_, _, id)| *id);
         // bail if there is a "hole" (missing word) in remaining query graph
+        if let Some((_, _, first_id)) = exact_term_position_ids.first() {
+            if *first_id != 0 {
+                return Ok(State::Empty(query_graph.clone()));
+            }
+        } else {
+            return Ok(State::Empty(query_graph.clone()));
+        }
         let mut previous_id = 0;
         for (_, _, id) in exact_term_position_ids.iter().copied() {
             if id < previous_id || id - previous_id > 1 {
-                // FIXME: Use `None` or some function indicating that we're passing down the bucket to our child rules
-                return Ok(Some(RankingRuleOutput {
-                    query: query_graph.clone(),
-                    candidates: universe.clone(),
-                }));
+                return Ok(State::Empty(query_graph.clone()));
             } else {
                 previous_id = id;
             }
@@ -102,11 +146,7 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
             .collect();
         for (words, position) in &words_positions {
             if candidates.is_empty() {
-                // FIXME: Use `None` or some function indicating that we're passing down the bucket to our child rules
-                return Ok(Some(RankingRuleOutput {
-                    query: query_graph.clone(),
-                    candidates: universe.clone(),
-                }));
+                return Ok(State::Empty(query_graph.clone()));
             }
 
             'words: for (offset, word) in words.iter().enumerate() {
@@ -116,8 +156,11 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
                 } else {
                     continue 'words;
                 };
+                // Note: Since the position is stored bucketed in word_position_docids, for queries with a lot of
+                // longer phrases we'll be losing on precision here.
+                let bucketed_position = crate::bucketed_position(position + offset);
                 let word_position_docids = CboRoaringBitmapCodec::bytes_decode(
-                    ctx.get_db_word_position_docids(*word, position + offset)?.unwrap_or_default(),
+                    ctx.get_db_word_position_docids(*word, bucketed_position)?.unwrap_or_default(),
                 )
                 .unwrap_or_default();
                 candidates &= word_position_docids;
@@ -127,16 +170,12 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
         let candidates = candidates;
 
         if candidates.is_empty() {
-            // FIXME: Use `None` or some function indicating that we're passing down the bucket to our child rules
-            return Ok(Some(RankingRuleOutput {
-                query: query_graph.clone(),
-                candidates: universe.clone(),
-            }));
+            return Ok(State::Empty(query_graph.clone()));
         }
 
         let searchable_fields_ids = ctx.index.searchable_fields_ids(ctx.txn)?.unwrap_or_default();
 
-        let mut candidates_per_attributes = Vec::with_capacity(searchable_fields_ids.len());
+        let mut candidates_per_attribute = Vec::with_capacity(searchable_fields_ids.len());
 
         // then check that there exists at least one attribute that has all of the terms
         for fid in searchable_fields_ids {
@@ -156,20 +195,59 @@ impl<'ctx> RankingRule<'ctx, QueryGraph> for ExactAttribute {
             )?;
             intersection &= &candidates;
             if !intersection.is_empty() {
-                candidates_per_attributes.push(intersection);
+                let candidates_with_exact_word_count = ctx
+                    .index
+                    .field_id_word_count_docids
+                    .get(ctx.txn, &(fid, exact_term_position_ids.len() as u8))?
+                    .unwrap_or_default();
+                candidates_per_attribute.push(FieldCandidates {
+                    start_with_exact: intersection,
+                    exact_word_count: candidates_with_exact_word_count,
+                });
             }
         }
         // note we could have "false positives" where there both exist different attributes that collectively
         // have the terms in the correct order and a single attribute that have all the terms, but in the incorrect order.
 
-        let candidates = MultiOps::union(candidates_per_attributes.into_iter());
-        Ok(Some(RankingRuleOutput { query: query_graph.clone(), candidates }))
+        Ok(State::ExactAttribute(query_graph.clone(), candidates_per_attribute))
     }
 
-    fn end_iteration(
-        &mut self,
-        _ctx: &mut SearchContext<'ctx>,
-        _logger: &mut dyn SearchLogger<QueryGraph>,
-    ) {
+    fn next(
+        state: State,
+        universe: &RoaringBitmap,
+    ) -> (State, Option<RankingRuleOutput<QueryGraph>>) {
+        let (state, output) = match state {
+            State::Uninitialized => (state, None),
+            State::ExactAttribute(query_graph, candidates_per_attribute) => {
+                let mut candidates = MultiOps::union(candidates_per_attribute.iter().map(
+                    |FieldCandidates { start_with_exact, exact_word_count }| {
+                        start_with_exact & exact_word_count
+                    },
+                ));
+                candidates &= universe;
+                (
+                    State::AttributeStarts(query_graph.clone(), candidates_per_attribute),
+                    Some(RankingRuleOutput { query: query_graph, candidates }),
+                )
+            }
+            State::AttributeStarts(query_graph, candidates_per_attribute) => {
+                let mut candidates = MultiOps::union(candidates_per_attribute.into_iter().map(
+                    |FieldCandidates { mut start_with_exact, exact_word_count }| {
+                        start_with_exact -= exact_word_count;
+                        start_with_exact
+                    },
+                ));
+                candidates &= universe;
+                (
+                    State::Empty(query_graph.clone()),
+                    Some(RankingRuleOutput { query: query_graph, candidates }),
+                )
+            }
+            State::Empty(query_graph) => (
+                State::Empty(query_graph.clone()),
+                Some(RankingRuleOutput { query: query_graph, candidates: universe.clone() }),
+            ),
+        };
+        (state, output)
     }
 }