mirror of
https://github.com/meilisearch/MeiliSearch
synced 2024-11-24 13:54:26 +01:00
234 lines
9.3 KiB
Rust
234 lines
9.3 KiB
Rust
use roaring::RoaringBitmap;
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use super::logger::SearchLogger;
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use super::{QueryGraph, SearchContext};
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// use crate::search::new::sort::Sort;
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use crate::search::new::distinct::{apply_distinct_rule, DistinctOutput};
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use crate::Result;
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/// An internal trait implemented by only [`PlaceholderQuery`] and [`QueryGraph`]
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pub trait RankingRuleQueryTrait: Sized + Clone + 'static {}
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/// A type describing a placeholder search
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#[derive(Clone)]
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pub struct PlaceholderQuery;
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impl RankingRuleQueryTrait for PlaceholderQuery {}
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impl RankingRuleQueryTrait for QueryGraph {}
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/// A trait that must be implemented by all ranking rules.
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///
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/// It is generic over `'ctx`, the lifetime of the search context
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/// (i.e. the read transaction and the cache) and over `Query`, which
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/// can be either [`PlaceholderQuery`] or [`QueryGraph`].
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pub trait RankingRule<'ctx, Query: RankingRuleQueryTrait> {
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fn id(&self) -> String;
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/// Prepare the ranking rule such that it can start iterating over its
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/// buckets using [`next_bucket`](RankingRule::next_bucket).
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///
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/// The given universe is the universe that will be given to [`next_bucket`](RankingRule::next_bucket).
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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<Query>,
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universe: &RoaringBitmap,
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query: &Query,
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) -> Result<()>;
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/// Return the next bucket of this ranking rule.
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///
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/// The returned candidates MUST be a subset of the given universe.
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///
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/// The universe given as argument is either:
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/// - a subset of the universe given to the previous call to [`next_bucket`](RankingRule::next_bucket); OR
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/// - the universe given to [`start_iteration`](RankingRule::start_iteration)
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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<Query>,
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universe: &RoaringBitmap,
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) -> Result<Option<RankingRuleOutput<Query>>>;
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/// Finish iterating over the buckets, which yields control to the parent ranking rule
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/// The next call to this ranking rule, if any, will be [`start_iteration`](RankingRule::start_iteration).
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fn end_iteration(
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&mut self,
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ctx: &mut SearchContext<'ctx>,
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logger: &mut dyn SearchLogger<Query>,
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);
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}
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/// Output of a ranking rule, consisting of the query to be used
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/// by the child ranking rule and a set of document ids.
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#[derive(Debug)]
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pub struct RankingRuleOutput<Q> {
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/// The query corresponding to the current bucket for the child ranking rule
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pub query: Q,
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/// The allowed candidates for the child ranking rule
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pub candidates: RoaringBitmap,
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}
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pub fn bucket_sort<'ctx, Q: RankingRuleQueryTrait>(
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ctx: &mut SearchContext<'ctx>,
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mut ranking_rules: Vec<Box<dyn RankingRule<'ctx, Q>>>,
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query: &Q,
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universe: &RoaringBitmap,
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from: usize,
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length: usize,
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logger: &mut dyn SearchLogger<Q>,
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) -> Result<Vec<u32>> {
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logger.initial_query(query);
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logger.ranking_rules(&ranking_rules);
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logger.initial_universe(universe);
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let distinct_fid = if let Some(field) = ctx.index.distinct_field(ctx.txn)? {
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ctx.index.fields_ids_map(ctx.txn)?.id(field)
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} else {
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None
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};
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if universe.len() < from as u64 {
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return Ok(vec![]);
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}
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let ranking_rules_len = ranking_rules.len();
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logger.start_iteration_ranking_rule(0, ranking_rules[0].as_ref(), query, universe);
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ranking_rules[0].start_iteration(ctx, logger, universe, query)?;
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let mut ranking_rule_universes: Vec<RoaringBitmap> =
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vec![RoaringBitmap::default(); ranking_rules_len];
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ranking_rule_universes[0] = universe.clone();
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let mut cur_ranking_rule_index = 0;
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/// Finish iterating over the current ranking rule, yielding
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/// control to the parent (or finishing the search if not possible).
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/// Update the candidates accordingly and inform the logger.
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macro_rules! back {
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() => {
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assert!(ranking_rule_universes[cur_ranking_rule_index].is_empty());
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logger.end_iteration_ranking_rule(
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cur_ranking_rule_index,
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ranking_rules[cur_ranking_rule_index].as_ref(),
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&ranking_rule_universes[cur_ranking_rule_index],
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);
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ranking_rule_universes[cur_ranking_rule_index].clear();
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ranking_rules[cur_ranking_rule_index].end_iteration(ctx, logger);
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if cur_ranking_rule_index == 0 {
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break;
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} else {
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cur_ranking_rule_index -= 1;
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}
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};
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}
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let mut results = vec![];
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let mut cur_offset = 0usize;
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/// Add the candidates to the results. Take `distinct`, `from`, `limit`, and `cur_offset`
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/// into account and inform the logger.
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macro_rules! maybe_add_to_results {
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($candidates:expr) => {
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// First apply the distinct rule on the candidates, reducing the universes if necessary
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let candidates = if let Some(distinct_fid) = distinct_fid {
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let DistinctOutput { remaining, excluded } = apply_distinct_rule(ctx, distinct_fid, $candidates)?;
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for universe in ranking_rule_universes.iter_mut() {
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*universe -= &excluded;
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}
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remaining
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} else {
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$candidates.clone()
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};
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let len = candidates.len();
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// if the candidates are empty, there is nothing to do;
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if !candidates.is_empty() {
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// if we still haven't reached the first document to return
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if cur_offset < from {
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// and if no document from this bucket can be returned
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if cur_offset + (candidates.len() as usize) < from {
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// then just skip the bucket
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logger.skip_bucket_ranking_rule(
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cur_ranking_rule_index,
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ranking_rules[cur_ranking_rule_index].as_ref(),
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&candidates,
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);
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} else {
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// otherwise, skip some of the documents and add some of the rest, in order of ids
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let all_candidates = candidates.iter().collect::<Vec<_>>();
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let (skipped_candidates, candidates) =
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all_candidates.split_at(from - cur_offset);
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logger.skip_bucket_ranking_rule(
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cur_ranking_rule_index,
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ranking_rules[cur_ranking_rule_index].as_ref(),
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&skipped_candidates.into_iter().collect(),
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);
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let candidates = candidates
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.iter()
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.take(length - results.len())
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.copied()
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.collect::<Vec<_>>();
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logger.add_to_results(&candidates);
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results.extend(&candidates);
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}
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} else {
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// if we have passed the offset already, add some of the documents (up to the limit)
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let candidates =
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candidates.iter().take(length - results.len()).collect::<Vec<u32>>();
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logger.add_to_results(&candidates);
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results.extend(&candidates);
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}
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}
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cur_offset += len as usize;
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};
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}
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while results.len() < length {
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// The universe for this bucket is zero or one element, so we don't need to sort
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// anything, just extend the results and go back to the parent ranking rule.
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if ranking_rule_universes[cur_ranking_rule_index].len() <= 1 {
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maybe_add_to_results!(&ranking_rule_universes[cur_ranking_rule_index]);
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back!();
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continue;
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}
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let Some(next_bucket) = ranking_rules[cur_ranking_rule_index].next_bucket(ctx, logger, &ranking_rule_universes[cur_ranking_rule_index])? else {
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back!();
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continue;
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};
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logger.next_bucket_ranking_rule(
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cur_ranking_rule_index,
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ranking_rules[cur_ranking_rule_index].as_ref(),
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&ranking_rule_universes[cur_ranking_rule_index],
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&next_bucket.candidates,
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);
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assert!(ranking_rule_universes[cur_ranking_rule_index].is_superset(&next_bucket.candidates));
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ranking_rule_universes[cur_ranking_rule_index] -= &next_bucket.candidates;
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if cur_ranking_rule_index == ranking_rules_len - 1
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|| next_bucket.candidates.len() <= 1
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|| cur_offset + (next_bucket.candidates.len() as usize) < from
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{
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maybe_add_to_results!(&next_bucket.candidates);
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continue;
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}
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cur_ranking_rule_index += 1;
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ranking_rule_universes[cur_ranking_rule_index] = next_bucket.candidates.clone();
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logger.start_iteration_ranking_rule(
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cur_ranking_rule_index,
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ranking_rules[cur_ranking_rule_index].as_ref(),
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&next_bucket.query,
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&ranking_rule_universes[cur_ranking_rule_index],
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);
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ranking_rules[cur_ranking_rule_index].start_iteration(
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ctx,
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logger,
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&next_bucket.candidates,
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&next_bucket.query,
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)?;
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}
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Ok(results)
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}
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