import warnings from datetime import timedelta from typing import Any, List, Optional, Dict, Union import gc import logging from pathlib import Path import os import re from functools import wraps from unittest.mock import patch import requests_cache import responses import posthog import numpy as np import pytest from haystack import Answer, BaseComponent, __version__ as haystack_version from haystack.document_stores import ( BaseDocumentStore, InMemoryDocumentStore, ElasticsearchDocumentStore, WeaviateDocumentStore, PineconeDocumentStore, OpenSearchDocumentStore, FAISSDocumentStore, ) from haystack.nodes import ( BaseReader, BaseRetriever, BaseGenerator, BaseSummarizer, BaseTranslator, DenseRetriever, FilterRetriever, BM25Retriever, TfidfRetriever, DensePassageRetriever, EmbeddingRetriever, MultihopEmbeddingRetriever, TableTextRetriever, FARMReader, TransformersReader, TableReader, RCIReader, QuestionGenerator, PromptTemplate, ) from haystack.nodes.prompt import PromptNode from haystack.schema import Document, FilterType from .mocks import pinecone as pinecone_mock # To manually run the tests with default PostgreSQL instead of SQLite, switch the lines below SQL_TYPE = "sqlite" DC_API_ENDPOINT = "https://DC_API/v1" DC_TEST_INDEX = "document_retrieval_1" DC_API_KEY = "NO_KEY" MOCK_DC = True # Set metadata fields used during testing for PineconeDocumentStore meta_config META_FIELDS = [ "meta_field", "name", "date_field", "numeric_field", "f1", "f3", "meta_id", "meta_field_for_count", "meta_key_1", "meta_key_2", ] # Disable telemetry reports when running tests posthog.disabled = True # Disable caching from prompthub to avoid polluting the local environment. os.environ["PROMPTHUB_CACHE_ENABLED"] = "false" # Cache requests (e.g. huggingface model) to circumvent load protection # See https://requests-cache.readthedocs.io/en/stable/user_guide/filtering.html requests_cache.install_cache(urls_expire_after={"huggingface.co": timedelta(hours=1), "*": requests_cache.DO_NOT_CACHE}) def fail_at_version(target_major, target_minor): """ Reminder to remove deprecated features. If you're using this fixture please open an issue in the repo to keep track of the deprecated feature that must be removed. After opening the issue assign it to the target version milestone, if the milestone doesn't exist either create it or notify someone that has permissions to do so. This way will be assured that the feature is actually removed for that release. This will fail tests if the current major and/or minor version is equal or greater of target_major and/or target_minor. If the current version has `rc0` set the test won't fail but only issue a warning, this is done because we use `rc0` to mark the development version in `main`. If we wouldn't do this tests would continuosly fail in main. ```python from ..conftest import fail_at_version @fail_at_version(1, 10) # Will fail once Haystack version is greater than or equal to 1.10 def test_test(): assert True ``` """ def decorator(function): (current_major, current_minor) = [int(num) for num in haystack_version.split(".")[:2]] current_rc = int(haystack_version.split("rc")[1]) if "rc" in haystack_version else -1 @wraps(function) def wrapper(*args, **kwargs): if current_major > target_major or (current_major == target_major and current_minor >= target_minor): message = f"This feature is marked for removal in v{target_major}.{target_minor}" if current_rc == 0: warnings.warn(message) else: pytest.fail(reason=message) return_value = function(*args, **kwargs) return return_value return wrapper return decorator def pytest_collection_modifyitems(config, items): # add pytest markers for tests that are not explicitly marked but include some keywords name_to_markers = { "generator": [pytest.mark.generator], "summarizer": [pytest.mark.summarizer], "tika": [pytest.mark.tika, pytest.mark.integration], "parsr": [pytest.mark.parsr, pytest.mark.integration], "ocr": [pytest.mark.ocr, pytest.mark.integration], "elasticsearch": [pytest.mark.elasticsearch], "faiss": [pytest.mark.faiss], "weaviate": [pytest.mark.weaviate], "pinecone": [pytest.mark.pinecone], } for item in items: for name, markers in name_to_markers.items(): if name in item.nodeid.lower(): for marker in markers: item.add_marker(marker) # if the cli argument "--document_store_type" is used, we want to skip all tests that have markers of other docstores # Example: pytest -v test_document_store.py --document_store_type="memory" => skip all tests marked with "elasticsearch" document_store_types_to_run = config.getoption("--document_store_type") document_store_types_to_run = [docstore.strip() for docstore in document_store_types_to_run.split(",")] keywords = [] for i in item.keywords: if "-" in i: keywords.extend(i.split("-")) else: keywords.append(i) required_doc_store = infer_required_doc_store(item, keywords) if required_doc_store and required_doc_store not in document_store_types_to_run: skip_docstore = pytest.mark.skip( reason=f'{required_doc_store} is disabled. Enable via pytest --document_store_type="{required_doc_store}"' ) item.add_marker(skip_docstore) def infer_required_doc_store(item, keywords): # assumption: a test runs only with one document_store # if there are multiple docstore markers, we apply the following heuristics: # 1. if the test was parameterized, we use the the parameter # 2. if the test name contains the docstore name, we use that # 3. use an arbitrary one by calling set.pop() required_doc_store = None all_doc_stores = {"elasticsearch", "faiss", "sql", "memory", "weaviate", "pinecone"} docstore_markers = set(keywords).intersection(all_doc_stores) if len(docstore_markers) > 1: # if parameterized infer the docstore from the parameter if hasattr(item, "callspec"): for doc_store in all_doc_stores: # callspec.id contains the parameter values of the test if re.search(f"(^|-){doc_store}($|[-_])", item.callspec.id): required_doc_store = doc_store break # if still not found, infer the docstore from the test name if required_doc_store is None: for doc_store in all_doc_stores: if doc_store in item.name: required_doc_store = doc_store break # if still not found or there is only one, use an arbitrary one from the markers if required_doc_store is None: required_doc_store = docstore_markers.pop() if docstore_markers else None return required_doc_store # # Empty mocks, as a base for unit tests. # # Monkeypatch the methods you need with either a mock implementation # or a unittest.mock.MagicMock object (https://docs.python.org/3/library/unittest.mock.html) # class MockNode(BaseComponent): outgoing_edges = 1 def run(self, *a, **k): pass def run_batch(self, *a, **k): pass class MockDocumentStore(BaseDocumentStore): outgoing_edges = 1 def _create_document_field_map(self, *a, **k): pass def delete_documents(self, *a, **k): pass def delete_labels(self, *a, **k): pass def get_all_documents(self, *a, **k): pass def get_all_documents_generator(self, *a, **k): pass def get_all_labels(self, *a, **k): pass def get_document_by_id(self, *a, **k): pass def get_document_count(self, *a, **k): pass def get_documents_by_id(self, *a, **k): pass def get_label_count(self, *a, **k): pass def query_by_embedding(self, *a, **k): pass def write_documents(self, *a, **k): pass def write_labels(self, *a, **k): pass def delete_index(self, *a, **k): pass def update_document_meta(self, *a, **kw): pass class MockRetriever(BaseRetriever): outgoing_edges = 1 def retrieve( self, query: str, filters: Optional[FilterType] = None, top_k: Optional[int] = None, index: Optional[str] = None, headers: Optional[Dict[str, str]] = None, scale_score: Optional[bool] = None, document_store: Optional[BaseDocumentStore] = None, ) -> List[Document]: return [] def retrieve_batch( self, queries: List[str], filters: Optional[Union[FilterType, List[Optional[FilterType]]]] = None, top_k: Optional[int] = None, index: Optional[str] = None, headers: Optional[Dict[str, str]] = None, batch_size: Optional[int] = None, scale_score: Optional[bool] = None, document_store: Optional[BaseDocumentStore] = None, ) -> List[List[Document]]: return [[]] class MockBaseRetriever(MockRetriever): def __init__(self, document_store: BaseDocumentStore, mock_document: Document): self.document_store = document_store self.mock_document = mock_document def retrieve( self, query: str, filters: dict, top_k: Optional[int], index: str, headers: Optional[Dict[str, str]], scale_score: bool, ): return [self.mock_document] def retrieve_batch( self, queries: List[str], filters: Optional[Union[FilterType, List[Optional[FilterType]]]] = None, top_k: Optional[int] = None, index: str = None, headers: Optional[Dict[str, str]] = None, batch_size: Optional[int] = None, scale_score: bool = None, ): return [[self.mock_document] for _ in range(len(queries))] def embed_documents(self, documents: List[Document]): return np.full((len(documents), 768), 0.5) class MockSeq2SegGenerator(BaseGenerator): def predict(self, query: str, documents: List[Document], top_k: Optional[int], max_tokens: Optional[int]) -> Dict: pass class MockSummarizer(BaseSummarizer): def predict_batch( self, documents: Union[List[Document], List[List[Document]]], batch_size: Optional[int] = None ) -> Union[List[Document], List[List[Document]]]: pass def predict(self, documents: List[Document]) -> List[Document]: pass class MockTranslator(BaseTranslator): def translate( self, results: List[Dict[str, Any]] = None, query: Optional[str] = None, documents: Optional[Union[List[Document], List[Answer], List[str], List[Dict[str, Any]]]] = None, dict_key: Optional[str] = None, ) -> Union[str, List[Document], List[Answer], List[str], List[Dict[str, Any]]]: pass def translate_batch( self, queries: Optional[List[str]] = None, documents: Optional[Union[List[Document], List[Answer], List[List[Document]], List[List[Answer]]]] = None, batch_size: Optional[int] = None, ) -> List[Union[str, List[Document], List[Answer], List[str], List[Dict[str, Any]]]]: pass class MockDenseRetriever(MockRetriever, DenseRetriever): def __init__(self, document_store: BaseDocumentStore, embedding_dim: int = 768): self.embedding_dim = embedding_dim self.document_store = document_store def embed_queries(self, queries): return np.random.rand(len(queries), self.embedding_dim) def embed_documents(self, documents): return np.random.rand(len(documents), self.embedding_dim) class MockQuestionGenerator(QuestionGenerator): def __init__(self): pass def predict(self, query: str, documents: List[Document], top_k: Optional[int]) -> Dict: pass class MockReader(BaseReader): outgoing_edges = 1 def predict(self, query: str, documents: List[Document], top_k: Optional[int] = None): pass def predict_batch(self, query_doc_list: List[dict], top_k: Optional[int] = None, batch_size: Optional[int] = None): pass class MockPromptNode(PromptNode): def __init__(self): self.default_prompt_template = None self.model_name_or_path = "" def prompt(self, prompt_template: Optional[Union[str, PromptTemplate]], *args, **kwargs) -> List[str]: return [""] def get_prompt_template(self, prompt_template: Union[str, PromptTemplate, None]) -> Optional[PromptTemplate]: if prompt_template == "think-step-by-step": p = PromptTemplate( "You are a helpful and knowledgeable agent. To achieve your goal of answering complex questions " "correctly, you have access to the following tools:\n\n" "{tool_names_with_descriptions}\n\n" "To answer questions, you'll need to go through multiple steps involving step-by-step thinking and " "selecting appropriate tools and their inputs; tools will respond with observations. When you are ready " "for a final answer, respond with the `Final Answer:`\n\n" "Use the following format:\n\n" "Question: the question to be answered\n" "Thought: Reason if you have the final answer. If yes, answer the question. If not, find out the missing information needed to answer it.\n" "Tool: [{tool_names}]\n" "Tool Input: the input for the tool\n" "Observation: the tool will respond with the result\n" "...\n" "Final Answer: the final answer to the question, make it short (1-5 words)\n\n" "Thought, Tool, Tool Input, and Observation steps can be repeated multiple times, but sometimes we can find an answer in the first pass\n" "---\n\n" "Question: {query}\n" "Thought: Let's think step-by-step, I first need to {generated_text}" ) p.name = "think-step-by-step" else: return PromptTemplate("test prompt") @pytest.fixture def test_rootdir() -> Path: return Path(__file__).parent.absolute() # # Document collections # @pytest.fixture def docs_all_formats() -> List[Union[Document, Dict[str, Any]]]: return [ # metafield at the top level for backward compatibility { "content": "My name is Paul and I live in New York", "meta_field": "test2", "name": "filename2", "date_field": "2019-10-01", "numeric_field": 5.0, }, # "dict" format { "content": "My name is Carla and I live in Berlin", "meta": {"meta_field": "test1", "name": "filename1", "date_field": "2020-03-01", "numeric_field": 5.5}, }, # Document object Document( content="My name is Christelle and I live in Paris", meta={"meta_field": "test3", "name": "filename3", "date_field": "2018-10-01", "numeric_field": 4.5}, ), Document( content="My name is Camila and I live in Madrid", meta={"meta_field": "test4", "name": "filename4", "date_field": "2021-02-01", "numeric_field": 3.0}, ), Document( content="My name is Matteo and I live in Rome", meta={"meta_field": "test5", "name": "filename5", "date_field": "2019-01-01", "numeric_field": 0.0}, ), ] @pytest.fixture def docs(docs_all_formats) -> List[Document]: return [Document.from_dict(doc) if isinstance(doc, dict) else doc for doc in docs_all_formats] @pytest.fixture(autouse=True) def gc_cleanup(request): """ Run garbage collector between tests in order to reduce memory footprint for CI. """ yield gc.collect() @pytest.fixture def deepset_cloud_fixture(): if MOCK_DC: responses.add( method=responses.GET, url=f"{DC_API_ENDPOINT}/workspaces/default/indexes/{DC_TEST_INDEX}", match=[responses.matchers.header_matcher({"authorization": f"Bearer {DC_API_KEY}"})], json={"indexing": {"status": "INDEXED", "pending_file_count": 0, "total_file_count": 31}}, status=200, ) responses.add( method=responses.GET, url=f"{DC_API_ENDPOINT}/workspaces/default/pipelines", match=[responses.matchers.header_matcher({"authorization": f"Bearer {DC_API_KEY}"})], json={ "data": [ { "name": DC_TEST_INDEX, "status": "DEPLOYED", "indexing": {"status": "INDEXED", "pending_file_count": 0, "total_file_count": 31}, } ], "has_more": False, "total": 1, }, ) else: responses.add_passthru(DC_API_ENDPOINT) @pytest.fixture def question_generator(): return QuestionGenerator(model_name_or_path="valhalla/t5-small-e2e-qg") @pytest.fixture(params=["farm", "transformers"], scope="module") def reader(request): if request.param == "farm": return FARMReader( model_name_or_path="deepset/bert-medium-squad2-distilled", use_gpu=False, top_k_per_sample=5, num_processes=0, ) if request.param == "transformers": return TransformersReader( model_name_or_path="deepset/bert-medium-squad2-distilled", tokenizer="deepset/bert-medium-squad2-distilled", use_gpu=-1, ) @pytest.fixture(params=["tapas_small", "tapas_base", "tapas_scored", "rci"]) def table_reader_and_param(request): if request.param == "tapas_small": return TableReader(model_name_or_path="google/tapas-small-finetuned-wtq", return_table_cell=True), request.param elif request.param == "tapas_base": return TableReader(model_name_or_path="google/tapas-base-finetuned-wtq", return_table_cell=True), request.param elif request.param == "tapas_scored": return TableReader(model_name_or_path="deepset/tapas-large-nq-hn-reader", return_table_cell=True), request.param elif request.param == "rci": return ( RCIReader( row_model_name_or_path="michaelrglass/albert-base-rci-wikisql-row", column_model_name_or_path="michaelrglass/albert-base-rci-wikisql-col", return_table_cell=True, ), request.param, ) @pytest.fixture(params=["es_filter_only", "bm25", "dpr", "embedding", "tfidf", "table_text_retriever"]) def retriever(request, document_store): return get_retriever(request.param, document_store) # @pytest.fixture(params=["es_filter_only", "elasticsearch", "dpr", "embedding", "tfidf"]) @pytest.fixture(params=["tfidf"]) def retriever_with_docs(request, document_store_with_docs): return get_retriever(request.param, document_store_with_docs) def get_retriever(retriever_type, document_store): if retriever_type == "dpr": retriever = DensePassageRetriever( document_store=document_store, query_embedding_model="facebook/dpr-question_encoder-single-nq-base", passage_embedding_model="facebook/dpr-ctx_encoder-single-nq-base", use_gpu=False, embed_title=True, ) elif retriever_type == "mdr": retriever = MultihopEmbeddingRetriever( document_store=document_store, embedding_model="deutschmann/mdr_roberta_q_encoder", # or "facebook/dpr-ctx_encoder-single-nq-base" use_gpu=False, ) elif retriever_type == "tfidf": retriever = TfidfRetriever(document_store=document_store) elif retriever_type == "embedding": retriever = EmbeddingRetriever( document_store=document_store, embedding_model="deepset/sentence_bert", use_gpu=False ) elif retriever_type == "embedding_sbert": retriever = EmbeddingRetriever( document_store=document_store, embedding_model="sentence-transformers/msmarco-distilbert-base-tas-b", model_format="sentence_transformers", use_gpu=False, ) elif retriever_type == "retribert": retriever = EmbeddingRetriever( document_store=document_store, embedding_model="yjernite/retribert-base-uncased", use_gpu=False ) elif retriever_type == "openai": retriever = EmbeddingRetriever( document_store=document_store, embedding_model="text-embedding-ada-002", use_gpu=False, api_key=os.getenv("OPENAI_API_KEY"), ) elif retriever_type == "azure": retriever = EmbeddingRetriever( document_store=document_store, embedding_model="text-embedding-ada-002", use_gpu=False, api_key=os.getenv("AZURE_OPENAI_API_KEY"), azure_base_url=os.getenv("AZURE_OPENAI_BASE_URL"), azure_deployment_name=os.getenv("AZURE_OPENAI_DEPLOYMENT_NAME_EMBED"), ) elif retriever_type == "cohere": retriever = EmbeddingRetriever( document_store=document_store, embedding_model="small", use_gpu=False, api_key=os.environ.get("COHERE_API_KEY", ""), ) elif retriever_type == "dpr_lfqa": retriever = DensePassageRetriever( document_store=document_store, query_embedding_model="vblagoje/dpr-question_encoder-single-lfqa-wiki", passage_embedding_model="vblagoje/dpr-ctx_encoder-single-lfqa-wiki", use_gpu=False, embed_title=True, ) elif retriever_type == "bm25": retriever = BM25Retriever(document_store=document_store) elif retriever_type == "es_filter_only": retriever = FilterRetriever(document_store=document_store) elif retriever_type == "table_text_retriever": retriever = TableTextRetriever( document_store=document_store, query_embedding_model="deepset/bert-small-mm_retrieval-question_encoder", passage_embedding_model="deepset/bert-small-mm_retrieval-passage_encoder", table_embedding_model="deepset/bert-small-mm_retrieval-table_encoder", use_gpu=False, ) else: raise Exception(f"No retriever fixture for '{retriever_type}'") return retriever # FIXME Fix this in the docstore tests refactoring from inspect import getmembers, isclass, isfunction def mock_pinecone(monkeypatch): for fname, function in getmembers(pinecone_mock, isfunction): monkeypatch.setattr(f"pinecone.{fname}", function, raising=False) for cname, class_ in getmembers(pinecone_mock, isclass): monkeypatch.setattr(f"pinecone.{cname}", class_, raising=False) @pytest.fixture(params=["elasticsearch", "faiss", "memory", "weaviate", "pinecone"]) def document_store_with_docs(request, docs, tmp_path, monkeypatch): if request.param == "pinecone": mock_pinecone(monkeypatch) embedding_dim = request.node.get_closest_marker("embedding_dim", pytest.mark.embedding_dim(768)) document_store = get_document_store( document_store_type=request.param, embedding_dim=embedding_dim.args[0], tmp_path=tmp_path ) document_store.write_documents(docs) yield document_store document_store.delete_index(document_store.index) @pytest.fixture def document_store(request, tmp_path, monkeypatch: pytest.MonkeyPatch): if request.param == "pinecone": mock_pinecone(monkeypatch) embedding_dim = request.node.get_closest_marker("embedding_dim", pytest.mark.embedding_dim(768)) document_store = get_document_store( document_store_type=request.param, embedding_dim=embedding_dim.args[0], tmp_path=tmp_path ) yield document_store document_store.delete_index(document_store.index) def get_sql_url(tmp_path): if SQL_TYPE == "postgres": return "postgresql://postgres:postgres@127.0.0.1/postgres" else: return f"sqlite:///{tmp_path}/haystack_test.db" # TODO: Verify this is still necessary as it's called by no one def setup_postgres(): # status = subprocess.run(["docker run --name postgres_test -d -e POSTGRES_HOST_AUTH_METHOD=trust -p 5432:5432 postgres"], shell=True) # if status.returncode: # logging.warning("Tried to start PostgreSQL through Docker but this failed. It is likely that there is already an existing instance running.") # else: # sleep(5) from sqlalchemy import create_engine, text engine = create_engine("postgresql://postgres:postgres@127.0.0.1/postgres", isolation_level="AUTOCOMMIT") with engine.connect() as connection: try: connection.execute(text("DROP SCHEMA IF EXISTS public CASCADE")) except Exception as e: logging.error(e) connection.execute(text("CREATE SCHEMA public;")) connection.execute(text('SET SESSION idle_in_transaction_session_timeout = "1s";')) # TODO: Verify this is still necessary as it's called by no one def teardown_postgres(): from sqlalchemy import create_engine, text engine = create_engine("postgresql://postgres:postgres@127.0.0.1/postgres", isolation_level="AUTOCOMMIT") with engine.connect() as connection: connection.execute(text("DROP SCHEMA public CASCADE")) connection.close() def get_document_store( document_store_type, tmp_path, embedding_dim=768, embedding_field="embedding", index="haystack_test", similarity: str = "cosine", recreate_index: bool = True, ): # cosine is default similarity as dot product is not supported by Weaviate document_store: BaseDocumentStore if document_store_type == "memory": document_store = InMemoryDocumentStore( return_embedding=True, embedding_dim=embedding_dim, embedding_field=embedding_field, index=index, similarity=similarity, use_bm25=True, bm25_parameters={"k1": 1.2, "b": 0.75}, # parameters similar to those of Elasticsearch ) elif document_store_type == "elasticsearch": # make sure we start from a fresh index document_store = ElasticsearchDocumentStore( index=index, return_embedding=True, embedding_dim=embedding_dim, embedding_field=embedding_field, similarity=similarity, recreate_index=recreate_index, ) elif document_store_type == "faiss": document_store = FAISSDocumentStore( embedding_dim=embedding_dim, sql_url=get_sql_url(tmp_path), return_embedding=True, embedding_field=embedding_field, index=index, similarity=similarity, isolation_level="AUTOCOMMIT", ) elif document_store_type == "weaviate": document_store = WeaviateDocumentStore( index=index, similarity=similarity, embedding_dim=embedding_dim, recreate_index=recreate_index ) elif document_store_type == "pinecone": document_store = PineconeDocumentStore( api_key=os.environ.get("PINECONE_API_KEY") or "fake-haystack-test-key", embedding_dim=embedding_dim, embedding_field=embedding_field, index=index, similarity=similarity, recreate_index=recreate_index, metadata_config={"indexed": META_FIELDS}, ) elif document_store_type == "opensearch_faiss": document_store = OpenSearchDocumentStore( index=index, return_embedding=True, embedding_dim=embedding_dim, embedding_field=embedding_field, similarity=similarity, recreate_index=recreate_index, port=9201, knn_engine="faiss", ) else: raise Exception(f"No document store fixture for '{document_store_type}'") return document_store @pytest.fixture def haystack_azure_conf(): api_key = os.environ.get("AZURE_OPENAI_API_KEY", None) azure_base_url = os.environ.get("AZURE_OPENAI_BASE_URL", None) azure_deployment_name = os.environ.get("AZURE_OPENAI_DEPLOYMENT_NAME", None) if api_key and azure_base_url and azure_deployment_name: return {"api_key": api_key, "azure_base_url": azure_base_url, "azure_deployment_name": azure_deployment_name} else: return {} @pytest.fixture def haystack_openai_config(request, haystack_azure_conf): if request.param == "openai": api_key = os.environ.get("OPENAI_API_KEY", None) if not api_key: return {} else: return {"api_key": api_key, "embedding_model": "text-embedding-ada-002"} elif request.param == "azure": return haystack_azure_conf return {} @pytest.fixture def samples_path(): return Path(__file__).parent / "samples" @pytest.fixture def preview_samples_path(): return Path(__file__).parent / "preview" / "test_files" @pytest.fixture(autouse=True) def request_blocker(request: pytest.FixtureRequest, monkeypatch): """ This fixture is applied automatically to all tests. Those that are marked as unit will have the requests module monkeypatched to avoid making HTTP requests by mistake. """ marker = request.node.get_closest_marker("unit") if marker is None: return def urlopen_mock(self, method, url, *args, **kwargs): raise RuntimeError(f"The test was about to {method} {self.scheme}://{self.host}{url}") monkeypatch.setattr("urllib3.connectionpool.HTTPConnectionPool.urlopen", urlopen_mock) @pytest.fixture def mock_auto_tokenizer(): with patch("transformers.AutoTokenizer.from_pretrained", autospec=True) as mock_from_pretrained: yield mock_from_pretrained