class MilvusClient(object):
def __init__(self, collection_name=None, host=None, port=None, timeout=300):
self._collection_name = collection_name
self._collection_info = None
start_time = time.time()
if not host:
host = config.SERVER_HOST_DEFAULT
if not port:
port = config.SERVER_PORT_DEFAULT
# retry connect remote server
i = 0
while time.time() < start_time + timeout:
try:
self._milvus = Milvus(
host=host,
port=port,
try_connect=False,
pre_ping=False)
break
except Exception as e:
logger.error(str(e))
logger.error("Milvus connect failed: %d times" % i)
i = i + 1
time.sleep(30)
if time.time() > start_time + timeout:
raise Exception("Server connect timeout")
# self._metric_type = None
def __str__(self):
return 'Milvus collection %s' % self._collection_name
def set_collection(self, collection_name):
self._collection_name = collection_name
# TODO: server not support
# def check_status(self, status):
# if not status.OK():
# logger.error(status.message)
# logger.error(self._milvus.server_status())
# logger.error(self.count())
# raise Exception("Status not ok")
def check_result_ids(self, result):
for index, item in enumerate(result):
if item[0].distance >= epsilon:
logger.error(index)
logger.error(item[0].distance)
raise Exception("Distance wrong")
@property
def collection_name(self):
return self._collection_name
# only support the given field name
def create_collection(self, dimension, data_type=DataType.FLOAT_VECTOR, auto_id=False,
collection_name=None, other_fields=None):
self._dimension = dimension
if not collection_name:
collection_name = self._collection_name
vec_field_name = utils.get_default_field_name(data_type)
fields = [
{"name": vec_field_name, "type": data_type, "params": {"dim": dimension}},
{"name": "id", "type": DataType.INT64, "is_primary": True}
]
if other_fields:
other_fields = other_fields.split(",")
for other_field_name in other_fields:
if other_field_name.startswith("int"):
field_type = DataType.INT64
elif other_field_name.startswith("float"):
field_type = DataType.FLOAT
elif other_field_name.startswith("double"):
field_type = DataType.DOUBLE
else:
raise Exception("Field name not supported")
fields.append({"name": other_field_name, "type": field_type})
create_param = {
"fields": fields,
"auto_id": auto_id}
try:
self._milvus.create_collection(collection_name, create_param)
logger.info("Create collection: <%s> successfully" % collection_name)
except Exception as e:
logger.error(str(e))
raise
def create_partition(self, tag, collection_name=None):
if not collection_name:
collection_name = self._collection_name
self._milvus.create_partition(collection_name, tag)
@time_wrapper
def insert(self, entities, collection_name=None):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
try:
insert_res = self._milvus.insert(tmp_collection_name, entities)
return insert_res.primary_keys
except Exception as e:
logger.error(str(e))
def get_dimension(self):
info = self.get_info()
for field in info["fields"]:
if field["type"] in [DataType.FLOAT_VECTOR, DataType.BINARY_VECTOR]:
return field["params"]["dim"]
def get_rand_ids(self, length):
segment_ids = []
while True:
stats = self.get_stats()
segments = stats["partitions"][0]["segments"]
# random choice one segment
segment = random.choice(segments)
try:
segment_ids = self._milvus.list_id_in_segment(self._collection_name, segment["id"])
except Exception as e:
logger.error(str(e))
if not len(segment_ids):
continue
elif len(segment_ids) > length:
return random.sample(segment_ids, length)
else:
logger.debug("Reset length: %d" % len(segment_ids))
return segment_ids
# def get_rand_ids_each_segment(self, length):
# res = []
# status, stats = self._milvus.get_collection_stats(self._collection_name)
# self.check_status(status)
# segments = stats["partitions"][0]["segments"]
# segments_num = len(segments)
# # random choice from each segment
# for segment in segments:
# status, segment_ids = self._milvus.list_id_in_segment(self._collection_name, segment["name"])
# self.check_status(status)
# res.extend(segment_ids[:length])
# return segments_num, res
# def get_rand_entities(self, length):
# ids = self.get_rand_ids(length)
# status, get_res = self._milvus.get_entity_by_id(self._collection_name, ids)
# self.check_status(status)
# return ids, get_res
@time_wrapper
def get_entities(self, get_ids):
get_res = self._milvus.get_entity_by_id(self._collection_name, get_ids)
return get_res
@time_wrapper
def delete(self, ids, collection_name=None):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
self._milvus.delete_entity_by_id(tmp_collection_name, ids)
def delete_rand(self):
delete_id_length = random.randint(1, 100)
count_before = self.count()
logger.debug("%s: length to delete: %d" % (self._collection_name, delete_id_length))
delete_ids = self.get_rand_ids(delete_id_length)
self.delete(delete_ids)
self.flush()
logger.info("%s: count after delete: %d" % (self._collection_name, self.count()))
get_res = self._milvus.get_entity_by_id(self._collection_name, delete_ids)
for item in get_res:
assert not item
# if count_before - len(delete_ids) < self.count():
# logger.error(delete_ids)
# raise Exception("Error occured")
@time_wrapper
def flush(self,_async=False, collection_name=None):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
self._milvus.flush([tmp_collection_name], _async=_async)
@time_wrapper
def compact(self, collection_name=None):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
status = self._milvus.compact(tmp_collection_name)
self.check_status(status)
# only support "in" in expr
@time_wrapper
def get(self, ids, collection_name=None):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
# res = self._milvus.get(tmp_collection_name, ids, output_fields=None, partition_names=None)
ids_expr = "id in %s" % (str(ids))
res = self._milvus.query(tmp_collection_name, ids_expr, output_fields=None, partition_names=None)
return res
@time_wrapper
def create_index(self, field_name, index_type, metric_type, _async=False, index_param=None):
index_type = INDEX_MAP[index_type]
metric_type = utils.metric_type_trans(metric_type)
logger.info("Building index start, collection_name: %s, index_type: %s, metric_type: %s" % (
self._collection_name, index_type, metric_type))
if index_param:
logger.info(index_param)
index_params = {
"index_type": index_type,
"metric_type": metric_type,
"params": index_param
}
self._milvus.create_index(self._collection_name, field_name, index_params, _async=_async)
# TODO: need to check
def describe_index(self, field_name, collection_name=None):
# stats = self.get_stats()
tmp_collection_name = self._collection_name if collection_name is None else collection_name
info = self._milvus.describe_index(tmp_collection_name, field_name)
logger.info(info)
index_info = {"index_type": "flat", "metric_type": None, "index_param": None}
if info:
index_info = {"index_type": info["index_type"], "metric_type": info["metric_type"], "index_param": info["params"]}
# transfer index type name
for k, v in INDEX_MAP.items():
if index_info['index_type'] == v:
index_info['index_type'] = k
return index_info
def drop_index(self, field_name):
logger.info("Drop index: %s" % self._collection_name)
return self._milvus.drop_index(self._collection_name, field_name)
@time_wrapper
def query(self, vector_query, filter_query=None, collection_name=None, timeout=300):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
must_params = [vector_query]
if filter_query:
must_params.extend(filter_query)
query = {
"bool": {"must": must_params}
}
result = self._milvus.search(tmp_collection_name, query, timeout=timeout)
return result
@time_wrapper
def warm_query(self, index_field_name, search_param, metric_type, times=2):
query_vectors = [[random.random() for _ in range(self._dimension)] for _ in range(DEFAULT_WARM_QUERY_NQ)]
# index_info = self.describe_index(index_field_name)
vector_query = {"vector": {index_field_name: {
"topk": DEFAULT_WARM_QUERY_TOPK,
"query": query_vectors,
"metric_type": metric_type,
"params": search_param}
}}
must_params = [vector_query]
query = {
"bool": {"must": must_params}
}
logger.debug("Start warm up query")
for i in range(times):
self._milvus.search(self._collection_name, query)
logger.debug("End warm up query")
@time_wrapper
def load_and_query(self, vector_query, filter_query=None, collection_name=None, timeout=120):
tmp_collection_name = self._collection_name if collection_name is None else collection_name
must_params = [vector_query]
if filter_query:
must_params.extend(filter_query)
query = {
"bool": {"must": must_params}
}
self.load_collection(tmp_collection_name)
result = self._milvus.search(tmp_collection_name, query, timeout=timeout)
return result
def get_ids(self, result):
# idss = result._entities.ids
ids = []
# len_idss = len(idss)
# len_r = len(result)
# top_k = len_idss // len_r
# for offset in range(0, len_idss, top_k):
# ids.append(idss[offset: min(offset + top_k, len_idss)])
for res in result:
ids.append(res.ids)
return ids
def query_rand(self, nq_max=100):
# for ivf search
dimension = 128
top_k = random.randint(1, 100)
nq = random.randint(1, nq_max)
nprobe = random.randint(1, 100)
search_param = {"nprobe": nprobe}
query_vectors = [[random.random() for _ in range(dimension)] for _ in range(nq)]
metric_type = random.choice(["l2", "ip"])
logger.info("%s, Search nq: %d, top_k: %d, nprobe: %d" % (self._collection_name, nq, top_k, nprobe))
vec_field_name = utils.get_default_field_name()
vector_query = {"vector": {vec_field_name: {
"topk": top_k,
"query": query_vectors,
"metric_type": utils.metric_type_trans(metric_type),
"params": search_param}
}}
self.query(vector_query)
def load_query_rand(self, nq_max=100):
# for ivf search
dimension = 128
top_k = random.randint(1, 100)
nq = random.randint(1, nq_max)
nprobe = random.randint(1, 100)
search_param = {"nprobe": nprobe}
query_vectors = [[random.random() for _ in range(dimension)] for _ in range(nq)]
metric_type = random.choice(["l2", "ip"])
logger.info("%s, Search nq: %d, top_k: %d, nprobe: %d" % (self._collection_name, nq, top_k, nprobe))
vec_field_name = utils.get_default_field_name()
vector_query = {"vector": {vec_field_name: {
"topk": top_k,
"query": query_vectors,
"metric_type": utils.metric_type_trans(metric_type),
"params": search_param}
}}
self.load_and_query(vector_query)
# TODO: need to check
def count(self, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
row_count = self._milvus.get_collection_stats(collection_name)["row_count"]
logger.debug("Row count: %d in collection: <%s>" % (row_count, collection_name))
return row_count
def drop(self, timeout=120, collection_name=None):
timeout = int(timeout)
if collection_name is None:
collection_name = self._collection_name
logger.info("Start delete collection: %s" % collection_name)
self._milvus.drop_collection(collection_name)
i = 0
while i < timeout:
try:
row_count = self.count(collection_name=collection_name)
if row_count:
time.sleep(1)
i = i + 1
continue
else:
break
except Exception as e:
logger.warning("Collection count failed: {}".format(str(e)))
break
if i >= timeout:
logger.error("Delete collection timeout")
def get_stats(self):
return self._milvus.get_collection_stats(self._collection_name)
def get_info(self, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
return self._milvus.describe_collection(collection_name)
def show_collections(self):
return self._milvus.list_collections()
def exists_collection(self, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
res = self._milvus.has_collection(collection_name)
return res
def clean_db(self):
collection_names = self.show_collections()
for name in collection_names:
self.drop(collection_name=name)
@time_wrapper
def load_collection(self, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
return self._milvus.load_collection(collection_name, timeout=3000)
@time_wrapper
def release_collection(self, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
return self._milvus.release_collection(collection_name, timeout=3000)
@time_wrapper
def load_partitions(self, tag_names, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
return self._milvus.load_partitions(collection_name, tag_names, timeout=3000)
@time_wrapper
def release_partitions(self, tag_names, collection_name=None):
if collection_name is None:
collection_name = self._collection_name
return self._milvus.release_partitions(collection_name, tag_names, timeout=3000)
This example is runable for Milvus(0.11.x) and pymilvus(0.3.x).
"""
import random
import csv
from pprint import pprint
from pymilvus import Milvus, DataType
_HOST = '127.0.0.1'
_PORT = '19530'
client = Milvus(_HOST, _PORT)
collection_name = 'demo_index'
if collection_name in client.list_collections():
client.drop_collection(collection_name)
collection_param = {
"fields": [
{"name": "release_year", "type": DataType.INT64, "is_primary": True},
{"name": "embedding", "type": DataType.FLOAT_VECTOR, "params": {"dim": 8}},
],
}
client.create_collection(collection_name, collection_param)
# ------
# Basic create index:
# Now that we have a collection in Milvus with `segment_row_limit` 4096, we can create index or
def main():
# Specify server addr when create milvus client instance
# milvus client instance maintain a connection pool, param
# `pool_size` specify the max connection num.
milvus = Milvus(_HOST, _PORT)
# Create collection demo_collection if it dosen't exist.
collection_name = 'example_collection'
ok = milvus.has_collection(collection_name)
field_name = 'example_field'
id_name = "id"
if not ok:
fields = {"fields": [{
"name": field_name,
"type": DataType.FLOAT_VECTOR,
"metric_type": "L2",
"params": {"dim": _DIM},
"indexes": [{"metric_type": "L2"}]
},
{
"name": id_name,
"type": DataType.INT64,
"auto_id": True,
"is_primary": True,
}
]}
milvus.create_collection(collection_name=collection_name, fields=fields)
else:
milvus.drop_collection(collection_name=collection_name)
# Show collections in Milvus server
collections = milvus.list_collections()
print(collections)
# Describe demo_collection
stats = milvus.get_collection_stats(collection_name)
print(stats)
# 10000 vectors with 128 dimension
# element per dimension is float32 type
# vectors should be a 2-D array
vectors = [[random.random() for _ in range(_DIM)] for _ in range(10)]
print(vectors)
# You can also use numpy to generate random vectors:
# vectors = np.random.rand(10000, _DIM).astype(np.float32)
# Insert vectors into demo_collection, return status and vectors id list
entities = [{"name": field_name, "type": DataType.FLOAT_VECTOR, "values": vectors}]
res_ids = milvus.insert(collection_name=collection_name, entities=entities)
print("ids:", res_ids.primary_keys)
# Flush collection inserted data to disk.
milvus.flush([collection_name])
# present collection statistics info
stats = milvus.get_collection_stats(collection_name)
print(stats)
# create index of vectors, search more rapidly
index_param = {
"metric_type": "L2",
"index_type": "IVF_FLAT",
"params": {"nlist": 1024}
}
# Create ivflat index in demo_collection
# You can search vectors without creating index. however, Creating index help to
# search faster
print("Creating index: {}".format(index_param))
status = milvus.create_index(collection_name, field_name, index_param)
# execute vector similarity search
print("Searching ... ")
dsl = {"bool": {"must": [{"vector": {
field_name: {
"metric_type": "L2",
"query": vectors,
"topk": 10,
"params": {"nprobe": 16}
}
}}]}}
search_params = {"metric_type": "L2", "params": {"nprobe": 10}}
milvus.load_collection(collection_name)
results = milvus.search_with_expression(collection_name, vectors, field_name, param=search_params, limit=10,
output_fields=[id_name])
print("search results: ", results[0][0].entity)
# indicate search result
# also use by:
# `results.distance_array[0][0] == 0.0 or results.id_array[0][0] == ids[0]`
if results[0][0].distance == 0.0 or results[0][0].id == ids[0]:
print('Query result is correct')
else:
print('Query result isn\'t correct')
milvus.drop_index(collection_name, field_name)
milvus.release_collection(collection_name)
# Delete demo_collection
status = milvus.drop_collection(collection_name)
