use std::collections::{BTreeSet, HashMap}; use std::sync::atomic::AtomicBool; use std::sync::Arc; use atomic_refcell::AtomicRefCell; use common::cpu::CpuPermit; use common::types::ScoredPointOffset; use itertools::Itertools; use rand::prelude::StdRng; use rand::{Rng, SeedableRng}; use rstest::rstest; use segment::data_types::vectors::{ only_default_vector, DenseVector, QueryVector, DEFAULT_VECTOR_NAME, }; use segment::entry::entry_point::SegmentEntry; use segment::fixtures::payload_fixtures::{random_dense_byte_vector, random_int_payload}; use segment::index::hnsw_index::graph_links::GraphLinksRam; use segment::index::hnsw_index::hnsw::{HNSWIndex, HnswIndexOpenArgs}; use segment::index::hnsw_index::num_rayon_threads; use segment::index::{PayloadIndex, VectorIndex}; use segment::segment_constructor::build_segment; use segment::types::{ BinaryQuantizationConfig, CompressionRatio, Condition, Distance, FieldCondition, Filter, HnswConfig, Indexes, Payload, PayloadSchemaType, ProductQuantizationConfig, QuantizationSearchParams, Range, ScalarQuantizationConfig, SearchParams, SegmentConfig, SeqNumberType, VectorDataConfig, VectorStorageDatatype, VectorStorageType, }; use segment::vector_storage::quantized::quantized_vectors::QuantizedVectors; use segment::vector_storage::query::{ContextPair, DiscoveryQuery, RecoQuery}; use segment::vector_storage::VectorStorageEnum; use serde_json::json; use tempfile::Builder; const MAX_EXAMPLE_PAIRS: usize = 4; enum QueryVariant { Nearest, RecommendBestScore, Discovery, } enum QuantizationVariant { Scalar, PQ, Binary, } fn random_vector(rnd_gen: &mut R, dim: usize, data_type: VectorStorageDatatype) -> DenseVector where R: Rng + ?Sized, { match data_type { VectorStorageDatatype::Float32 => unreachable!(), VectorStorageDatatype::Float16 => { let mut vector = segment::fixtures::payload_fixtures::random_vector(rnd_gen, dim); vector.iter_mut().for_each(|x| *x -= 0.5); vector } VectorStorageDatatype::Uint8 => random_dense_byte_vector(rnd_gen, dim), } } fn random_discovery_query( rnd: &mut R, dim: usize, data_type: VectorStorageDatatype, ) -> QueryVector { let num_pairs: usize = rnd.gen_range(1..MAX_EXAMPLE_PAIRS); let target = random_vector(rnd, dim, data_type).into(); let pairs = (0..num_pairs) .map(|_| { let positive = random_vector(rnd, dim, data_type).into(); let negative = random_vector(rnd, dim, data_type).into(); ContextPair { positive, negative } }) .collect_vec(); DiscoveryQuery::new(target, pairs).into() } fn random_reco_query( rnd: &mut R, dim: usize, data_type: VectorStorageDatatype, ) -> QueryVector { let num_examples: usize = rnd.gen_range(1..MAX_EXAMPLE_PAIRS); let positive = (0..num_examples) .map(|_| random_vector(rnd, dim, data_type).into()) .collect_vec(); let negative = (0..num_examples) .map(|_| random_vector(rnd, dim, data_type).into()) .collect_vec(); RecoQuery::new(positive, negative).into() } fn random_query( variant: &QueryVariant, rnd: &mut R, dim: usize, data_type: VectorStorageDatatype, ) -> QueryVector { match variant { QueryVariant::Nearest => random_vector(rnd, dim, data_type).into(), QueryVariant::Discovery => random_discovery_query(rnd, dim, data_type), QueryVariant::RecommendBestScore => random_reco_query(rnd, dim, data_type), } } fn sames_count(a: &[Vec], b: &[Vec]) -> usize { a[0].iter() .map(|x| x.idx) .collect::>() .intersection(&b[0].iter().map(|x| x.idx).collect()) .count() } #[rstest] #[case::nearest_binary_dot( QueryVariant::Nearest, VectorStorageDatatype::Float16, QuantizationVariant::Binary, Distance::Dot, 128, // dim 32, // ef 10., // min_acc out of 100 )] #[case::nearest_binary_dot( QueryVariant::Nearest, VectorStorageDatatype::Uint8, QuantizationVariant::Binary, Distance::Dot, 128, // dim 32, // ef 5., // min_acc out of 100 )] #[case::discovery_binary_dot( QueryVariant::Discovery, VectorStorageDatatype::Uint8, QuantizationVariant::Binary, Distance::Dot, 128, // dim 128, // ef 1., // min_acc out of 100 )] #[case::recommend_binary_dot( QueryVariant::RecommendBestScore, VectorStorageDatatype::Uint8, QuantizationVariant::Binary, Distance::Dot, 128, // dim 64, // ef 1., // min_acc out of 100 )] #[case::nearest_binary_cosine( QueryVariant::Nearest, VectorStorageDatatype::Uint8, QuantizationVariant::Binary, Distance::Cosine, 128, // dim 32, // ef 25., // min_acc out of 100 )] #[case::discovery_binary_cosine( QueryVariant::Discovery, VectorStorageDatatype::Uint8, QuantizationVariant::Binary, Distance::Cosine, 128, // dim 128, // ef 15., // min_acc out of 100 )] #[case::recommend_binary_cosine( QueryVariant::RecommendBestScore, VectorStorageDatatype::Uint8, QuantizationVariant::Binary, Distance::Cosine, 128, // dim 64, // ef 15., // min_acc out of 100 )] #[case::nearest_scalar_dot( QueryVariant::Nearest, VectorStorageDatatype::Float16, QuantizationVariant::Scalar, Distance::Dot, 32, // dim 32, // ef 80., // min_acc out of 100 )] #[case::nearest_scalar_dot( QueryVariant::Nearest, VectorStorageDatatype::Uint8, QuantizationVariant::Scalar, Distance::Dot, 32, // dim 32, // ef 80., // min_acc out of 100 )] #[case::nearest_scalar_cosine( QueryVariant::Nearest, VectorStorageDatatype::Uint8, QuantizationVariant::Scalar, Distance::Cosine, 32, // dim 32, // ef 80., // min_acc out of 100 )] #[case::nearest_pq_dot( QueryVariant::Nearest, VectorStorageDatatype::Uint8, QuantizationVariant::PQ, Distance::Dot, 16, // dim 32, // ef 70., // min_acc out of 100 )] fn test_byte_storage_binary_quantization_hnsw( #[case] query_variant: QueryVariant, #[case] storage_data_type: VectorStorageDatatype, #[case] quantization_variant: QuantizationVariant, #[case] distance: Distance, #[case] dim: usize, #[case] ef: usize, #[case] min_acc: f64, // out of 100 ) { use segment::json_path::JsonPath; let stopped = AtomicBool::new(false); let m = 8; let num_vectors: u64 = 5_000; let ef_construct = 16; let full_scan_threshold = 16; // KB let num_payload_values = 2; let mut rnd = StdRng::seed_from_u64(42); let dir_byte = Builder::new().prefix("segment_dir_byte").tempdir().unwrap(); let quantized_data_path = dir_byte.path(); let hnsw_dir_byte = Builder::new().prefix("hnsw_dir_byte").tempdir().unwrap(); let config_byte = SegmentConfig { vector_data: HashMap::from([( DEFAULT_VECTOR_NAME.to_owned(), VectorDataConfig { size: dim, distance, storage_type: VectorStorageType::Memory, index: Indexes::Plain {}, quantization_config: None, multivector_config: None, datatype: Some(storage_data_type), }, )]), sparse_vector_data: Default::default(), payload_storage_type: Default::default(), }; let int_key = "int"; let mut segment_byte = build_segment(dir_byte.path(), &config_byte, true).unwrap(); // check that `segment_byte` uses byte or half storage { let borrowed_storage = segment_byte.vector_data[DEFAULT_VECTOR_NAME] .vector_storage .borrow(); let raw_storage: &VectorStorageEnum = &borrowed_storage; assert!( matches!(raw_storage, &VectorStorageEnum::DenseSimpleByte(_)) | matches!(raw_storage, &VectorStorageEnum::DenseSimpleHalf(_)) ); } for n in 0..num_vectors { let idx = n.into(); let vector = random_vector(&mut rnd, dim, storage_data_type); let int_payload = random_int_payload(&mut rnd, num_payload_values..=num_payload_values); let payload: Payload = json!({int_key:int_payload,}).into(); segment_byte .upsert_point(n as SeqNumberType, idx, only_default_vector(&vector)) .unwrap(); segment_byte .set_full_payload(n as SeqNumberType, idx, &payload) .unwrap(); } segment_byte .payload_index .borrow_mut() .set_indexed(&JsonPath::new(int_key), PayloadSchemaType::Integer) .unwrap(); let quantization_config = match quantization_variant { QuantizationVariant::Scalar => ScalarQuantizationConfig { r#type: Default::default(), quantile: None, always_ram: None, } .into(), QuantizationVariant::PQ => ProductQuantizationConfig { compression: CompressionRatio::X8, always_ram: None, } .into(), QuantizationVariant::Binary => BinaryQuantizationConfig { always_ram: None }.into(), }; segment_byte .vector_data .values_mut() .for_each(|vector_storage| { let quantized_vectors = QuantizedVectors::create( &vector_storage.vector_storage.borrow(), &quantization_config, quantized_data_path, 4, &stopped, ) .unwrap(); vector_storage.quantized_vectors = Arc::new(AtomicRefCell::new(Some(quantized_vectors))); }); let hnsw_config = HnswConfig { m, ef_construct, full_scan_threshold, max_indexing_threads: 2, on_disk: Some(false), payload_m: None, }; let permit_cpu_count = num_rayon_threads(hnsw_config.max_indexing_threads); let permit = Arc::new(CpuPermit::dummy(permit_cpu_count as u32)); let hnsw_index_byte = HNSWIndex::::open(HnswIndexOpenArgs { path: hnsw_dir_byte.path(), id_tracker: segment_byte.id_tracker.clone(), vector_storage: segment_byte.vector_data[DEFAULT_VECTOR_NAME] .vector_storage .clone(), quantized_vectors: segment_byte.vector_data[DEFAULT_VECTOR_NAME] .quantized_vectors .clone(), payload_index: segment_byte.payload_index.clone(), hnsw_config, permit: Some(permit), stopped: &stopped, }) .unwrap(); let top = 5; let mut sames = 0; let attempts = 100; for _ in 0..attempts { let query = random_query(&query_variant, &mut rnd, dim, storage_data_type); let range_size = 40; let left_range = rnd.gen_range(0..400); let right_range = left_range + range_size; let filter = Filter::new_must(Condition::Field(FieldCondition::new_range( JsonPath::new(int_key), Range { lt: None, gt: None, gte: Some(f64::from(left_range)), lte: Some(f64::from(right_range)), }, ))); let filter_query = Some(&filter); let index_result_byte = hnsw_index_byte .search( &[&query], filter_query, top, Some(&SearchParams { hnsw_ef: Some(ef), quantization: Some(QuantizationSearchParams { oversampling: Some(2.0), ..Default::default() }), ..Default::default() }), &Default::default(), ) .unwrap(); let plain_result_byte = hnsw_index_byte .search( &[&query], filter_query, top, Some(&SearchParams { hnsw_ef: Some(ef), quantization: Some(QuantizationSearchParams { ignore: true, ..Default::default() }), exact: true, ..Default::default() }), &Default::default(), ) .unwrap(); sames += sames_count(&plain_result_byte, &index_result_byte); } let acc = 100.0 * sames as f64 / (attempts * top) as f64; println!("sames = {sames}, attempts = {attempts}, top = {top}, acc = {acc}"); assert!(acc > min_acc); }