import time import pdb import threading import logging from multiprocessing import Pool, Process import pytest from milvus import IndexType, MetricType from utils import * dim = 128 index_file_size = 10 COMPACT_TIMEOUT = 180 nprobe = 1 top_k = 1 tag = "1970-01-01" nb = 6000 class TestCompactBase: """ ****************************************************************** The following cases are used to test `compact` function ****************************************************************** """ @pytest.mark.timeout(COMPACT_TIMEOUT) def test_compact_collection_name_None(self, connect, collection): ''' target: compact collection where collection name is None method: compact with the collection_name: None expected: exception raised ''' collection_name = None with pytest.raises(Exception) as e: status = connect.compact(collection_name) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_compact_collection_name_not_existed(self, connect, collection): ''' target: compact collection not existed method: compact with a random collection_name, which is not in db expected: status not ok ''' collection_name = gen_unique_str("not_existed_collection") status = connect.compact(collection_name) assert not status.OK() @pytest.fixture( scope="function", params=gen_invalid_collection_names() ) def get_collection_name(self, request): yield request.param @pytest.mark.timeout(COMPACT_TIMEOUT) def test_compact_collection_name_invalid(self, connect, get_collection_name): ''' target: compact collection with invalid name method: compact with invalid collection_name expected: status not ok ''' collection_name = get_collection_name status = connect.compact(collection_name) assert not status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_and_compact(self, connect, collection): ''' target: test add vector and compact method: add vector and compact collection expected: status ok, vector added ''' vector = gen_single_vector(dim) status, ids = connect.add_vectors(collection, vector) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() logging.getLogger().info(info) size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_and_compact(self, connect, collection): ''' target: test add vectors and compact method: add vectors and compact collection expected: status ok, vectors added ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_part_and_compact(self, connect, collection): ''' target: test add vectors, delete part of them and compact method: add vectors, delete a few and compact collection expected: status ok, data size is smaller after compact ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(collection, delete_ids) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_before = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(size_before) status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_after = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(size_after) assert(size_before > size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_all_and_compact(self, connect, collection): ''' target: test add vectors, delete them and compact method: add vectors, delete all and compact collection expected: status ok, no data size in collection info because collection is empty ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.delete_by_id(collection, ids) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() logging.getLogger().info(info.partitions_stat) assert(len(info.partitions_stat[0].segments_stat) == 0) @pytest.fixture( scope="function", params=gen_simple_index() ) def get_simple_index(self, request, connect): if str(connect._cmd("mode")[1]) == "CPU": if request.param["index_type"] not in [IndexType.IVF_SQ8, IndexType.IVFLAT, IndexType.FLAT, IndexType.IVF_PQ, IndexType.HNSW]: pytest.skip("Only support index_type: flat/ivf_flat/ivf_sq8") else: pytest.skip("Only support CPU mode") return request.param def test_compact_after_index_created(self, connect, collection, get_simple_index): ''' target: test compact collection after index created method: add vectors, create index, delete part of vectors and compact expected: status ok, index description no change, data size smaller after compact ''' count = 10 index_param = get_simple_index["index_param"] index_type = get_simple_index["index_type"] vectors = gen_vector(count, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.create_index(collection, index_type, index_param) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(info.partitions_stat) delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(collection, delete_ids) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before > size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_and_compact_twice(self, connect, collection): ''' target: test add vector and compact twice method: add vector and compact collection twice expected: status ok, data size no change ''' vector = gen_single_vector(dim) status, ids = connect.add_vectors(collection, vector) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(collection) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) status = connect.compact(collection) assert status.OK() # get collection info after compact twice status, info = connect.collection_info(collection) assert status.OK() size_after_twice = info.partitions_stat[0].segments_stat[0].data_size assert(size_after == size_after_twice) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_part_and_compact_twice(self, connect, collection): ''' target: test add vectors, delete part of them and compact twice method: add vectors, delete part and compact collection twice expected: status ok, data size smaller after first compact, no change after second ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(collection, delete_ids) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before > size_after) status = connect.compact(collection) assert status.OK() # get collection info after compact twice status, info = connect.collection_info(collection) assert status.OK() size_after_twice = info.partitions_stat[0].segments_stat[0].data_size assert(size_after == size_after_twice) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_compact_multi_collections(self, connect): ''' target: test compact works or not with multiple collections method: create 50 collections, add vectors into them and compact in turn expected: status ok ''' nq = 100 num_collections = 50 vectors = gen_vectors(nq, dim) collection_list = [] for i in range(num_collections): collection_name = gen_unique_str("test_compact_multi_collection_%d" % i) collection_list.append(collection_name) param = {'collection_name': collection_name, 'dimension': dim, 'index_file_size': index_file_size, 'metric_type': MetricType.L2} connect.create_collection(param) time.sleep(6) for i in range(num_collections): status, ids = connect.add_vectors(collection_name=collection_list[i], records=vectors) assert status.OK() status = connect.compact(collection_list[i]) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_after_compact(self, connect, collection): ''' target: test add vector after compact method: after compact operation, add vector expected: status ok, vector added ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) vector = gen_single_vector(dim) status, ids = connect.add_vectors(collection, vector) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_index_creation_after_compact(self, connect, collection, get_simple_index): ''' target: test index creation after compact method: after compact operation, create index expected: status ok, index description no change ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.delete_by_id(collection, ids[:10]) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.compact(collection) assert status.OK() index_param = get_simple_index["index_param"] index_type = get_simple_index["index_type"] status = connect.create_index(collection, index_type, index_param) assert status.OK() status, result = connect.describe_index(collection) assert result._collection_name == collection assert result._index_type == index_type @pytest.mark.timeout(COMPACT_TIMEOUT) def test_delete_vectors_after_compact(self, connect, collection): ''' target: test delete vectors after compact method: after compact operation, delete vectors expected: status ok, vectors deleted ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.compact(collection) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.delete_by_id(collection, ids) assert status.OK() status = connect.flush([collection]) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_search_after_compact(self, connect, collection): ''' target: test search after compact method: after compact operation, search vector expected: status ok ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() status = connect.compact(collection) assert status.OK() query_vecs = [vectors[0]] status, res = connect.search_vectors(collection, top_k, query_records=query_vecs) logging.getLogger().info(res) assert status.OK() # TODO: enable def _test_compact_server_crashed_recovery(self, connect, collection): ''' target: test compact when server crashed unexpectedly and restarted method: add vectors, delete and compact collection; server stopped and restarted during compact expected: status ok, request recovered ''' vectors = gen_vector(nb * 100, dim) status, ids = connect.add_vectors(collection, vectors) assert status.OK() status = connect.flush([collection]) assert status.OK() delete_ids = ids[0:1000] status = connect.delete_by_id(collection, delete_ids) assert status.OK() status = connect.flush([collection]) assert status.OK() # start to compact, kill and restart server logging.getLogger().info("compact starting...") status = connect.compact(collection) # pdb.set_trace() assert status.OK() # get collection info after compact status, info = connect.collection_info(collection) assert status.OK() assert info.partitions_stat[0].count == nb * 100 - 1000 class TestCompactJAC: """ ****************************************************************** The following cases are used to test `compact` function ****************************************************************** """ @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_and_compact(self, connect, jac_collection): ''' target: test add vector and compact method: add vector and compact collection expected: status ok, vector added ''' tmp, vector = gen_binary_vectors(1, dim) status, ids = connect.add_vectors(jac_collection, vector) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_and_compact(self, connect, jac_collection): ''' target: test add vectors and compact method: add vectors and compact collection expected: status ok, vectors added ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_part_and_compact(self, connect, jac_collection): ''' target: test add vectors, delete part of them and compact method: add vectors, delete a few and compact collection expected: status ok, data size is smaller after compact ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(jac_collection, delete_ids) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_before = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(size_before) status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_after = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(size_after) assert(size_before > size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_all_and_compact(self, connect, jac_collection): ''' target: test add vectors, delete them and compact method: add vectors, delete all and compact collection expected: status ok, no data size in collection info because collection is empty ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() status = connect.delete_by_id(jac_collection, ids) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() logging.getLogger().info(info.partitions_stat) assert(len(info.partitions_stat[0].segments_stat) == 0) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_and_compact_twice(self, connect, jac_collection): ''' target: test add vector and compact twice method: add vector and compact collection twice expected: status ok ''' tmp, vector = gen_binary_vectors(1, dim) status, ids = connect.add_vectors(jac_collection, vector) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) status = connect.compact(jac_collection) assert status.OK() # get collection info after compact twice status, info = connect.collection_info(jac_collection) assert status.OK() size_after_twice = info.partitions_stat[0].segments_stat[0].data_size assert(size_after == size_after_twice) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_part_and_compact_twice(self, connect, jac_collection): ''' target: test add vectors, delete part of them and compact twice method: add vectors, delete part and compact collection twice expected: status ok, data size smaller after first compact, no change after second ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(jac_collection, delete_ids) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before > size_after) status = connect.compact(jac_collection) assert status.OK() # get collection info after compact twice status, info = connect.collection_info(jac_collection) assert status.OK() size_after_twice = info.partitions_stat[0].segments_stat[0].data_size assert(size_after == size_after_twice) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_compact_multi_collections(self, connect): ''' target: test compact works or not with multiple collections method: create 50 collections, add vectors into them and compact in turn expected: status ok ''' nq = 100 num_collections = 10 tmp, vectors = gen_binary_vectors(nq, dim) collection_list = [] for i in range(num_collections): collection_name = gen_unique_str("test_compact_multi_collection_%d" % i) collection_list.append(collection_name) param = {'collection_name': collection_name, 'dimension': dim, 'index_file_size': index_file_size, 'metric_type': MetricType.JACCARD} connect.create_collection(param) time.sleep(6) for i in range(num_collections): status, ids = connect.add_vectors(collection_name=collection_list[i], records=vectors) assert status.OK() status = connect.delete_by_id(collection_list[i], [ids[0], ids[-1]]) assert status.OK() status = connect.flush([collection_list[i]]) assert status.OK() status = connect.compact(collection_list[i]) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_after_compact(self, connect, jac_collection): ''' target: test add vector after compact method: after compact operation, add vector expected: status ok, vector added ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(jac_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(jac_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(jac_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) tmp, vector = gen_binary_vectors(1, dim) status, ids = connect.add_vectors(jac_collection, vector) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_delete_vectors_after_compact(self, connect, jac_collection): ''' target: test delete vectors after compact method: after compact operation, delete vectors expected: status ok, vectors deleted ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() status = connect.compact(jac_collection) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() status = connect.delete_by_id(jac_collection, ids) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_search_after_compact(self, connect, jac_collection): ''' target: test search after compact method: after compact operation, search vector expected: status ok ''' tmp, vectors = gen_binary_vectors(nb, dim) status, ids = connect.add_vectors(jac_collection, vectors) assert status.OK() status = connect.flush([jac_collection]) assert status.OK() status = connect.compact(jac_collection) assert status.OK() query_vecs = [vectors[0]] status, res = connect.search_vectors(jac_collection, top_k, query_records=query_vecs) logging.getLogger().info(res) assert status.OK() class TestCompactIP: """ ****************************************************************** The following cases are used to test `compact` function ****************************************************************** """ @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_and_compact(self, connect, ip_collection): ''' target: test add vector and compact method: add vector and compact collection expected: status ok, vector added ''' vector = gen_single_vector(dim) status, ids = connect.add_vectors(ip_collection, vector) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(ip_collection) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_and_compact(self, connect, ip_collection): ''' target: test add vectors and compact method: add vectors and compact collection expected: status ok, vectors added ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(ip_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_part_and_compact(self, connect, ip_collection): ''' target: test add vectors, delete part of them and compact method: add vectors, delete a few and compact collection expected: status ok, data size is smaller after compact ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(ip_collection, delete_ids) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_before = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(size_before) status = connect.compact(ip_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() logging.getLogger().info(info.partitions_stat) size_after = info.partitions_stat[0].segments_stat[0].data_size logging.getLogger().info(size_after) assert(size_before > size_after) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_all_and_compact(self, connect, ip_collection): ''' target: test add vectors, delete them and compact method: add vectors, delete all and compact collection expected: status ok, no data size in collection info because collection is empty ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() status = connect.delete_by_id(ip_collection, ids) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() status = connect.compact(ip_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() logging.getLogger().info(info.partitions_stat) assert(len(info.partitions_stat[0].segments_stat) == 0) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_and_compact_twice(self, connect, ip_collection): ''' target: test add vector and compact twice method: add vector and compact collection twice expected: status ok ''' vector = gen_single_vector(dim) status, ids = connect.add_vectors(ip_collection, vector) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(ip_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) status = connect.compact(ip_collection) assert status.OK() # get collection info after compact twice status, info = connect.collection_info(ip_collection) assert status.OK() size_after_twice = info.partitions_stat[0].segments_stat[0].data_size assert(size_after == size_after_twice) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vectors_delete_part_and_compact_twice(self, connect, ip_collection): ''' target: test add vectors, delete part of them and compact twice method: add vectors, delete part and compact collection twice expected: status ok, data size smaller after first compact, no change after second ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() delete_ids = [ids[0], ids[-1]] status = connect.delete_by_id(ip_collection, delete_ids) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(ip_collection) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before > size_after) status = connect.compact(ip_collection) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info after compact twice status, info = connect.collection_info(ip_collection) assert status.OK() size_after_twice = info.partitions_stat[0].segments_stat[0].data_size assert(size_after == size_after_twice) @pytest.mark.timeout(COMPACT_TIMEOUT) def test_compact_multi_collections(self, connect): ''' target: test compact works or not with multiple collections method: create 50 collections, add vectors into them and compact in turn expected: status ok ''' nq = 100 num_collections = 50 vectors = gen_vectors(nq, dim) collection_list = [] for i in range(num_collections): collection_name = gen_unique_str("test_compact_multi_collection_%d" % i) collection_list.append(collection_name) param = {'collection_name': collection_name, 'dimension': dim, 'index_file_size': index_file_size, 'metric_type': MetricType.IP} connect.create_collection(param) time.sleep(6) for i in range(num_collections): status, ids = connect.add_vectors(collection_name=collection_list[i], records=vectors) assert status.OK() status = connect.compact(collection_list[i]) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_add_vector_after_compact(self, connect, ip_collection): ''' target: test add vector after compact method: after compact operation, add vector expected: status ok, vector added ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() # get collection info before compact status, info = connect.collection_info(ip_collection) assert status.OK() size_before = info.partitions_stat[0].segments_stat[0].data_size status = connect.compact(ip_collection) assert status.OK() # get collection info after compact status, info = connect.collection_info(ip_collection) assert status.OK() size_after = info.partitions_stat[0].segments_stat[0].data_size assert(size_before == size_after) vector = gen_single_vector(dim) status, ids = connect.add_vectors(ip_collection, vector) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_delete_vectors_after_compact(self, connect, ip_collection): ''' target: test delete vectors after compact method: after compact operation, delete vectors expected: status ok, vectors deleted ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() status = connect.compact(ip_collection) assert status.OK() status = connect.delete_by_id(ip_collection, ids) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() @pytest.mark.timeout(COMPACT_TIMEOUT) def test_search_after_compact(self, connect, ip_collection): ''' target: test search after compact method: after compact operation, search vector expected: status ok ''' vectors = gen_vector(nb, dim) status, ids = connect.add_vectors(ip_collection, vectors) assert status.OK() status = connect.flush([ip_collection]) assert status.OK() status = connect.compact(ip_collection) assert status.OK() query_vecs = [vectors[0]] status, res = connect.search_vectors(ip_collection, top_k, query_records=query_vecs) logging.getLogger().info(res) assert status.OK()