// Copyright (C) 2019-2020 Zilliz. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software distributed under the License // is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express // or implied. See the License for the specific language governing permissions and limitations under the License #include #include "pb/schema.pb.h" #include "query/Expr.h" #include "query/PlanImpl.h" #include "query/PlanNode.h" #include "query/generated/ExecPlanNodeVisitor.h" #include "query/generated/ExprVisitor.h" #include "query/generated/ShowPlanNodeVisitor.h" #include "segcore/SegmentSealed.h" #include "test_utils/DataGen.h" using namespace milvus; using namespace milvus::query; using namespace milvus::segcore; namespace { const int64_t ROW_COUNT = 100 * 1000; } TEST(Query, ShowExecutor) { using namespace milvus::query; using namespace milvus::segcore; using namespace milvus; auto metric_type = knowhere::metric::L2; auto node = std::make_unique(); auto schema = std::make_shared(); auto field_id = schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, metric_type); int64_t num_queries = 100L; auto raw_data = DataGen(schema, num_queries); auto& info = node->search_info_; info.metric_type_ = metric_type; info.topk_ = 20; info.field_id_ = field_id; node->predicate_ = std::nullopt; ShowPlanNodeVisitor show_visitor; PlanNodePtr base(node.release()); auto res = show_visitor.call_child(*base); auto dup = res; std::cout << dup.dump(4); } TEST(Query, DSL) { using namespace milvus::query; using namespace milvus::segcore; ShowPlanNodeVisitor shower; std::string dsl_string = R"( { "bool": { "must": [ { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 10, "round_decimal": 3 } } } ] } })"; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); auto plan = CreatePlan(*schema, dsl_string); auto res = shower.call_child(*plan->plan_node_); std::cout << res.dump(4) << std::endl; std::string dsl_string2 = R"( { "bool": { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 10, "round_decimal": 3 } } } })"; auto plan2 = CreatePlan(*schema, dsl_string2); auto res2 = shower.call_child(*plan2->plan_node_); std::cout << res2.dump(4) << std::endl; ASSERT_EQ(res, res2); } TEST(Query, ParsePlaceholderGroup) { std::string dsl_string = R"( { "bool": { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 10, "round_decimal":3 } } } })"; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); auto plan = CreatePlan(*schema, dsl_string); int64_t num_queries = 100000; int dim = 16; auto raw_group = CreatePlaceholderGroup(num_queries, dim); auto blob = raw_group.SerializeAsString(); auto placeholder = ParsePlaceholderGroup(plan.get(), blob); } TEST(Query, ExecWithPredicateLoader) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); schema->AddDebugField("age", DataType::FLOAT); auto counter_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(counter_fid); std::string dsl = R"({ "bool": { "must": [ { "range": { "age": { "GE": -1, "LT": 1 } } }, { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; int64_t N = ROW_COUNT; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto plan = CreatePlan(*schema, dsl); auto num_queries = 5; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 16, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); int topk = 5; Json json = SearchResultToJson(*sr); #ifdef __linux__ auto ref = json::parse(R"( [ [ ["982->0.000000", "25315->4.742000", "57893->4.758000", "1499->6.066000", "48201->6.075000"], ["41772->10.111000", "80693->11.712000", "74859->11.790000", "79777->11.842000", "31878->12.308000"], ["65551->4.454000", "21617->5.144000", "50037->5.267000", "72204->5.332000", "96905->5.479000"], ["59219->5.458000", "21995->6.078000", "61367->7.029000", "44657->7.031000", "66957->7.174000"], ["66353->5.696000", "41087->5.917000", "97780->6.811000", "99239->7.562000", "86527->7.751000"] ] ])"); #else // for mac auto ref = json::parse(R"( [ [ ["982->0.000000", "31864->4.270000", "18916->4.651000", "71547->5.125000", "13227->6.010000"], ["96984->4.192000", "65514->6.011000", "89328->6.138000", "80284->6.526000", "68218->6.563000"], ["30119->2.464000", "52595->4.323000", "32673->4.851000", "74834->5.009000", "50806->5.446000"], ["99625->6.129000", "86582->6.900000", "10069->7.388000", "89982->7.672000", "85934->7.792000"], ["37759->3.581000", "97019->5.557000", "53543->5.844000", "63535->6.439000", "94009->6.572000"] ] ])"); #endif std::cout << json.dump(2); ASSERT_EQ(json.dump(2), ref.dump(2)); } TEST(Query, ExecWithPredicateSmallN) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 7, knowhere::metric::L2); schema->AddDebugField("age", DataType::FLOAT); auto i64_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(i64_fid); std::string dsl = R"({ "bool": { "must": [ { "range": { "age": { "GE": -1, "LT": 1 } } }, { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; int64_t N = 177; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto plan = CreatePlan(*schema, dsl); auto num_queries = 5; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 7, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); int topk = 5; Json json = SearchResultToJson(*sr); std::cout << json.dump(2); } TEST(Query, ExecWithPredicate) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); schema->AddDebugField("age", DataType::FLOAT); auto i64_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(i64_fid); std::string dsl = R"({ "bool": { "must": [ { "range": { "age": { "GE": -1, "LT": 1 } } }, { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; int64_t N = ROW_COUNT; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto plan = CreatePlan(*schema, dsl); auto num_queries = 5; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 16, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); int topk = 5; Json json = SearchResultToJson(*sr); #ifdef __linux__ auto ref = json::parse(R"( [ [ ["982->0.000000", "25315->4.742000", "57893->4.758000", "1499->6.066000", "48201->6.075000"], ["41772->10.111000", "80693->11.712000", "74859->11.790000", "79777->11.842000", "31878->12.308000"], ["65551->4.454000", "21617->5.144000", "50037->5.267000", "72204->5.332000", "96905->5.479000"], ["59219->5.458000", "21995->6.078000", "61367->7.029000", "44657->7.031000", "66957->7.174000"], ["66353->5.696000", "41087->5.917000", "97780->6.811000", "99239->7.562000", "86527->7.751000"] ] ])"); #else // for mac auto ref = json::parse(R"( [ [ ["982->0.000000", "31864->4.270000", "18916->4.651000", "71547->5.125000", "13227->6.010000"], ["96984->4.192000", "65514->6.011000", "89328->6.138000", "80284->6.526000", "68218->6.563000"], ["30119->2.464000", "52595->4.323000", "32673->4.851000", "74834->5.009000", "50806->5.446000"], ["99625->6.129000", "86582->6.900000", "10069->7.388000", "89982->7.672000", "85934->7.792000"], ["37759->3.581000", "97019->5.557000", "53543->5.844000", "63535->6.439000", "94009->6.572000"] ] ])"); #endif std::cout << json.dump(2); ASSERT_EQ(json.dump(2), ref.dump(2)); } TEST(Query, ExecTerm) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); schema->AddDebugField("age", DataType::FLOAT); auto i64_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(i64_fid); std::string dsl = R"({ "bool": { "must": [ { "term": { "age": { "values": [] } } }, { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; int64_t N = ROW_COUNT; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto plan = CreatePlan(*schema, dsl); auto num_queries = 3; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 16, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); std::vector> results; int topk = 5; auto json = SearchResultToJson(*sr); ASSERT_EQ(sr->total_nq_, num_queries); ASSERT_EQ(sr->unity_topK_, topk); // for(auto x: ) } TEST(Query, ExecEmpty) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("age", DataType::FLOAT); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); std::string dsl = R"({ "bool": { "must": [ { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; int64_t N = ROW_COUNT; auto segment = CreateGrowingSegment(schema); auto plan = CreatePlan(*schema, dsl); auto num_queries = 5; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 16, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); std::cout << SearchResultToJson(*sr); for (auto i : sr->seg_offsets_) { ASSERT_EQ(i, -1); } for (auto v : sr->distances_) { ASSERT_EQ(v, std::numeric_limits::max()); } } TEST(Query, ExecWithoutPredicateFlat) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, std::nullopt); schema->AddDebugField("age", DataType::FLOAT); auto i64_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(i64_fid); std::string dsl = R"({ "bool": { "must": [ { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; auto plan = CreatePlan(*schema, dsl); int64_t N = ROW_COUNT; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto num_queries = 5; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 16, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); std::vector> results; int topk = 5; auto json = SearchResultToJson(*sr); std::cout << json.dump(2); } TEST(Query, ExecWithoutPredicate) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); schema->AddDebugField("fakevec", DataType::VECTOR_FLOAT, 16, knowhere::metric::L2); schema->AddDebugField("age", DataType::FLOAT); auto i64_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(i64_fid); std::string dsl = R"({ "bool": { "must": [ { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal":3 } } } ] } })"; auto plan = CreatePlan(*schema, dsl); int64_t N = ROW_COUNT; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto num_queries = 5; auto ph_group_raw = CreatePlaceholderGroup(num_queries, 16, 1024); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); std::vector> results; int topk = 5; auto json = SearchResultToJson(*sr); #ifdef __linux__ auto ref = json::parse(R"( [ [ ["982->0.000000", "25315->4.742000", "57893->4.758000", "1499->6.066000", "48201->6.075000"], ["41772->10.111000", "80693->11.712000", "74859->11.790000", "79777->11.842000", "31878->12.308000"], ["65551->4.454000", "21617->5.144000", "50037->5.267000", "98268->5.321000", "72204->5.332000"], ["33572->5.432000", "59219->5.458000", "21995->6.078000", "17913->6.831000", "86628->6.835000"], ["66353->5.696000", "41087->5.917000", "24554->6.195000", "68019->6.654000", "97780->6.811000"] ] ])"); #else // for mac auto ref = json::parse(R"( [ [ ["982->0.000000", "31864->4.270000", "18916->4.651000", "78227->4.808000", "71547->5.125000"], ["96984->4.192000", "45733->4.912000", "32891->5.016000", "65514->6.011000", "89328->6.138000"], ["30119->2.464000", "52595->4.323000", "32673->4.851000", "74834->5.009000", "76784->5.195000"], ["99625->6.129000", "86582->6.900000", "60608->7.285000", "10069->7.388000", "89982->7.672000"], ["37759->3.581000", "45814->4.872000", "97019->5.557000", "23626->5.839000", "53543->5.844000"] ] ])"); #endif std::cout << json.dump(2); ASSERT_EQ(json.dump(2), ref.dump(2)); } TEST(Indexing, InnerProduct) { int64_t N = 100000; constexpr auto dim = 16; constexpr auto topk = 10; auto num_queries = 5; auto schema = std::make_shared(); std::string dsl = R"({ "bool": { "must": [ { "vector": { "normalized": { "metric_type": "IP", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal":3 } } } ] } })"; auto vec_fid = schema->AddDebugField("normalized", DataType::VECTOR_FLOAT, dim, knowhere::metric::IP); auto i64_fid = schema->AddDebugField("age", DataType::INT64); schema->set_primary_field_id(i64_fid); auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); auto plan = CreatePlan(*schema, dsl); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto col = dataset.get_col(vec_fid); auto ph_group_raw = CreatePlaceholderGroupFromBlob(num_queries, 16, col.data()); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp ts = N * 2; auto sr = segment->Search(plan.get(), ph_group.get(), ts); std::cout << SearchResultToJson(*sr).dump(2); } TEST(Query, FillSegment) { namespace pb = milvus::proto; pb::schema::CollectionSchema proto; proto.set_name("col"); proto.set_description("asdfhsalkgfhsadg"); proto.set_autoid(false); auto dim = 16; { auto field = proto.add_fields(); field->set_name("fakevec"); field->set_is_primary_key(false); field->set_description("asdgfsagf"); field->set_fieldid(100); field->set_data_type(pb::schema::DataType::FloatVector); auto param = field->add_type_params(); param->set_key("dim"); param->set_value("16"); auto iparam = field->add_index_params(); iparam->set_key("metric_type"); iparam->set_value("L2"); } { auto field = proto.add_fields(); field->set_name("the_key"); field->set_fieldid(101); field->set_is_primary_key(true); field->set_description("asdgfsagf"); field->set_data_type(pb::schema::DataType::Int64); } { auto field = proto.add_fields(); field->set_name("the_value"); field->set_fieldid(102); field->set_is_primary_key(false); field->set_description("asdgfsagf"); field->set_data_type(pb::schema::DataType::Int32); } auto schema = Schema::ParseFrom(proto); // dispatch here int N = 100000; auto dataset = DataGen(schema, N); const auto std_vec = dataset.get_col(FieldId(101)); // ids field const auto std_vfloat_vec = dataset.get_col(FieldId(100)); // vector field const auto std_i32_vec = dataset.get_col(FieldId(102)); // scalar field std::vector> segments; segments.emplace_back([&] { auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); return segment; }()); segments.emplace_back([&] { auto segment = CreateSealedSegment(schema); SealedLoadFieldData(dataset, *segment); // auto indexing = GenVecIndexing(N, dim, std_vfloat_vec.data()); // LoadIndexInfo info; // auto field_offset = schema->get_offset(FieldName("fakevec")); // auto& meta = schema->operator[](field_offset); // info.field_id = meta.get_id().get(); // info.field_name = meta.get_name().get(); // info.index_params["metric_type"] = "L2"; // info.index = indexing; // segment->LoadIndex(info); return segment; }()); std::string dsl = R"({ "bool": { "must": [ { "vector": { "fakevec": { "metric_type": "L2", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; auto plan = CreatePlan(*schema, dsl); auto ph_proto = CreatePlaceholderGroup(10, 16, 443); auto ph = ParsePlaceholderGroup(plan.get(), ph_proto.SerializeAsString()); Timestamp ts = N * 2UL; auto topk = 5; auto num_queries = 10; for (auto& segment : segments) { plan->target_entries_.clear(); plan->target_entries_.push_back(schema->get_field_id(FieldName("fakevec"))); plan->target_entries_.push_back(schema->get_field_id(FieldName("the_value"))); auto result = segment->Search(plan.get(), ph.get(), ts); // std::cout << SearchResultToJson(result).dump(2); result->result_offsets_.resize(topk * num_queries); segment->FillTargetEntry(plan.get(), *result); segment->FillPrimaryKeys(plan.get(), *result); auto& fields_data = result->output_fields_data_; ASSERT_EQ(fields_data.size(), 2); for (auto field_id : plan->target_entries_) { ASSERT_EQ(fields_data.count(field_id), true); } auto vec_field_id = schema->get_field_id(FieldName("fakevec")); auto output_vec_field_data = fields_data.at(vec_field_id)->vectors().float_vector().data(); ASSERT_EQ(output_vec_field_data.size(), topk * num_queries * dim); auto i32_field_id = schema->get_field_id(FieldName("the_value")); auto output_i32_field_data = fields_data.at(i32_field_id)->scalars().int_data().data(); ASSERT_EQ(output_i32_field_data.size(), topk * num_queries); for (int i = 0; i < topk * num_queries; i++) { int64_t val = std::get(result->primary_keys_[i]); auto internal_offset = result->seg_offsets_[i]; auto std_val = std_vec[internal_offset]; auto std_i32 = std_i32_vec[internal_offset]; std::vector std_vfloat(dim); std::copy_n(std_vfloat_vec.begin() + dim * internal_offset, dim, std_vfloat.begin()); ASSERT_EQ(val, std_val) << "io:" << internal_offset; if (val != -1) { // check vector field std::vector vfloat(dim); memcpy(vfloat.data(), &output_vec_field_data[i * dim], dim * sizeof(float)); ASSERT_EQ(vfloat, std_vfloat); // check int32 field int i32; memcpy(&i32, &output_i32_field_data[i], sizeof(int32_t)); ASSERT_EQ(i32, std_i32); } } } } TEST(Query, ExecWithPredicateBinary) { using namespace milvus::query; using namespace milvus::segcore; auto schema = std::make_shared(); auto vec_fid = schema->AddDebugField("fakevec", DataType::VECTOR_BINARY, 512, knowhere::metric::JACCARD); auto float_fid = schema->AddDebugField("age", DataType::FLOAT); auto i64_fid = schema->AddDebugField("counter", DataType::INT64); schema->set_primary_field_id(i64_fid); std::string dsl = R"({ "bool": { "must": [ { "range": { "age": { "GE": -1, "LT": 1 } } }, { "vector": { "fakevec": { "metric_type": "JACCARD", "params": { "nprobe": 10 }, "query": "$0", "topk": 5, "round_decimal": 3 } } } ] } })"; int64_t N = ROW_COUNT; auto dataset = DataGen(schema, N); auto segment = CreateGrowingSegment(schema); segment->PreInsert(N); segment->Insert(0, N, dataset.row_ids_.data(), dataset.timestamps_.data(), dataset.raw_); auto vec_ptr = dataset.get_col(vec_fid); auto plan = CreatePlan(*schema, dsl); auto num_queries = 5; auto ph_group_raw = CreateBinaryPlaceholderGroupFromBlob(num_queries, 512, vec_ptr.data() + 1024 * 512 / 8); auto ph_group = ParsePlaceholderGroup(plan.get(), ph_group_raw.SerializeAsString()); Timestamp time = 1000000; auto sr = segment->Search(plan.get(), ph_group.get(), time); int topk = 5; Json json = SearchResultToJson(*sr); std::cout << json.dump(2); // ASSERT_EQ(json.dump(2), ref.dump(2)); }