MeiliSearch/milli/src/search/new/ranking_rule_graph/build.rs

use std::collections::HashSet;

use super::{Edge, RankingRuleGraph, RankingRuleGraphTrait};
use crate::search::new::interner::{DedupInterner, Interner};
use crate::search::new::small_bitmap::SmallBitmap;
use crate::search::new::{QueryGraph, SearchContext};
use crate::Result;

impl<G: RankingRuleGraphTrait> RankingRuleGraph<G> {
    // TODO: here, the docids of all the edges should already be computed!
    // an edge condition would then be reduced to a (ptr to) a roaring bitmap?
    // we could build fewer of them by directly comparing them with the universe
    // (e.g. for each word pairs?) with `deserialize_within_universe` maybe
    //

    /// Build the ranking rule graph from the given query graph
    pub fn build(ctx: &mut SearchContext, query_graph: QueryGraph) -> Result<Self> {
        let QueryGraph { nodes: graph_nodes, .. } = &query_graph;

        let mut conditions_interner = DedupInterner::default();

        let mut edges_store = Interner::default();
        let mut edges_of_node = query_graph.nodes.map(|_| HashSet::new());

        for (source_id, source_node) in graph_nodes.iter() {
            let new_edges = edges_of_node.get_mut(source_id);

            for dest_idx in source_node.successors.iter() {
                let dest_node = graph_nodes.get(dest_idx);
                let edges = G::build_edges(ctx, &mut conditions_interner, source_node, dest_node)?;
                if edges.is_empty() {
                    continue;
                }

                for (cost, condition) in edges {
                    let new_edge_id = edges_store.push(Some(Edge {
                        source_node: source_id,
                        dest_node: dest_idx,
                        cost,
                        condition,
                    }));
                    new_edges.insert(new_edge_id);
                }
            }
        }
        let edges_store = edges_store.freeze();
        let edges_of_node =
            edges_of_node.map(|edges| SmallBitmap::from_iter(edges.iter().copied(), &edges_store));

        Ok(RankingRuleGraph {
            query_graph,
            edges_store,
            edges_of_node,
            conditions_interner: conditions_interner.freeze(),
        })
    }
}
Apply a few optimisations for graph-based ranking rules 2023-03-07 14:42:58 +01:00			`use std::collections::HashSet;`

Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00			`use super::{Edge, RankingRuleGraph, RankingRuleGraphTrait};`
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`use crate::search::new::interner::{DedupInterner, Interner};`
Cargo fmt 2023-03-08 09:55:53 +01:00			`use crate::search::new::small_bitmap::SmallBitmap;`
			`use crate::search::new::{QueryGraph, SearchContext};`
Intern all strings and phrases in the search logic 2023-03-06 19:21:55 +01:00			`use crate::Result;`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00
			`impl<G: RankingRuleGraphTrait> RankingRuleGraph<G> {`
Rename lifetime 2023-03-13 14:03:48 +01:00			`// TODO: here, the docids of all the edges should already be computed!`
			`// an edge condition would then be reduced to a (ptr to) a roaring bitmap?`
			`// we could build fewer of them by directly comparing them with the universe`
			// (e.g. for each word pairs?) with `deserialize_within_universe` maybe
			`//`

Continue documenting and cleaning up the code 2023-03-08 15:04:25 +01:00			`/// Build the ranking rule graph from the given query graph`
Intern all strings and phrases in the search logic 2023-03-06 19:21:55 +01:00			`pub fn build(ctx: &mut SearchContext, query_graph: QueryGraph) -> Result<Self> {`
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`let QueryGraph { nodes: graph_nodes, .. } = &query_graph;`
Apply a few optimisations for graph-based ranking rules 2023-03-07 14:42:58 +01:00
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`let mut conditions_interner = DedupInterner::default();`
Intern ranking rule graph edge conditions as well 2023-03-13 12:46:32 +01:00
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`let mut edges_store = Interner::default();`
			`let mut edges_of_node = query_graph.nodes.map(\|_\| HashSet::new());`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`for (source_id, source_node) in graph_nodes.iter() {`
			`let new_edges = edges_of_node.get_mut(source_id);`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`for dest_idx in source_node.successors.iter() {`
			`let dest_node = graph_nodes.get(dest_idx);`
Merge Phrase and WordDerivations into one structure 2023-03-14 10:54:55 +01:00			`let edges = G::build_edges(ctx, &mut conditions_interner, source_node, dest_node)?;`
Add some documentation and use bitmaps instead of hashmaps when possible 2023-02-21 12:33:32 +01:00			`if edges.is_empty() {`
			`continue;`
			`}`
Continue documenting and cleaning up the code 2023-03-08 15:04:25 +01:00
Intern ranking rule graph edge conditions as well 2023-03-13 12:46:32 +01:00			`for (cost, condition) in edges {`
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`let new_edge_id = edges_store.push(Some(Edge {`
			`source_node: source_id,`
Merge Phrase and WordDerivations into one structure 2023-03-14 10:54:55 +01:00			`dest_node: dest_idx,`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00			`cost,`
Intern ranking rule graph edge conditions as well 2023-03-13 12:46:32 +01:00			`condition,`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00			`}));`
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`new_edges.insert(new_edge_id);`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00			`}`
			`}`
			`}`
Refactor of the Interner 2023-03-14 16:37:47 +01:00			`let edges_store = edges_store.freeze();`
			`let edges_of_node =`
			`edges_of_node.map(\|edges\| SmallBitmap::from_iter(edges.iter().copied(), &edges_store));`

			`Ok(RankingRuleGraph {`
			`query_graph,`
			`edges_store,`
			`edges_of_node,`
			`conditions_interner: conditions_interner.freeze(),`
			`})`
Introduce a structure to implement ranking rules with graph algorithms 2023-02-21 09:46:00 +01:00			`}`
			`}`