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chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

202 lines
6.8 KiB
Python

import threading
import h5py
import numpy as np
import time
import sys
import copy
from pathlib import Path
from loguru import logger
import pymilvus
from pymilvus import (
connections,
FieldSchema, CollectionSchema, DataType,
Collection, utility
)
pymilvus_version = pymilvus.__version__
all_index_types = ["IVF_FLAT", "IVF_SQ8", "HNSW"]
default_index_params = [{"nlist": 128}, {"nlist": 128}, {"M": 48, "efConstruction": 200}]
index_params_map = dict(zip(all_index_types, default_index_params))
def gen_index_params(index_type, metric_type="L2"):
default_index = {"index_type": "IVF_FLAT", "params": {"nlist": 128}, "metric_type": metric_type}
index = copy.deepcopy(default_index)
index["index_type"] = index_type
index["params"] = index_params_map[index_type]
if index_type in ["BIN_FLAT", "BIN_IVF_FLAT"]:
index["metric_type"] = "HAMMING"
return index
def gen_search_param(index_type, metric_type="L2"):
search_params = []
if index_type in ["FLAT", "IVF_FLAT", "IVF_SQ8", "IVF_PQ"]:
for nprobe in [10]:
ivf_search_params = {"metric_type": metric_type, "params": {"nprobe": nprobe}}
search_params.append(ivf_search_params)
elif index_type in ["BIN_FLAT", "BIN_IVF_FLAT"]:
for nprobe in [10]:
bin_search_params = {"metric_type": "HAMMING", "params": {"nprobe": nprobe}}
search_params.append(bin_search_params)
elif index_type in ["HNSW"]:
for ef in [150]:
hnsw_search_param = {"metric_type": metric_type, "params": {"ef": ef}}
search_params.append(hnsw_search_param)
elif index_type == "ANNOY":
for search_k in [1000]:
annoy_search_param = {"metric_type": metric_type, "params": {"search_k": search_k}}
search_params.append(annoy_search_param)
else:
logger.info("Invalid index_type.")
raise Exception("Invalid index_type.")
return search_params[0]
def read_benchmark_hdf5(file_path):
f = h5py.File(file_path, 'r')
train = np.array(f["train"])
test = np.array(f["test"])
neighbors = np.array(f["neighbors"])
f.close()
return train, test, neighbors
dim = 128
TIMEOUT = 200
def milvus_recall_test(host='127.0.0.1', index_type="HNSW"):
logger.info(f"recall test for index type {index_type}")
file_path = f"{str(Path(__file__).absolute().parent.parent.parent)}/assets/ann_hdf5/sift-128-euclidean.hdf5"
train, test, neighbors = read_benchmark_hdf5(file_path)
connections.connect(host=host, port="19530")
default_fields = [
FieldSchema(name="int64", dtype=DataType.INT64, is_primary=True),
FieldSchema(name="float", dtype=DataType.FLOAT),
FieldSchema(name="varchar", dtype=DataType.VARCHAR, max_length=65535),
FieldSchema(name="float_vector", dtype=DataType.FLOAT_VECTOR, dim=dim)
]
default_schema = CollectionSchema(
fields=default_fields, description="test collection")
name = f"sift_128_euclidean_{index_type}"
logger.info(f"Create collection {name}")
collection = Collection(name=name, schema=default_schema)
nb = len(train)
batch_size = 50000
epoch = int(nb / batch_size)
t0 = time.time()
for i in range(epoch):
logger.info(f"epoch: {i}")
start = i * batch_size
end = (i + 1) * batch_size
if end > nb:
end = nb
data = [
[i for i in range(start, end)],
[np.float32(i) for i in range(start, end)],
[str(i) for i in range(start, end)],
train[start:end]
]
collection.insert(data)
t1 = time.time()
logger.info(f"Insert {nb} vectors cost {t1 - t0:.4f} seconds")
t0 = time.time()
logger.info(f"Get collection entities...")
if pymilvus_version >= "2.2.0":
collection.flush()
else:
collection.num_entities
logger.info(collection.num_entities)
t1 = time.time()
logger.info(f"Get collection entities cost {t1 - t0:.4f} seconds")
# create index
default_index = gen_index_params(index_type)
logger.info(f"Create index...")
t0 = time.time()
collection.create_index(field_name="float_vector",
index_params=default_index)
t1 = time.time()
logger.info(f"Create index cost {t1 - t0:.4f} seconds")
# load collection
replica_number = 1
logger.info(f"load collection...")
t0 = time.time()
collection.load(replica_number=replica_number)
t1 = time.time()
logger.info(f"load collection cost {t1 - t0:.4f} seconds")
res = utility.get_query_segment_info(name)
cnt = 0
logger.info(f"segments info: {res}")
for segment in res:
cnt += segment.num_rows
assert cnt == collection.num_entities
logger.info(f"wait for loading complete...")
time.sleep(30)
res = utility.get_query_segment_info(name)
logger.info(f"segments info: {res}")
# search
topK = 100
nq = 10000
current_search_params = gen_search_param(index_type)
# define output_fields of search result
for i in range(3):
t0 = time.time()
logger.info(f"Search...")
res = collection.search(
test[:nq], "float_vector", current_search_params, topK, output_fields=["int64"], timeout=TIMEOUT
)
t1 = time.time()
logger.info(f"search cost {t1 - t0:.4f} seconds")
result_ids = []
for hits in res:
result_id = []
for hit in hits:
result_id.append(hit.entity.get("int64"))
result_ids.append(result_id)
# calculate recall
true_ids = neighbors[:nq, :topK]
sum_radio = 0.0
logger.info(f"Calculate recall...")
for index, item in enumerate(result_ids):
# tmp = set(item).intersection(set(flat_id_list[index]))
assert len(item) == len(true_ids[index])
tmp = set(true_ids[index]).intersection(set(item))
sum_radio = sum_radio + len(tmp) / len(item)
recall = round(sum_radio / len(result_ids), 6)
logger.info(f"recall={recall}")
if index_type in ["IVF_PQ", "ANNOY"]:
assert recall >= 0.6, f"recall={recall} < 0.6"
else:
assert 0.95 <= recall < 1.0, f"recall is {recall}, less than 0.95, greater than or equal to 1.0"
# query
expr = "int64 in [2,4,6,8]"
output_fields = ["int64", "float"]
res = collection.query(expr, output_fields, timeout=TIMEOUT)
sorted_res = sorted(res, key=lambda k: k['int64'])
for r in sorted_res:
logger.info(r)
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser(description='config for recall test')
parser.add_argument('--host', type=str,
default="127.0.0.1", help='milvus server ip')
args = parser.parse_args()
host = args.host
tasks = []
for index_type in ["HNSW"]:
milvus_recall_test(host, index_type)