mirror of
https://github.com/meilisearch/MeiliSearch
synced 2024-12-23 13:10:06 +01:00
Implement words
as a graph-based ranking rule and fix some bugs
This commit is contained in:
parent
85d96d35a8
commit
a37da36766
@ -46,7 +46,7 @@ use super::logger::SearchLogger;
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use super::query_graph::QueryNode;
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use super::ranking_rule_graph::{
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ConditionDocIdsCache, DeadEndsCache, ExactnessGraph, FidGraph, PositionGraph, ProximityGraph,
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RankingRuleGraph, RankingRuleGraphTrait, TypoGraph,
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RankingRuleGraph, RankingRuleGraphTrait, TypoGraph, WordsGraph,
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};
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use super::small_bitmap::SmallBitmap;
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use super::{QueryGraph, RankingRule, RankingRuleOutput, SearchContext};
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@ -54,6 +54,12 @@ use crate::search::new::query_term::LocatedQueryTermSubset;
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use crate::search::new::ranking_rule_graph::PathVisitor;
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use crate::{Result, TermsMatchingStrategy};
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pub type Words = GraphBasedRankingRule<WordsGraph>;
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impl GraphBasedRankingRule<WordsGraph> {
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pub fn new(terms_matching_strategy: TermsMatchingStrategy) -> Self {
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Self::new_with_id("words".to_owned(), Some(terms_matching_strategy))
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}
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}
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pub type Proximity = GraphBasedRankingRule<ProximityGraph>;
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impl GraphBasedRankingRule<ProximityGraph> {
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pub fn new(terms_matching_strategy: Option<TermsMatchingStrategy>) -> Self {
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@ -4,7 +4,6 @@ use std::io::{BufWriter, Write};
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use std::path::{Path, PathBuf};
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use std::time::Instant;
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// use rand::random;
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use roaring::RoaringBitmap;
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use crate::search::new::interner::Interned;
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@ -13,6 +12,7 @@ use crate::search::new::query_term::LocatedQueryTermSubset;
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use crate::search::new::ranking_rule_graph::{
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Edge, FidCondition, FidGraph, PositionCondition, PositionGraph, ProximityCondition,
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ProximityGraph, RankingRuleGraph, RankingRuleGraphTrait, TypoCondition, TypoGraph,
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WordsCondition, WordsGraph,
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};
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use crate::search::new::ranking_rules::BoxRankingRule;
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use crate::search::new::{QueryGraph, QueryNode, RankingRule, SearchContext, SearchLogger};
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@ -24,11 +24,12 @@ pub enum SearchEvents {
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RankingRuleSkipBucket { ranking_rule_idx: usize, bucket_len: u64 },
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RankingRuleEndIteration { ranking_rule_idx: usize, universe_len: u64 },
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ExtendResults { new: Vec<u32> },
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WordsGraph { query_graph: QueryGraph },
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ProximityGraph { graph: RankingRuleGraph<ProximityGraph> },
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ProximityPaths { paths: Vec<Vec<Interned<ProximityCondition>>> },
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TypoGraph { graph: RankingRuleGraph<TypoGraph> },
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TypoPaths { paths: Vec<Vec<Interned<TypoCondition>>> },
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WordsGraph { graph: RankingRuleGraph<WordsGraph> },
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WordsPaths { paths: Vec<Vec<Interned<WordsCondition>>> },
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FidGraph { graph: RankingRuleGraph<FidGraph> },
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FidPaths { paths: Vec<Vec<Interned<FidCondition>>> },
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PositionGraph { graph: RankingRuleGraph<PositionGraph> },
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@ -139,8 +140,11 @@ impl SearchLogger<QueryGraph> for VisualSearchLogger {
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let Some(location) = self.location.last() else { return };
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match location {
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Location::Words => {
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if let Some(query_graph) = state.downcast_ref::<QueryGraph>() {
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self.events.push(SearchEvents::WordsGraph { query_graph: query_graph.clone() });
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if let Some(graph) = state.downcast_ref::<RankingRuleGraph<WordsGraph>>() {
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self.events.push(SearchEvents::WordsGraph { graph: graph.clone() });
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}
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if let Some(paths) = state.downcast_ref::<Vec<Vec<Interned<WordsCondition>>>>() {
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self.events.push(SearchEvents::WordsPaths { paths: paths.clone() });
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}
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}
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Location::Typo => {
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@ -329,7 +333,6 @@ impl<'ctx> DetailedLoggerFinish<'ctx> {
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SearchEvents::ExtendResults { new } => {
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self.write_extend_results(new)?;
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}
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SearchEvents::WordsGraph { query_graph } => self.write_words_graph(query_graph)?,
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SearchEvents::ProximityGraph { graph } => self.write_rr_graph(&graph)?,
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SearchEvents::ProximityPaths { paths } => {
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self.write_rr_graph_paths::<ProximityGraph>(paths)?;
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@ -338,6 +341,10 @@ impl<'ctx> DetailedLoggerFinish<'ctx> {
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SearchEvents::TypoPaths { paths } => {
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self.write_rr_graph_paths::<TypoGraph>(paths)?;
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}
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SearchEvents::WordsGraph { graph } => self.write_rr_graph(&graph)?,
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SearchEvents::WordsPaths { paths } => {
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self.write_rr_graph_paths::<WordsGraph>(paths)?;
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}
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SearchEvents::FidGraph { graph } => self.write_rr_graph(&graph)?,
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SearchEvents::FidPaths { paths } => {
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self.write_rr_graph_paths::<FidGraph>(paths)?;
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@ -482,13 +489,6 @@ fill: \"#B6E2D3\"
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}
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Ok(())
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}
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fn write_words_graph(&mut self, qg: QueryGraph) -> Result<()> {
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self.make_new_file_for_internal_state_if_needed()?;
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self.write_query_graph(&qg)?;
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Ok(())
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}
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fn write_rr_graph<R: RankingRuleGraphTrait>(
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&mut self,
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graph: &RankingRuleGraph<R>,
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@ -15,11 +15,7 @@ mod resolve_query_graph;
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mod small_bitmap;
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mod exact_attribute;
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// TODO: documentation + comments
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// implementation is currently an adaptation of the previous implementation to fit with the new model
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mod sort;
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// TODO: documentation + comments
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mod words;
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#[cfg(test)]
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mod tests;
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@ -43,10 +39,10 @@ use ranking_rules::{
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use resolve_query_graph::{compute_query_graph_docids, PhraseDocIdsCache};
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use roaring::RoaringBitmap;
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use sort::Sort;
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use words::Words;
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use self::geo_sort::GeoSort;
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pub use self::geo_sort::Strategy as GeoSortStrategy;
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use self::graph_based_ranking_rule::Words;
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use self::interner::Interned;
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use crate::search::new::distinct::apply_distinct_rule;
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use crate::{AscDesc, DocumentId, Filter, Index, Member, Result, TermsMatchingStrategy, UserError};
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@ -202,6 +198,11 @@ fn get_ranking_rules_for_query_graph_search<'ctx>(
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let mut sorted_fields = HashSet::new();
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let mut geo_sorted = false;
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// Don't add the `words` ranking rule if the term matching strategy is `All`
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if matches!(terms_matching_strategy, TermsMatchingStrategy::All) {
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words = true;
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}
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let mut ranking_rules: Vec<BoxRankingRule<QueryGraph>> = vec![];
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let settings_ranking_rules = ctx.index.criteria(ctx.txn)?;
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for rr in settings_ranking_rules {
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@ -205,18 +205,12 @@ impl<G: RankingRuleGraphTrait> VisitorState<G> {
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impl<G: RankingRuleGraphTrait> RankingRuleGraph<G> {
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pub fn find_all_costs_to_end(&self) -> MappedInterner<QueryNode, Vec<u64>> {
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let mut costs_to_end = self.query_graph.nodes.map(|_| vec![]);
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let mut enqueued = SmallBitmap::new(self.query_graph.nodes.len());
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let mut node_stack = VecDeque::new();
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*costs_to_end.get_mut(self.query_graph.end_node) = vec![0];
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for prev_node in self.query_graph.nodes.get(self.query_graph.end_node).predecessors.iter() {
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node_stack.push_back(prev_node);
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enqueued.insert(prev_node);
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}
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while let Some(cur_node) = node_stack.pop_front() {
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self.traverse_breadth_first_backward(self.query_graph.end_node, |cur_node| {
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if cur_node == self.query_graph.end_node {
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*costs_to_end.get_mut(self.query_graph.end_node) = vec![0];
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return true;
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}
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let mut self_costs = Vec::<u64>::new();
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let cur_node_edges = &self.edges_of_node.get(cur_node);
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@ -232,13 +226,8 @@ impl<G: RankingRuleGraphTrait> RankingRuleGraph<G> {
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self_costs.dedup();
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*costs_to_end.get_mut(cur_node) = self_costs;
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for prev_node in self.query_graph.nodes.get(cur_node).predecessors.iter() {
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if !enqueued.contains(prev_node) {
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node_stack.push_back(prev_node);
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enqueued.insert(prev_node);
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}
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}
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}
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true
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});
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costs_to_end
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}
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@ -247,17 +236,9 @@ impl<G: RankingRuleGraphTrait> RankingRuleGraph<G> {
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node_with_removed_outgoing_conditions: Interned<QueryNode>,
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costs: &mut MappedInterner<QueryNode, Vec<u64>>,
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) {
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let mut enqueued = SmallBitmap::new(self.query_graph.nodes.len());
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let mut node_stack = VecDeque::new();
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enqueued.insert(node_with_removed_outgoing_conditions);
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node_stack.push_back(node_with_removed_outgoing_conditions);
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'main_loop: while let Some(cur_node) = node_stack.pop_front() {
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self.traverse_breadth_first_backward(node_with_removed_outgoing_conditions, |cur_node| {
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let mut costs_to_remove = FxHashSet::default();
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for c in costs.get(cur_node) {
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costs_to_remove.insert(*c);
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}
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costs_to_remove.extend(costs.get(cur_node).iter().copied());
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let cur_node_edges = &self.edges_of_node.get(cur_node);
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for edge_idx in cur_node_edges.iter() {
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@ -265,23 +246,79 @@ impl<G: RankingRuleGraphTrait> RankingRuleGraph<G> {
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for cost in costs.get(edge.dest_node).iter() {
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costs_to_remove.remove(&(*cost + edge.cost as u64));
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if costs_to_remove.is_empty() {
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continue 'main_loop;
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return false;
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}
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}
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}
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if costs_to_remove.is_empty() {
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continue 'main_loop;
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return false;
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}
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let mut new_costs = BTreeSet::from_iter(costs.get(cur_node).iter().copied());
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for c in costs_to_remove {
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new_costs.remove(&c);
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}
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*costs.get_mut(cur_node) = new_costs.into_iter().collect();
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true
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});
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}
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for prev_node in self.query_graph.nodes.get(cur_node).predecessors.iter() {
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if !enqueued.contains(prev_node) {
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node_stack.push_back(prev_node);
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enqueued.insert(prev_node);
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/// Traverse the graph backwards from the given node such that every time
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/// a node is visited, we are guaranteed that all its successors either:
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/// 1. have already been visited; OR
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/// 2. were not reachable from the given node
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pub fn traverse_breadth_first_backward(
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&self,
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from: Interned<QueryNode>,
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mut visit: impl FnMut(Interned<QueryNode>) -> bool,
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) {
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let mut reachable = SmallBitmap::for_interned_values_in(&self.query_graph.nodes);
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{
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// go backward to get the set of all reachable nodes from the given node
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// the nodes that are not reachable will be set as `visited`
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let mut stack = VecDeque::new();
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let mut enqueued = SmallBitmap::for_interned_values_in(&self.query_graph.nodes);
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enqueued.insert(from);
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stack.push_back(from);
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while let Some(n) = stack.pop_front() {
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if reachable.contains(n) {
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continue;
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}
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reachable.insert(n);
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for prev_node in self.query_graph.nodes.get(n).predecessors.iter() {
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if !enqueued.contains(prev_node) && !reachable.contains(prev_node) {
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stack.push_back(prev_node);
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enqueued.insert(prev_node);
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}
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}
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}
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};
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let mut unreachable_or_visited =
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SmallBitmap::for_interned_values_in(&self.query_graph.nodes);
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for (n, _) in self.query_graph.nodes.iter() {
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if !reachable.contains(n) {
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unreachable_or_visited.insert(n);
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}
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}
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let mut enqueued = SmallBitmap::for_interned_values_in(&self.query_graph.nodes);
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let mut stack = VecDeque::new();
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enqueued.insert(from);
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stack.push_back(from);
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while let Some(cur_node) = stack.pop_front() {
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if !self.query_graph.nodes.get(cur_node).successors.is_subset(&unreachable_or_visited) {
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stack.push_back(cur_node);
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continue;
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}
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unreachable_or_visited.insert(cur_node);
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if visit(cur_node) {
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for prev_node in self.query_graph.nodes.get(cur_node).predecessors.iter() {
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if !enqueued.contains(prev_node) && !unreachable_or_visited.contains(prev_node)
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{
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stack.push_back(prev_node);
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enqueued.insert(prev_node);
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}
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}
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}
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}
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@ -20,6 +20,8 @@ mod position;
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mod proximity;
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/// Implementation of the `typo` ranking rule
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mod typo;
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/// Implementation of the `words` ranking rule
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mod words;
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use std::collections::BTreeSet;
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use std::hash::Hash;
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@ -33,6 +35,7 @@ pub use position::{PositionCondition, PositionGraph};
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pub use proximity::{ProximityCondition, ProximityGraph};
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use roaring::RoaringBitmap;
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pub use typo::{TypoCondition, TypoGraph};
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pub use words::{WordsCondition, WordsGraph};
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use super::interner::{DedupInterner, FixedSizeInterner, Interned, MappedInterner};
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use super::query_term::LocatedQueryTermSubset;
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49
milli/src/search/new/ranking_rule_graph/words/mod.rs
Normal file
49
milli/src/search/new/ranking_rule_graph/words/mod.rs
Normal file
@ -0,0 +1,49 @@
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use roaring::RoaringBitmap;
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use super::{ComputedCondition, RankingRuleGraphTrait};
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use crate::search::new::interner::{DedupInterner, Interned};
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use crate::search::new::query_term::LocatedQueryTermSubset;
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use crate::search::new::resolve_query_graph::compute_query_term_subset_docids;
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use crate::search::new::SearchContext;
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use crate::Result;
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#[derive(Clone, PartialEq, Eq, Hash)]
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pub struct WordsCondition {
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term: LocatedQueryTermSubset,
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}
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pub enum WordsGraph {}
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impl RankingRuleGraphTrait for WordsGraph {
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type Condition = WordsCondition;
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fn resolve_condition(
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ctx: &mut SearchContext,
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condition: &Self::Condition,
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universe: &RoaringBitmap,
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) -> Result<ComputedCondition> {
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let WordsCondition { term, .. } = condition;
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// maybe compute_query_term_subset_docids should accept a universe as argument
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let mut docids = compute_query_term_subset_docids(ctx, &term.term_subset)?;
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docids &= universe;
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Ok(ComputedCondition {
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docids,
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universe_len: universe.len(),
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start_term_subset: None,
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end_term_subset: term.clone(),
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})
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}
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fn build_edges(
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_ctx: &mut SearchContext,
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conditions_interner: &mut DedupInterner<Self::Condition>,
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_from: Option<&LocatedQueryTermSubset>,
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to_term: &LocatedQueryTermSubset,
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) -> Result<Vec<(u32, Interned<Self::Condition>)>> {
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Ok(vec![(
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to_term.term_ids.len() as u32,
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conditions_interner.insert(WordsCondition { term: to_term.clone() }),
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)])
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}
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}
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@ -1,87 +0,0 @@
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use roaring::RoaringBitmap;
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use super::logger::SearchLogger;
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use super::query_graph::QueryNode;
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use super::resolve_query_graph::compute_query_graph_docids;
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use super::small_bitmap::SmallBitmap;
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use super::{QueryGraph, RankingRule, RankingRuleOutput, SearchContext};
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use crate::{Result, TermsMatchingStrategy};
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pub struct Words {
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exhausted: bool, // TODO: remove
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query_graph: Option<QueryGraph>,
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nodes_to_remove: Vec<SmallBitmap<QueryNode>>,
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terms_matching_strategy: TermsMatchingStrategy,
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}
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impl Words {
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pub fn new(terms_matching_strategy: TermsMatchingStrategy) -> Self {
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Self {
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exhausted: true,
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query_graph: None,
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nodes_to_remove: vec![],
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terms_matching_strategy,
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}
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}
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}
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impl<'ctx> RankingRule<'ctx, QueryGraph> for Words {
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fn id(&self) -> String {
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"words".to_owned()
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}
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fn start_iteration(
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&mut self,
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ctx: &mut SearchContext<'ctx>,
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_logger: &mut dyn SearchLogger<QueryGraph>,
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_universe: &RoaringBitmap,
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parent_query_graph: &QueryGraph,
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) -> Result<()> {
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self.exhausted = false;
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self.query_graph = Some(parent_query_graph.clone());
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self.nodes_to_remove = match self.terms_matching_strategy {
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TermsMatchingStrategy::Last => {
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let mut ns = parent_query_graph.removal_order_for_terms_matching_strategy_last(ctx);
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ns.reverse();
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ns
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}
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TermsMatchingStrategy::All => {
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vec![]
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}
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};
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Ok(())
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}
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fn next_bucket(
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&mut self,
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ctx: &mut SearchContext<'ctx>,
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logger: &mut dyn SearchLogger<QueryGraph>,
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universe: &RoaringBitmap,
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) -> Result<Option<RankingRuleOutput<QueryGraph>>> {
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if self.exhausted {
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return Ok(None);
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}
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let Some(query_graph) = &mut self.query_graph else { panic!() };
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logger.log_internal_state(query_graph);
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let this_bucket = compute_query_graph_docids(ctx, query_graph, universe)?;
|
||||
|
||||
let child_query_graph = query_graph.clone();
|
||||
|
||||
if self.nodes_to_remove.is_empty() {
|
||||
self.exhausted = true;
|
||||
} else {
|
||||
let nodes_to_remove = self.nodes_to_remove.pop().unwrap();
|
||||
query_graph.remove_nodes_keep_edges(&nodes_to_remove.iter().collect::<Vec<_>>());
|
||||
}
|
||||
Ok(Some(RankingRuleOutput { query: child_query_graph, candidates: this_bucket }))
|
||||
}
|
||||
|
||||
fn end_iteration(
|
||||
&mut self,
|
||||
_ctx: &mut SearchContext<'ctx>,
|
||||
_logger: &mut dyn SearchLogger<QueryGraph>,
|
||||
) {
|
||||
self.exhausted = true;
|
||||
self.nodes_to_remove = vec![];
|
||||
self.query_graph = None;
|
||||
}
|
||||
}
|
Loading…
x
Reference in New Issue
Block a user