1use std::collections::{HashMap, HashSet};
4use std::path::Path;
5
6use mentedb_core::MemoryNode;
7use mentedb_core::error::MenteResult;
8use mentedb_core::types::{MemoryId, Timestamp};
9
10use crate::bitmap::BitmapIndex;
11use crate::bm25::Bm25Index;
12use crate::hnsw::{HnswConfig, HnswIndex};
13use crate::salience::SalienceIndex;
14use crate::temporal::TemporalIndex;
15
16#[derive(Default)]
18pub struct IndexManagerConfig {
19 pub hnsw: HnswConfig,
21}
22
23pub struct IndexManager {
25 pub hnsw: HnswIndex,
27 pub bm25: Bm25Index,
29 pub bitmap: BitmapIndex,
31 pub temporal: TemporalIndex,
33 pub salience: SalienceIndex,
35}
36
37impl IndexManager {
38 pub fn new(config: IndexManagerConfig) -> Self {
40 Self {
41 hnsw: HnswIndex::new(config.hnsw),
42 bm25: Bm25Index::new(),
43 bitmap: BitmapIndex::new(),
44 temporal: TemporalIndex::new(),
45 salience: SalienceIndex::new(),
46 }
47 }
48
49 pub fn save(&self, dir: &Path) -> MenteResult<()> {
51 std::fs::create_dir_all(dir)?;
52 self.hnsw.save(&dir.join("hnsw.bin"))?;
53 self.bm25.save(&dir.join("bm25.bin"))?;
54 self.bitmap.save(&dir.join("bitmap.bin"))?;
55 self.temporal.save(&dir.join("temporal.bin"))?;
56 self.salience.save(&dir.join("salience.bin"))?;
57 Ok(())
58 }
59
60 pub fn load(dir: &Path) -> MenteResult<Self> {
62 let hnsw_path = Self::resolve_path(dir, "hnsw");
63 let hnsw = HnswIndex::load(&hnsw_path, HnswConfig::default().ef_search)?;
64
65 let bm25_bin = dir.join("bm25.bin");
66 let bm25_json = dir.join("bm25.json");
67 let bm25 = if bm25_bin.exists() {
68 Bm25Index::load(&bm25_bin)?
69 } else if bm25_json.exists() {
70 Bm25Index::load(&bm25_json)?
71 } else {
72 Bm25Index::new()
73 };
74
75 let bitmap = BitmapIndex::load(&Self::resolve_path(dir, "bitmap"))?;
76 let temporal = TemporalIndex::load(&Self::resolve_path(dir, "temporal"))?;
77 let salience = SalienceIndex::load(&Self::resolve_path(dir, "salience"))?;
78 Ok(Self {
79 hnsw,
80 bm25,
81 bitmap,
82 temporal,
83 salience,
84 })
85 }
86
87 fn resolve_path(dir: &Path, name: &str) -> std::path::PathBuf {
89 let bin = dir.join(format!("{name}.bin"));
90 if bin.exists() {
91 bin
92 } else {
93 dir.join(format!("{name}.json"))
94 }
95 }
96
97 pub fn index_memory(&self, node: &MemoryNode) {
99 if !node.embedding.is_empty() {
101 let _ = self.hnsw.insert(node.id, &node.embedding);
102 }
103
104 if !node.content.is_empty() {
106 self.bm25.insert(node.id, &node.content);
107 }
108
109 for tag in &node.tags {
111 self.bitmap.add_tag(node.id, tag);
112 }
113
114 self.temporal.insert(node.id, node.created_at);
116
117 self.salience.insert(node.id, node.salience);
119 }
120
121 pub fn contains_vector(&self, id: MemoryId) -> bool {
123 self.hnsw.contains(id)
124 }
125
126 pub fn vector_ids(&self) -> Vec<MemoryId> {
128 self.hnsw.ids()
129 }
130
131 pub fn remove_vector_only(&self, id: MemoryId) {
134 let _ = self.hnsw.remove(id);
135 self.bm25.remove(id);
136 }
137
138 pub fn remove_memory(&self, id: MemoryId, node: &MemoryNode) {
140 let _ = self.hnsw.remove(id);
141 self.bm25.remove(id);
142 self.bitmap.remove_all(id);
143 self.temporal.remove(id, node.created_at);
144 self.salience.remove(id, node.salience);
145 }
146
147 pub fn hybrid_search(
158 &self,
159 query_embedding: &[f32],
160 tags: Option<&[&str]>,
161 time_range: Option<(Timestamp, Timestamp)>,
162 k: usize,
163 ) -> Vec<(MemoryId, f32)> {
164 self.hybrid_search_with_query(query_embedding, None, tags, time_range, k)
165 }
166
167 pub fn hybrid_search_with_query(
172 &self,
173 query_embedding: &[f32],
174 query_text: Option<&str>,
175 tags: Option<&[&str]>,
176 time_range: Option<(Timestamp, Timestamp)>,
177 k: usize,
178 ) -> Vec<(MemoryId, f32)> {
179 self.hybrid_search_with_query_mode(query_embedding, query_text, tags, false, time_range, k)
180 }
181
182 pub fn hybrid_search_with_query_mode(
184 &self,
185 query_embedding: &[f32],
186 query_text: Option<&str>,
187 tags: Option<&[&str]>,
188 tags_or: bool,
189 time_range: Option<(Timestamp, Timestamp)>,
190 k: usize,
191 ) -> Vec<(MemoryId, f32)> {
192 if k == 0 {
193 return Vec::new();
194 }
195
196 let tag_filter: Option<HashSet<MemoryId>> = tags.map(|t| {
198 if t.is_empty() {
199 HashSet::new()
200 } else if tags_or {
201 self.bitmap.query_tags_or(t).into_iter().collect()
202 } else {
203 self.bitmap.query_tags_and(t).into_iter().collect()
204 }
205 });
206
207 let time_filter: Option<HashSet<MemoryId>> =
209 time_range.map(|(start, end)| self.temporal.range(start, end).into_iter().collect());
210
211 let candidate_set: Option<HashSet<MemoryId>> = match (&tag_filter, &time_filter) {
213 (Some(tf), Some(trf)) => Some(tf.intersection(trf).copied().collect()),
214 (Some(tf), None) => Some(tf.clone()),
215 (None, Some(trf)) => Some(trf.clone()),
216 (None, None) => None,
217 };
218
219 let use_prefilter = candidate_set.as_ref().is_some_and(|cs| {
223 let cs_len = cs.len();
224 cs_len > 0 && cs_len <= 500_000
227 });
228
229 let fetch_k = k * 4;
230 let rrf_k: f32 = 60.0;
231
232 let (vector_candidates, bm25_candidates) = if use_prefilter {
233 let cs = candidate_set.as_ref().unwrap();
234 let vc = self.hnsw.search_filtered(query_embedding, cs, fetch_k);
235 let bc = match query_text {
236 Some(qt) if !self.bm25.is_empty() => self.bm25.search_filtered(qt, fetch_k, cs),
237 _ => Vec::new(),
238 };
239 (vc, bc)
240 } else {
241 let vc = self.hnsw.search(query_embedding, fetch_k);
242 let bc = match query_text {
243 Some(qt) if !self.bm25.is_empty() => self.bm25.search(qt, fetch_k),
244 _ => Vec::new(),
245 };
246 (vc, bc)
247 };
248
249 if vector_candidates.is_empty() && bm25_candidates.is_empty() {
250 return Vec::new();
251 }
252
253 let mut rrf_scores: HashMap<MemoryId, f32> = HashMap::new();
255
256 for (rank, (id, _)) in vector_candidates.iter().enumerate() {
257 *rrf_scores.entry(*id).or_insert(0.0) += 1.0 / (rrf_k + rank as f32);
258 }
259 for (rank, (id, _)) in bm25_candidates.iter().enumerate() {
260 *rrf_scores.entry(*id).or_insert(0.0) += 1.0 / (rrf_k + rank as f32);
261 }
262
263 let mut scored: Vec<(MemoryId, f32)> = rrf_scores
265 .into_iter()
266 .filter(|(id, _)| {
267 if !use_prefilter {
268 if let Some(ref tf) = tag_filter
269 && !tf.contains(id)
270 {
271 return false;
272 }
273 if let Some(ref trf) = time_filter
274 && !trf.contains(id)
275 {
276 return false;
277 }
278 }
279 true
280 })
281 .map(|(id, rrf_score)| {
282 let salience = self.salience.get_salience(id).unwrap_or(0.5);
283 let recency = 0.5f32;
284
285 let combined = rrf_score * 0.7 + salience * 0.05 + recency * 0.02;
286 (id, combined)
287 })
288 .collect();
289
290 scored.sort_unstable_by(|a, b| b.1.partial_cmp(&a.1).unwrap_or(std::cmp::Ordering::Equal));
291 scored.truncate(k);
292 scored
293 }
294}
295
296impl Default for IndexManager {
297 fn default() -> Self {
298 Self::new(IndexManagerConfig::default())
299 }
300}
301
302#[cfg(test)]
303mod tests {
304 use super::*;
305 use mentedb_core::memory::MemoryType;
306 use mentedb_core::types::AgentId;
307
308 fn make_node(
309 embedding: Vec<f32>,
310 tags: Vec<String>,
311 salience: f32,
312 created_at: u64,
313 ) -> MemoryNode {
314 let mut node = MemoryNode::new(
315 AgentId::new(),
316 MemoryType::Episodic,
317 "test".into(),
318 embedding,
319 );
320 node.tags = tags;
321 node.salience = salience;
322 node.created_at = created_at;
323 node
324 }
325
326 #[test]
327 fn test_index_and_search() {
328 let mgr = IndexManager::default();
329 let node = make_node(vec![1.0, 0.0, 0.0, 0.0], vec!["test".into()], 0.8, 1000);
330 mgr.index_memory(&node);
331
332 let results = mgr.hybrid_search(&[1.0, 0.0, 0.0, 0.0], None, None, 1);
333 assert_eq!(results.len(), 1);
334 assert_eq!(results[0].0, node.id);
335 }
336
337 #[test]
338 fn test_tag_filter() {
339 let mgr = IndexManager::default();
340 let a = make_node(vec![1.0, 0.0, 0.0, 0.0], vec!["alpha".into()], 0.8, 1000);
341 let b = make_node(vec![0.9, 0.1, 0.0, 0.0], vec!["beta".into()], 0.8, 1000);
342 mgr.index_memory(&a);
343 mgr.index_memory(&b);
344
345 let results = mgr.hybrid_search(&[1.0, 0.0, 0.0, 0.0], Some(&["alpha"]), None, 10);
346 assert_eq!(results.len(), 1);
347 assert_eq!(results[0].0, a.id);
348 }
349
350 #[test]
351 fn test_time_filter() {
352 let mgr = IndexManager::default();
353 let a = make_node(vec![1.0, 0.0, 0.0, 0.0], vec![], 0.8, 100);
354 let b = make_node(vec![0.9, 0.1, 0.0, 0.0], vec![], 0.8, 500);
355 mgr.index_memory(&a);
356 mgr.index_memory(&b);
357
358 let results = mgr.hybrid_search(&[1.0, 0.0, 0.0, 0.0], None, Some((400, 600)), 10);
359 assert_eq!(results.len(), 1);
360 assert_eq!(results[0].0, b.id);
361 }
362
363 #[test]
364 fn test_remove_memory() {
365 let mgr = IndexManager::default();
366 let node = make_node(vec![1.0, 0.0, 0.0, 0.0], vec!["t".into()], 0.5, 100);
367 let id = node.id;
368 mgr.index_memory(&node);
369 mgr.remove_memory(id, &node);
370
371 let results = mgr.hybrid_search(&[1.0, 0.0, 0.0, 0.0], None, None, 10);
372 assert!(results.is_empty());
373 }
374
375 #[test]
376 fn test_empty_search() {
377 let mgr = IndexManager::default();
378 let results = mgr.hybrid_search(&[1.0, 0.0], None, None, 5);
379 assert!(results.is_empty());
380 }
381}