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# The MIT License (MIT)
# Copyright (c) Microsoft Corporation. All rights reserved.
import os
import unittest
import uuid
import pytest
import azure.cosmos.exceptions as exceptions
import test_config
import vector_test_data
from azure.cosmos import CosmosClient as CosmosSyncClient
from azure.cosmos import http_constants
from azure.cosmos.aio import CosmosClient
from azure.cosmos.partition_key import PartitionKey
def verify_ordering(item_list, distance_function):
for i in range(len(item_list)):
assert item_list[i]["text"] == vector_test_data.get_ordered_item_texts()[i]
if distance_function == "euclidean":
for i in range(len(item_list) - 1):
assert item_list[i]["SimilarityScore"] <= item_list[i + 1]["SimilarityScore"]
else:
for i in range(len(item_list) - 1):
assert item_list[i]["SimilarityScore"] >= item_list[i + 1]["SimilarityScore"]
@pytest.mark.cosmosSearchQuery
class TestVectorSimilarityQueryAsync(unittest.IsolatedAsyncioTestCase):
"""Test to check vector similarity queries behavior."""
client: CosmosClient = None
sync_client: CosmosSyncClient = None
config = test_config.TestConfig
host = config.host
masterKey = config.masterKey
connectionPolicy = config.connectionPolicy
TEST_CONTAINER_ID = "Vector Similarity Container " + str(uuid.uuid4())
@classmethod
def setUpClass(cls):
if (cls.masterKey == '[YOUR_KEY_HERE]' or
cls.host == '[YOUR_ENDPOINT_HERE]'):
raise Exception(
"You must specify your Azure Cosmos account values for "
"'masterKey' and 'host' at the top of this class to run the "
"tests.")
cls.sync_client = CosmosSyncClient(cls.host, cls.masterKey)
cls.test_db = cls.sync_client.create_database(str(uuid.uuid4()))
cls.created_quantized_cosine_container = cls.test_db.create_container(
id="quantized" + cls.TEST_CONTAINER_ID,
partition_key=PartitionKey(path="/pk"),
offer_throughput=test_config.TestConfig.THROUGHPUT_FOR_2_PARTITIONS,
indexing_policy=test_config.get_vector_indexing_policy(embedding_type="quantizedFlat"),
vector_embedding_policy=test_config.get_vector_embedding_policy(data_type="float32",
distance_function="cosine",
dimensions=128))
cls.created_flat_euclidean_container = cls.test_db.create_container(
id="flat" + cls.TEST_CONTAINER_ID,
partition_key=PartitionKey(path="/pk"),
offer_throughput=test_config.TestConfig.THROUGHPUT_FOR_2_PARTITIONS,
indexing_policy=test_config.get_vector_indexing_policy(embedding_type="flat"),
vector_embedding_policy=test_config.get_vector_embedding_policy(data_type="float32",
distance_function="euclidean",
dimensions=128))
cls.created_diskANN_dotproduct_container = cls.test_db.create_container(
id="diskANN" + cls.TEST_CONTAINER_ID,
partition_key=PartitionKey(path="/pk"),
offer_throughput=test_config.TestConfig.THROUGHPUT_FOR_2_PARTITIONS,
indexing_policy=test_config.get_vector_indexing_policy(embedding_type="diskANN"),
vector_embedding_policy=test_config.get_vector_embedding_policy(data_type="float32",
distance_function="dotproduct",
dimensions=128))
cls.created_large_container = cls.test_db.create_container(
id="large_container" + cls.TEST_CONTAINER_ID,
partition_key=PartitionKey(path="/pk"),
offer_throughput=test_config.TestConfig.THROUGHPUT_FOR_2_PARTITIONS,
indexing_policy=test_config.get_vector_indexing_policy(embedding_type="quantizedFlat"),
vector_embedding_policy=test_config.get_vector_embedding_policy(data_type="float32",
distance_function="cosine",
dimensions=2))
for item in vector_test_data.get_vector_items():
cls.created_quantized_cosine_container.create_item(item)
cls.created_flat_euclidean_container.create_item(item)
cls.created_diskANN_dotproduct_container.create_item(item)
@classmethod
def tearDownClass(cls):
try:
cls.sync_client.delete_database(cls.test_db.id)
except exceptions.CosmosHttpResponseError:
pass
async def asyncSetUp(self):
self.client = CosmosClient(self.host, self.masterKey)
self.test_db = self.client.get_database_client(self.test_db.id)
self.created_flat_euclidean_container = self.test_db.get_container_client(self.created_flat_euclidean_container.id)
self.created_quantized_cosine_container = self.test_db.get_container_client(self.created_quantized_cosine_container.id)
self.created_diskANN_dotproduct_container = self.test_db.get_container_client(self.created_diskANN_dotproduct_container.id)
self.created_large_container = self.test_db.get_container_client(self.created_large_container.id)
async def asyncTearDown(self):
await self.client.close()
async def test_wrong_vector_search_queries_async(self):
vector_string = vector_test_data.get_embedding_string("I am having a wonderful day.")
# try to send a vector search query without limit filters
query = "SELECT c.text, VectorDistance(c.embedding, [{}]) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}])".format(vector_string, vector_string)
try:
[item async for item in self.created_large_container.query_items(query=query)]
pytest.fail("Client should not allow queries without filters.")
except ValueError as e:
assert "Executing a vector search query without TOP or LIMIT can consume many RUs very fast and" \
" have long runtimes. Please ensure you are using one of the two filters with your" \
" vector search query." in e.args[0]
# try to send a vector search query specifying the ordering as ASC or DESC
query = "SELECT c.text, VectorDistance(c.embedding, [{}]) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}]) ASC".format(vector_string,
vector_string)
try:
[item async for item in self.created_large_container.query_items(query=query)]
pytest.fail("Client should not allow queries with ASC/DESC.")
except exceptions.CosmosHttpResponseError as e:
assert e.status_code == http_constants.StatusCodes.BAD_REQUEST
assert ("One of the input values is invalid." in e.message
or "Specifying a sorting order (ASC or DESC) with VectorDistance function is not supported." in e.message)
async def test_vector_search_environment_variables_async(self):
vector_string = vector_test_data.get_embedding_string("I am having a wonderful day.")
query = "SELECT TOP 10 c.text, VectorDistance(c.embedding, [{}]) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}])".format(vector_string, vector_string)
os.environ["AZURE_COSMOS_MAX_ITEM_BUFFER_VECTOR_SEARCH"] = "1"
try:
[item async for item in self.created_large_container.query_items(query=query)]
pytest.fail("Config was not set correctly.")
except ValueError as e:
assert e.args[0] == ("Executing a vector search query with more items than the max is not allowed. "
"Please ensure you are using a limit smaller than the max, or change the max.")
os.environ["AZURE_COSMOS_MAX_ITEM_BUFFER_VECTOR_SEARCH"] = "50000"
os.environ["AZURE_COSMOS_DISABLE_NON_STREAMING_ORDER_BY"] = "False"
[item async for item in self.created_large_container.query_items(query=query)]
async def test_ordering_distances_async(self):
# Besides ordering distances, we also verify that the query text properly replaces any set embedding policies
# load up previously calculated embedding for the given string
vector_string = vector_test_data.get_embedding_string("I am having a wonderful day.")
# test euclidean distance
for i in range(1, 11):
# we define queries with and without specs to directly use the embeddings in our container policies
vanilla_query = "SELECT TOP {} c.text, VectorDistance(c.embedding, [{}]) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}])".format(str(i),
vector_string,
vector_string)
specs_query = "SELECT TOP {} c.text, VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'euclidean'}}) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'euclidean'}})" \
.format(str(i), vector_string, vector_string)
flat_list = [item async for item in self.created_flat_euclidean_container.query_items(query=vanilla_query)]
verify_ordering(flat_list, "euclidean")
quantized_list = [item async for item in self.created_quantized_cosine_container.query_items(query=specs_query)]
verify_ordering(quantized_list, "euclidean")
disk_ann_list = [item async for item in self.created_diskANN_dotproduct_container.query_items(query=specs_query)]
verify_ordering(disk_ann_list, "euclidean")
# test cosine distance
for i in range(1, 11):
vanilla_query = "SELECT TOP {} c.text, VectorDistance(c.embedding, [{}]) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}])".format(str(i),
vector_string,
vector_string)
specs_query = "SELECT TOP {} c.text, VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'cosine'}}) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'cosine'}})" \
.format(str(i), vector_string, vector_string)
flat_list = [item async for item in self.created_flat_euclidean_container.query_items(query=specs_query)]
verify_ordering(flat_list, "cosine")
quantized_list = [item async for item in self.created_quantized_cosine_container.query_items(query=vanilla_query)]
verify_ordering(quantized_list, "cosine")
disk_ann_list = [item async for item in self.created_diskANN_dotproduct_container.query_items(query=specs_query)]
verify_ordering(disk_ann_list, "cosine")
# test dot product distance
for i in range(1, 11):
vanilla_query = "SELECT TOP {} c.text, VectorDistance(c.embedding, [{}]) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}])".format(str(i),
vector_string,
vector_string)
specs_query = "SELECT TOP {} c.text, VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'dotproduct'}}) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'dotproduct'}})" \
.format(str(i), vector_string, vector_string)
flat_list = [item async for item in self.created_flat_euclidean_container.query_items(query=specs_query)]
verify_ordering(flat_list, "dotproduct")
quantized_list = [item async for item in self.created_quantized_cosine_container.query_items(query=specs_query)]
verify_ordering(quantized_list, "dotproduct")
disk_ann_list = [item async for item in self.created_diskANN_dotproduct_container.query_items(query=vanilla_query)]
verify_ordering(disk_ann_list, "dotproduct")
async def test_vector_query_pagination_async(self):
# load up previously calculated embedding for the given string
vector_string = vector_test_data.get_embedding_string("I am having a wonderful day.")
query = "SELECT TOP 8 c.text, VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'cosine'}}) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}], false, {{'distanceFunction': " \
"'cosine'}})".format(vector_string, vector_string)
query_iterable = self.created_quantized_cosine_container.query_items(query=query,
max_item_count=3)
all_fetched_res = []
count = 0
item_pages = query_iterable.by_page()
async for items in item_pages:
count += 1
all_fetched_res.extend([item async for item in items])
assert count == 3
assert len(all_fetched_res) == 8
verify_ordering(all_fetched_res, "cosine")
async def test_vector_query_large_data_async(self):
# test different limit queries on a larger data set
embedding_value = 0.0001
for i in range(2000):
item = {"id": str(i), "pk": i % 2, "embedding": [embedding_value, embedding_value]}
await self.created_large_container.create_item(item)
embedding_value += 0.0001
query = "SELECT c.id, VectorDistance(c.embedding, [0.0001, 0.0001], false," \
" {'distanceFunction': 'cosine'}) AS SimilarityScore FROM c ORDER BY" \
" VectorDistance(c.embedding, [0.0001, 0.0001], false, {'distanceFunction': 'cosine'})" \
" OFFSET 0 LIMIT 1000"
query_iterable = self.created_large_container.query_items(query=query)
result_list = [item async for item in query_iterable]
assert len(result_list) == 1000
query = "SELECT DISTINCT c.id, VectorDistance(c.embedding, [0.0001, 0.0001], false," \
" {'distanceFunction': 'cosine'}) AS SimilarityScore FROM c ORDER BY" \
" VectorDistance(c.embedding, [0.0001, 0.0001], false, {'distanceFunction': 'cosine'})" \
" OFFSET 0 LIMIT 1000"
query_iterable = self.created_large_container.query_items(query=query)
result_list = [item async for item in query_iterable]
assert len(result_list) == 1000
query = "SELECT TOP 750 c.id, VectorDistance(c.embedding, [0.0001, 0.0001], false," \
" {'distanceFunction': 'cosine'}) AS SimilarityScore FROM c ORDER BY" \
" VectorDistance(c.embedding, [0.0001, 0.0001], false, {'distanceFunction': 'cosine'})"
query_iterable = self.created_large_container.query_items(query=query)
result_list = [item async for item in query_iterable]
assert len(result_list) == 750
query = "SELECT DISTINCT TOP 750 c.id, VectorDistance(c.embedding, [0.0001, 0.0001], false," \
" {'distanceFunction': 'cosine'}) AS SimilarityScore FROM c ORDER BY" \
" VectorDistance(c.embedding, [0.0001, 0.0001], false, {'distanceFunction': 'cosine'})"
query_iterable = self.created_large_container.query_items(query=query)
result_list = [item async for item in query_iterable]
assert len(result_list) == 750
query = "SELECT c.id, VectorDistance(c.embedding, [0.0001, 0.0001], false," \
" {'distanceFunction': 'cosine'}) AS SimilarityScore FROM c ORDER BY" \
" VectorDistance(c.embedding, [0.0001, 0.0001], false, {'distanceFunction': 'cosine'})" \
" OFFSET 1000 LIMIT 500"
query_iterable = self.created_large_container.query_items(query=query)
result_list = [item async for item in query_iterable]
assert len(result_list) == 500
query = "SELECT DISTINCT c.id, VectorDistance(c.embedding, [0.0001, 0.0001], false," \
" {'distanceFunction': 'cosine'}) AS SimilarityScore FROM c ORDER BY" \
" VectorDistance(c.embedding, [0.0001, 0.0001], false, {'distanceFunction': 'cosine'})" \
" OFFSET 1000 LIMIT 500"
query_iterable = self.created_large_container.query_items(query=query)
result_list = [item async for item in query_iterable]
assert len(result_list) == 500
async def test_vector_query_cross_partition_response_hook_async(self):
# load up previously calculated embedding for the given string
vector_string = vector_test_data.get_embedding_string("I am having a wonderful day.")
query = "SELECT TOP 5 c.text, VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'cosine'}}) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}], false, {{'distanceFunction': " \
"'cosine'}})".format(vector_string, vector_string)
response_hook = test_config.ResponseHookCaller()
query_iterable = self.created_quantized_cosine_container.query_items(query=query,
response_hook=response_hook)
result_list = [item async for item in query_iterable]
assert len(result_list) == 5
assert response_hook.count == 2
async def test_vector_query_partitioned_response_hook_async(self):
# load up previously calculated embedding for the given string
vector_string = vector_test_data.get_embedding_string("I am having a wonderful day.")
query = "SELECT TOP 4 c.text, VectorDistance(c.embedding, [{}], false, {{'distanceFunction': 'cosine'}}) AS " \
"SimilarityScore FROM c ORDER BY VectorDistance(c.embedding, [{}], false, {{'distanceFunction': " \
"'cosine'}})".format(vector_string, vector_string)
response_hook = test_config.ResponseHookCaller()
query_iterable = self.created_quantized_cosine_container.query_items(query=query,
partition_key='1',
response_hook=response_hook)
result_list = [item async for item in query_iterable]
assert len(result_list) == 4
assert response_hook.count == 1
if __name__ == "__main__":
unittest.main()
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