pub mod build; pub mod cheapest_paths; pub mod edge_docids_cache; pub mod empty_paths_cache; pub mod paths_map; pub mod proximity; pub mod resolve_paths; pub mod typo; use std::ops::ControlFlow; use heed::RoTxn; use roaring::RoaringBitmap; use self::empty_paths_cache::EmptyPathsCache; use super::db_cache::DatabaseCache; use super::logger::SearchLogger; use super::{QueryGraph, QueryNode}; use crate::{Index, Result}; #[derive(Debug, Clone)] pub enum EdgeDetails { Unconditional, Data(E), } #[derive(Debug, Clone)] pub struct Edge { pub from_node: u32, pub to_node: u32, pub cost: u8, pub details: EdgeDetails, } #[derive(Debug, Clone)] pub struct EdgePointer<'graph, E> { pub index: u32, pub edge: &'graph Edge, } pub trait RankingRuleGraphTrait: Sized { /// The details of an edge connecting two query nodes. These details /// should be sufficient to compute the edge's cost and associated document ids /// in [`compute_docids`](RankingRuleGraphTrait). type EdgeDetails: Sized + Clone; type BuildVisitedFromNode; /// Return the label of the given edge details, to be used when visualising /// the ranking rule graph using GraphViz. fn graphviz_edge_details_label(edge: &Self::EdgeDetails) -> String; /// Compute the document ids associated with the given edge. fn compute_docids<'transaction>( index: &Index, txn: &'transaction RoTxn, db_cache: &mut DatabaseCache<'transaction>, edge_details: &Self::EdgeDetails, ) -> Result; /// Prepare to build the edges outgoing from `from_node`. /// /// This call is followed by zero, one or more calls to [`build_visit_to_node`](RankingRuleGraphTrait::build_visit_to_node), /// which builds the actual edges. fn build_visit_from_node<'transaction>( index: &Index, txn: &'transaction RoTxn, db_cache: &mut DatabaseCache<'transaction>, from_node: &QueryNode, ) -> Result>; /// Return the cost and details of the edges going from the previously visited node /// (with [`build_visit_from_node`](RankingRuleGraphTrait::build_visit_from_node)) to `to_node`. fn build_visit_to_node<'from_data, 'transaction: 'from_data>( index: &Index, txn: &'transaction RoTxn, db_cache: &mut DatabaseCache<'transaction>, to_node: &QueryNode, from_node_data: &'from_data Self::BuildVisitedFromNode, ) -> Result)>>; fn log_state( graph: &RankingRuleGraph, paths: &[Vec], empty_paths_cache: &EmptyPathsCache, universe: &RoaringBitmap, distances: &[Vec], cost: u64, logger: &mut dyn SearchLogger, ); } pub struct RankingRuleGraph { pub query_graph: QueryGraph, // pub edges: Vec>>>, pub all_edges: Vec>>, pub node_edges: Vec, pub successors: Vec, // TODO: to get the edges between two nodes: // 1. get node_outgoing_edges[from] // 2. get node_incoming_edges[to] // 3. take intersection betweem the two } impl Clone for RankingRuleGraph { fn clone(&self) -> Self { Self { query_graph: self.query_graph.clone(), all_edges: self.all_edges.clone(), node_edges: self.node_edges.clone(), successors: self.successors.clone(), } } } impl RankingRuleGraph { // Visit all edges between the two given nodes in order of increasing cost. pub fn visit_edges<'graph, O>( &'graph self, from: u32, to: u32, mut visit: impl FnMut(u32, &'graph Edge) -> ControlFlow, ) -> Option { let from_edges = &self.node_edges[from as usize]; for edge_idx in from_edges { let edge = self.all_edges[edge_idx as usize].as_ref().unwrap(); if edge.to_node == to { let cf = visit(edge_idx, edge); match cf { ControlFlow::Continue(_) => continue, ControlFlow::Break(o) => return Some(o), } } } None } pub fn remove_edge(&mut self, edge_index: u32) { let edge_opt = &mut self.all_edges[edge_index as usize]; let Some(edge) = &edge_opt else { return }; let (from_node, _to_node) = (edge.from_node, edge.to_node); *edge_opt = None; let from_node_edges = &mut self.node_edges[from_node as usize]; from_node_edges.remove(edge_index); let mut new_successors_from_node = RoaringBitmap::new(); for from_node_edge in from_node_edges.iter() { let Edge { to_node, .. } = &self.all_edges[from_node_edge as usize].as_ref().unwrap(); new_successors_from_node.insert(*to_node); } self.successors[from_node as usize] = new_successors_from_node; } }