1use std::collections::HashMap;
7use std::fmt;
8use std::sync::Arc;
9
10use crate::storage::schema::Value;
11
12pub const FIRST_USER_ENTITY_ID: u64 = 1024;
24
25#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
27pub struct EntityId(pub u64);
28
29impl EntityId {
30 pub fn new(id: u64) -> Self {
32 Self(id)
33 }
34
35 pub fn raw(&self) -> u64 {
37 self.0
38 }
39}
40
41impl fmt::Display for EntityId {
42 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
43 write!(f, "e{}", self.0)
44 }
45}
46
47impl From<u64> for EntityId {
48 fn from(id: u64) -> Self {
49 Self(id)
50 }
51}
52
53#[derive(Debug, Clone, PartialEq, Eq, Hash)]
55pub enum EntityKind {
56 TableRow { table: Arc<str>, row_id: u64 },
58 GraphNode(Box<GraphNodeKind>),
60 GraphEdge(Box<GraphEdgeKind>),
62 Vector { collection: String },
64 TimeSeriesPoint(Box<TimeSeriesPointKind>),
66 QueueMessage { queue: String, position: u64 },
68}
69
70#[derive(Debug, Clone, PartialEq, Eq, Hash)]
71pub struct GraphNodeKind {
72 pub label: String,
73 pub node_type: String,
74}
75
76#[derive(Debug, Clone, PartialEq, Eq, Hash)]
77pub struct GraphEdgeKind {
78 pub label: String,
79 pub from_node: String,
80 pub to_node: String,
81 pub weight: u32,
82}
83
84#[derive(Debug, Clone, PartialEq, Eq, Hash)]
85pub struct TimeSeriesPointKind {
86 pub series: String,
87 pub metric: String,
88}
89
90impl EntityKind {
91 pub fn storage_type(&self) -> &'static str {
93 match self {
94 Self::TableRow { .. } => "table",
95 Self::GraphNode(_) => "graph_node",
96 Self::GraphEdge(_) => "graph_edge",
97 Self::Vector { .. } => "vector",
98 Self::TimeSeriesPoint(_) => "timeseries",
99 Self::QueueMessage { .. } => "queue",
100 }
101 }
102
103 pub fn collection(&self) -> &str {
105 match self {
106 Self::TableRow { table, .. } => table,
107 Self::GraphNode(n) => &n.label,
108 Self::GraphEdge(e) => &e.label,
109 Self::Vector { collection } => collection,
110 Self::TimeSeriesPoint(ts) => &ts.series,
111 Self::QueueMessage { queue, .. } => queue,
112 }
113 }
114}
115
116#[derive(Debug, Clone)]
118pub enum EntityData {
119 Row(RowData),
121 Node(NodeData),
123 Edge(EdgeData),
125 Vector(VectorData),
127 TimeSeries(TimeSeriesData),
129 QueueMessage(QueueMessageData),
131}
132
133impl EntityData {
134 pub fn is_row(&self) -> bool {
136 matches!(self, Self::Row(_))
137 }
138
139 pub fn is_node(&self) -> bool {
141 matches!(self, Self::Node(_))
142 }
143
144 pub fn is_edge(&self) -> bool {
146 matches!(self, Self::Edge(_))
147 }
148
149 pub fn is_vector(&self) -> bool {
151 matches!(self, Self::Vector(_))
152 }
153
154 pub fn as_row(&self) -> Option<&RowData> {
156 match self {
157 Self::Row(r) => Some(r),
158 _ => None,
159 }
160 }
161
162 pub fn as_node(&self) -> Option<&NodeData> {
164 match self {
165 Self::Node(n) => Some(n),
166 _ => None,
167 }
168 }
169
170 pub fn as_edge(&self) -> Option<&EdgeData> {
172 match self {
173 Self::Edge(e) => Some(e),
174 _ => None,
175 }
176 }
177
178 pub fn as_vector(&self) -> Option<&VectorData> {
180 match self {
181 Self::Vector(v) => Some(v),
182 _ => None,
183 }
184 }
185}
186
187#[derive(Debug, Clone)]
189pub struct RowData {
190 pub columns: Vec<Value>,
192 pub named: Option<HashMap<String, Value>>,
194 pub schema: Option<std::sync::Arc<Vec<String>>>,
198}
199
200impl RowData {
201 pub fn new(columns: Vec<Value>) -> Self {
203 Self {
204 columns,
205 named: None,
206 schema: None,
207 }
208 }
209
210 pub fn with_names(columns: Vec<Value>, names: Vec<String>) -> Self {
212 let named: HashMap<String, Value> =
213 names.into_iter().zip(columns.iter().cloned()).collect();
214 Self {
215 columns,
216 named: Some(named),
217 schema: None,
218 }
219 }
220
221 pub fn get_field(&self, name: &str) -> Option<&Value> {
223 if let Some(ref named) = self.named {
225 return named.get(name);
226 }
227 if let Some(ref schema) = self.schema {
229 if let Some(idx) = schema.iter().position(|s| s == name) {
230 return self.columns.get(idx);
231 }
232 }
233 None
234 }
235
236 pub fn iter_fields(&self) -> Box<dyn Iterator<Item = (&str, &Value)> + '_> {
238 if let Some(ref named) = self.named {
239 Box::new(named.iter().map(|(k, v)| (k.as_str(), v)))
240 } else if let Some(ref schema) = self.schema {
241 Box::new(
242 schema
243 .iter()
244 .zip(self.columns.iter())
245 .map(|(k, v)| (k.as_str(), v)),
246 )
247 } else {
248 Box::new(std::iter::empty())
249 }
250 }
251
252 pub fn get(&self, index: usize) -> Option<&Value> {
254 self.columns.get(index)
255 }
256
257 pub fn get_by_name(&self, name: &str) -> Option<&Value> {
259 self.named.as_ref()?.get(name)
260 }
261
262 pub fn len(&self) -> usize {
264 self.columns.len()
265 }
266
267 pub fn is_empty(&self) -> bool {
269 self.columns.is_empty()
270 }
271}
272
273#[derive(Debug, Clone)]
275pub struct NodeData {
276 pub properties: HashMap<String, Value>,
278}
279
280impl NodeData {
281 pub fn new() -> Self {
283 Self {
284 properties: HashMap::new(),
285 }
286 }
287
288 pub fn with_properties(properties: HashMap<String, Value>) -> Self {
290 Self { properties }
291 }
292
293 pub fn set(&mut self, key: impl Into<String>, value: Value) {
295 self.properties.insert(key.into(), value);
296 }
297
298 pub fn get(&self, key: &str) -> Option<&Value> {
300 self.properties.get(key)
301 }
302
303 pub fn has(&self, key: &str) -> bool {
305 self.properties.contains_key(key)
306 }
307}
308
309impl Default for NodeData {
310 fn default() -> Self {
311 Self::new()
312 }
313}
314
315#[derive(Debug, Clone)]
317pub struct EdgeData {
318 pub properties: HashMap<String, Value>,
320 pub weight: f32,
322}
323
324impl EdgeData {
325 pub fn new(weight: f32) -> Self {
327 Self {
328 properties: HashMap::new(),
329 weight,
330 }
331 }
332
333 pub fn with_properties(weight: f32, properties: HashMap<String, Value>) -> Self {
335 Self { properties, weight }
336 }
337
338 pub fn set(&mut self, key: impl Into<String>, value: Value) {
340 self.properties.insert(key.into(), value);
341 }
342
343 pub fn get(&self, key: &str) -> Option<&Value> {
345 self.properties.get(key)
346 }
347}
348
349impl Default for EdgeData {
350 fn default() -> Self {
351 Self::new(1.0)
352 }
353}
354
355#[derive(Debug, Clone)]
357pub struct VectorData {
358 pub dense: Vec<f32>,
360 pub sparse: Option<SparseVector>,
362 pub content: Option<String>,
364}
365
366impl VectorData {
367 pub fn new(dense: Vec<f32>) -> Self {
369 Self {
370 dense,
371 sparse: None,
372 content: None,
373 }
374 }
375
376 pub fn with_sparse(dense: Vec<f32>, sparse: SparseVector) -> Self {
378 Self {
379 dense,
380 sparse: Some(sparse),
381 content: None,
382 }
383 }
384
385 pub fn with_content(mut self, content: impl Into<String>) -> Self {
387 self.content = Some(content.into());
388 self
389 }
390
391 pub fn dimension(&self) -> usize {
393 self.dense.len()
394 }
395
396 pub fn is_hybrid(&self) -> bool {
398 self.sparse.is_some()
399 }
400}
401
402#[derive(Debug, Clone)]
404pub struct TimeSeriesData {
405 pub metric: String,
407 pub timestamp_ns: u64,
409 pub value: f64,
411 pub tags: std::collections::HashMap<String, String>,
413}
414
415#[derive(Debug, Clone)]
417pub struct QueueMessageData {
418 pub payload: Value,
420 pub priority: Option<i32>,
422 pub enqueued_at_ns: u64,
424 pub attempts: u32,
426 pub max_attempts: u32,
428 pub acked: bool,
430}
431
432#[derive(Debug, Clone)]
434pub struct SparseVector {
435 pub indices: Vec<u32>,
437 pub values: Vec<f32>,
439 pub dimension: usize,
441}
442
443impl SparseVector {
444 pub fn new(indices: Vec<u32>, values: Vec<f32>, dimension: usize) -> Self {
446 debug_assert_eq!(indices.len(), values.len());
447 Self {
448 indices,
449 values,
450 dimension,
451 }
452 }
453
454 pub fn nnz(&self) -> usize {
456 self.indices.len()
457 }
458
459 pub fn sparsity(&self) -> f32 {
461 if self.dimension == 0 {
462 1.0
463 } else {
464 1.0 - (self.nnz() as f32 / self.dimension as f32)
465 }
466 }
467
468 pub fn get(&self, index: u32) -> f32 {
470 self.indices
471 .iter()
472 .position(|&i| i == index)
473 .map(|pos| self.values[pos])
474 .unwrap_or(0.0)
475 }
476}
477
478#[derive(Debug, Clone)]
480pub struct EmbeddingSlot {
481 pub name: String,
483 pub vector: Vec<f32>,
485 pub model: String,
487 pub dimension: usize,
489 pub generated_at: u64,
491}
492
493fn current_unix_secs() -> u64 {
494 std::time::SystemTime::now()
495 .duration_since(std::time::UNIX_EPOCH)
496 .unwrap_or_default()
497 .as_secs()
498}
499
500impl EmbeddingSlot {
501 pub fn new(name: impl Into<String>, vector: Vec<f32>, model: impl Into<String>) -> Self {
503 let dimension = vector.len();
504 Self {
505 name: name.into(),
506 vector,
507 model: model.into(),
508 dimension,
509 generated_at: current_unix_secs(),
510 }
511 }
512}
513
514#[derive(Debug, Clone)]
516pub struct UnifiedEntity {
517 pub id: EntityId,
519 logical_id: Option<EntityId>,
523 pub kind: EntityKind,
525 pub created_at: u64,
527 pub updated_at: u64,
529 pub data: EntityData,
531 pub sequence_id: u64,
533 pub field_bloom: u64,
544 pub xmin: u64,
553 pub xmax: u64,
559 aux: Option<Box<EntityAux>>,
562}
563
564#[derive(Debug, Clone, Default)]
566pub struct EntityAux {
567 pub embeddings: Vec<EmbeddingSlot>,
569 pub cross_refs: Vec<CrossRef>,
571}
572
573impl UnifiedEntity {
574 pub fn embeddings(&self) -> &[EmbeddingSlot] {
576 self.aux
577 .as_ref()
578 .map(|a| a.embeddings.as_slice())
579 .unwrap_or(&[])
580 }
581
582 pub fn cross_refs(&self) -> &[CrossRef] {
584 self.aux
585 .as_ref()
586 .map(|a| a.cross_refs.as_slice())
587 .unwrap_or(&[])
588 }
589
590 pub fn embeddings_mut(&mut self) -> &mut Vec<EmbeddingSlot> {
592 &mut self.aux.get_or_insert_with(Default::default).embeddings
593 }
594
595 pub fn cross_refs_mut(&mut self) -> &mut Vec<CrossRef> {
597 &mut self.aux.get_or_insert_with(Default::default).cross_refs
598 }
599
600 pub fn has_aux(&self) -> bool {
602 self.aux.is_some()
603 }
604}
605
606#[inline]
612pub fn field_name_bloom(name: &str) -> u64 {
613 let b = name.as_bytes();
614 if b.is_empty() {
615 return 0;
616 }
617 1u64 << (b[b.len() / 2] & 63)
618}
619
620pub fn compute_entity_field_bloom(data: &EntityData) -> u64 {
624 match data {
625 EntityData::Row(row) => {
626 if row.schema.is_some() {
627 return 0;
630 }
631 if let Some(named) = &row.named {
632 let mut bloom = named.keys().fold(0u64, |acc, k| acc | field_name_bloom(k));
633 if let Some(Value::Json(bytes)) = named.get("body") {
641 if let Some(names) = crate::document_body::container_field_names(bytes) {
642 for name in names {
643 bloom |= field_name_bloom(&name);
644 }
645 }
646 }
647 bloom
648 } else {
649 0
650 }
651 }
652 EntityData::Node(node) => node
653 .properties
654 .keys()
655 .fold(0u64, |acc, k| acc | field_name_bloom(k)),
656 EntityData::Edge(edge) => edge
657 .properties
658 .keys()
659 .fold(0u64, |acc, k| acc | field_name_bloom(k)),
660 _ => 0,
662 }
663}
664
665impl UnifiedEntity {
666 pub fn new(id: EntityId, kind: EntityKind, data: EntityData) -> Self {
668 let now = current_unix_secs();
669 let field_bloom = compute_entity_field_bloom(&data);
670
671 Self {
672 id,
673 logical_id: None,
674 kind,
675 created_at: now,
676 updated_at: now,
677 data,
678 sequence_id: 0,
679 field_bloom,
680 xmin: 0,
683 xmax: 0,
684 aux: None,
685 }
686 }
687
688 #[inline]
699 pub fn is_visible(&self, snapshot_xid: u64) -> bool {
700 if self.xmin != 0 && self.xmin > snapshot_xid {
701 return false;
702 }
703 if self.xmax != 0 && self.xmax <= snapshot_xid {
704 return false;
705 }
706 true
707 }
708
709 #[inline]
712 pub fn set_xmin(&mut self, xid: u64) {
713 self.xmin = xid;
714 }
715
716 #[inline]
720 pub fn set_xmax(&mut self, xid: u64) {
721 self.xmax = xid;
722 }
723
724 #[inline]
727 pub fn logical_id(&self) -> EntityId {
728 self.logical_id.unwrap_or(self.id)
729 }
730
731 #[inline]
733 pub fn has_explicit_logical_id(&self) -> bool {
734 self.logical_id.is_some()
735 }
736
737 #[inline]
739 pub fn set_logical_id(&mut self, logical_id: EntityId) {
740 self.logical_id = Some(logical_id);
741 }
742
743 #[inline]
755 pub(crate) fn ensure_table_logical_id(&mut self) {
756 if self.logical_id.is_none()
757 && matches!(
758 self.kind,
759 EntityKind::TableRow { .. } | EntityKind::GraphNode(_) | EntityKind::GraphEdge(_)
760 )
761 {
762 self.logical_id = Some(self.id);
763 }
764 }
765
766 pub fn table_row(
768 id: EntityId,
769 table: impl Into<Arc<str>>,
770 row_id: u64,
771 columns: Vec<Value>,
772 ) -> Self {
773 Self::new(
774 id,
775 EntityKind::TableRow {
776 table: table.into(),
777 row_id,
778 },
779 EntityData::Row(RowData::new(columns)),
780 )
781 }
782
783 pub fn graph_node(
785 id: EntityId,
786 label: impl Into<String>,
787 node_type: impl Into<String>,
788 properties: HashMap<String, Value>,
789 ) -> Self {
790 Self::new(
791 id,
792 EntityKind::GraphNode(Box::new(GraphNodeKind {
793 label: label.into(),
794 node_type: node_type.into(),
795 })),
796 EntityData::Node(NodeData::with_properties(properties)),
797 )
798 }
799
800 pub fn graph_edge(
802 id: EntityId,
803 label: impl Into<String>,
804 from: impl Into<String>,
805 to: impl Into<String>,
806 weight: f32,
807 properties: HashMap<String, Value>,
808 ) -> Self {
809 Self::new(
810 id,
811 EntityKind::GraphEdge(Box::new(GraphEdgeKind {
812 label: label.into(),
813 from_node: from.into(),
814 to_node: to.into(),
815 weight: (weight * 1000.0) as u32,
816 })),
817 EntityData::Edge(EdgeData::with_properties(weight, properties)),
818 )
819 }
820
821 pub fn vector(id: EntityId, collection: impl Into<String>, vector: Vec<f32>) -> Self {
823 Self::new(
824 id,
825 EntityKind::Vector {
826 collection: collection.into(),
827 },
828 EntityData::Vector(VectorData::new(vector)),
829 )
830 }
831
832 pub fn add_embedding(&mut self, slot: EmbeddingSlot) {
834 self.embeddings_mut().push(slot);
835 self.touch();
836 }
837
838 pub fn add_cross_ref(&mut self, cross_ref: CrossRef) {
840 self.cross_refs_mut().push(cross_ref);
841 self.touch();
842 }
843
844 pub fn get_embedding(&self, name: &str) -> Option<&EmbeddingSlot> {
846 self.embeddings().iter().find(|e| e.name == name)
847 }
848
849 fn touch(&mut self) {
851 self.updated_at = current_unix_secs();
852 }
853
854 pub fn is_stale(&self, max_age_secs: u64) -> bool {
856 let now = current_unix_secs();
857 now.saturating_sub(self.updated_at) > max_age_secs
858 }
859}
860
861#[derive(Debug, Clone, PartialEq)]
863pub struct CrossRef {
864 pub source: EntityId,
866 pub target: EntityId,
868 pub target_collection: String,
870 pub ref_type: RefType,
872 pub weight: f32,
874 pub created_at: u64,
876}
877
878impl CrossRef {
879 pub fn new(
881 source: EntityId,
882 target: EntityId,
883 target_collection: impl Into<String>,
884 ref_type: RefType,
885 ) -> Self {
886 Self {
887 source,
888 target,
889 target_collection: target_collection.into(),
890 ref_type,
891 weight: 1.0,
892 created_at: current_unix_secs(),
893 }
894 }
895
896 pub fn with_weight(
898 source: EntityId,
899 target: EntityId,
900 target_collection: impl Into<String>,
901 ref_type: RefType,
902 weight: f32,
903 ) -> Self {
904 let mut cr = Self::new(source, target, target_collection, ref_type);
905 cr.weight = weight;
906 cr
907 }
908}
909
910#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
912pub enum RefType {
913 RowToNode, RowToEdge, NodeToRow, RowToVector, VectorToRow, NodeToVector, EdgeToVector, VectorToNode, SimilarTo, RelatedTo, DerivesFrom, Mentions, Contains, DependsOn, }
935
936impl RefType {
937 pub fn inverse(&self) -> Option<Self> {
939 match self {
940 Self::RowToNode => Some(Self::NodeToRow),
941 Self::NodeToRow => Some(Self::RowToNode),
942 Self::RowToVector => Some(Self::VectorToRow),
943 Self::VectorToRow => Some(Self::RowToVector),
944 Self::NodeToVector => Some(Self::VectorToNode),
945 Self::VectorToNode => Some(Self::NodeToVector),
946 Self::SimilarTo => Some(Self::SimilarTo), Self::RelatedTo => Some(Self::RelatedTo), _ => None, }
950 }
951
952 pub fn is_symmetric(&self) -> bool {
954 matches!(self, Self::SimilarTo | Self::RelatedTo)
955 }
956
957 pub fn to_byte(&self) -> u8 {
959 match self {
960 Self::RowToNode => 0,
961 Self::RowToEdge => 1,
962 Self::NodeToRow => 2,
963 Self::RowToVector => 3,
964 Self::VectorToRow => 4,
965 Self::NodeToVector => 5,
966 Self::EdgeToVector => 6,
967 Self::VectorToNode => 7,
968 Self::SimilarTo => 8,
969 Self::RelatedTo => 9,
970 Self::DerivesFrom => 10,
971 Self::Mentions => 11,
972 Self::Contains => 12,
973 Self::DependsOn => 13,
974 }
975 }
976
977 pub fn from_byte(byte: u8) -> Self {
979 match byte {
980 0 => Self::RowToNode,
981 1 => Self::RowToEdge,
982 2 => Self::NodeToRow,
983 3 => Self::RowToVector,
984 4 => Self::VectorToRow,
985 5 => Self::NodeToVector,
986 6 => Self::EdgeToVector,
987 7 => Self::VectorToNode,
988 8 => Self::SimilarTo,
989 9 => Self::RelatedTo,
990 10 => Self::DerivesFrom,
991 11 => Self::Mentions,
992 12 => Self::Contains,
993 13 => Self::DependsOn,
994 _ => Self::RelatedTo, }
996 }
997}
998
999impl From<Vec<Value>> for RowData {
1001 fn from(columns: Vec<Value>) -> Self {
1002 RowData::new(columns)
1003 }
1004}
1005
1006impl From<HashMap<String, Value>> for NodeData {
1008 fn from(properties: HashMap<String, Value>) -> Self {
1009 NodeData::with_properties(properties)
1010 }
1011}
1012
1013impl From<Vec<f32>> for VectorData {
1015 fn from(dense: Vec<f32>) -> Self {
1016 VectorData::new(dense)
1017 }
1018}
1019
1020impl From<(Vec<f32>, SparseVector)> for VectorData {
1022 fn from((dense, sparse): (Vec<f32>, SparseVector)) -> Self {
1023 VectorData::with_sparse(dense, sparse)
1024 }
1025}
1026
1027impl UnifiedEntity {
1029 pub fn from_properties(
1031 id: EntityId,
1032 label: impl Into<String>,
1033 node_type: impl Into<String>,
1034 properties: impl IntoIterator<Item = (impl Into<String>, Value)>,
1035 ) -> Self {
1036 let props: HashMap<String, Value> =
1037 properties.into_iter().map(|(k, v)| (k.into(), v)).collect();
1038 Self::graph_node(id, label, node_type, props)
1039 }
1040
1041 pub fn into_row(self) -> Option<RowData> {
1043 match self.data {
1044 EntityData::Row(r) => Some(r),
1045 _ => None,
1046 }
1047 }
1048
1049 pub fn into_node(self) -> Option<NodeData> {
1051 match self.data {
1052 EntityData::Node(n) => Some(n),
1053 _ => None,
1054 }
1055 }
1056
1057 pub fn into_edge(self) -> Option<EdgeData> {
1059 match self.data {
1060 EntityData::Edge(e) => Some(e),
1061 _ => None,
1062 }
1063 }
1064
1065 pub fn into_vector(self) -> Option<VectorData> {
1067 match self.data {
1068 EntityData::Vector(v) => Some(v),
1069 _ => None,
1070 }
1071 }
1072}
1073
1074#[cfg(test)]
1075mod tests {
1076 use super::*;
1077
1078 #[test]
1079 fn test_entity_creation() {
1080 let id = EntityId::new(1);
1081 let entity = UnifiedEntity::table_row(
1082 id,
1083 "users",
1084 100,
1085 vec![Value::text("alice".to_string()), Value::Integer(25)],
1086 );
1087
1088 assert!(entity.data.is_row());
1089 assert_eq!(entity.kind.storage_type(), "table");
1090 assert_eq!(entity.kind.collection(), "users");
1091 }
1092
1093 #[test]
1094 fn test_cross_refs() {
1095 let id1 = EntityId::new(1);
1096 let id2 = EntityId::new(2);
1097
1098 let cross_ref = CrossRef::new(id1, id2, "nodes", RefType::RowToNode);
1099 assert_eq!(cross_ref.source, id1);
1100 assert_eq!(cross_ref.target, id2);
1101 assert_eq!(cross_ref.ref_type.inverse(), Some(RefType::NodeToRow));
1102 }
1103
1104 #[test]
1105 fn test_sparse_vector() {
1106 let sparse = SparseVector::new(vec![0, 5, 10], vec![1.0, 2.0, 3.0], 100);
1107
1108 assert_eq!(sparse.nnz(), 3);
1109 assert_eq!(sparse.get(5), 2.0);
1110 assert_eq!(sparse.get(3), 0.0);
1111 assert!(sparse.sparsity() > 0.9);
1112 }
1113
1114 #[test]
1115 fn test_embedding_slots() {
1116 let mut entity = UnifiedEntity::table_row(
1117 EntityId::new(1),
1118 "documents",
1119 1,
1120 vec![Value::text("Hello world".to_string())],
1121 );
1122
1123 entity.add_embedding(EmbeddingSlot::new(
1124 "content",
1125 vec![0.1, 0.2, 0.3],
1126 "text-embedding-3-small",
1127 ));
1128
1129 assert_eq!(entity.embeddings().len(), 1);
1130 assert!(entity.get_embedding("content").is_some());
1131 assert!(entity.get_embedding("summary").is_none());
1132 }
1133}