import uuid import pytest import memgpt.utils as utils from memgpt.constants import BASE_TOOLS utils.DEBUG = True from memgpt.config import MemGPTConfig from memgpt.schemas.agent import CreateAgent from memgpt.schemas.memory import ChatMemory from memgpt.schemas.source import SourceCreate from memgpt.schemas.user import UserCreate from memgpt.server.server import SyncServer from .utils import DummyDataConnector @pytest.fixture(scope="module") def server(): # if os.getenv("OPENAI_API_KEY"): # create_config("openai") # credentials = MemGPTCredentials( # openai_key=os.getenv("OPENAI_API_KEY"), # ) # else: # hosted # create_config("memgpt_hosted") # credentials = MemGPTCredentials() config = MemGPTConfig.load() print("CONFIG PATH", config.config_path) ## set to use postgres # config.archival_storage_uri = db_url # config.recall_storage_uri = db_url # config.metadata_storage_uri = db_url # config.archival_storage_type = "postgres" # config.recall_storage_type = "postgres" # config.metadata_storage_type = "postgres" config.save() server = SyncServer() return server @pytest.fixture(scope="module") def user_id(server): # create user user = server.create_user(UserCreate(name="test_user")) print(f"Created user\n{user.id}") yield user.id # cleanup server.delete_user(user.id) @pytest.fixture(scope="module") def agent_id(server, user_id): # create agent agent_state = server.create_agent( request=CreateAgent(name="test_agent", tools=BASE_TOOLS, memory=ChatMemory(human="Sarah", persona="I am a helpful assistant")), user_id=user_id, ) print(f"Created agent\n{agent_state}") yield agent_state.id # cleanup server.delete_agent(user_id, agent_state.id) def test_error_on_nonexistent_agent(server, user_id, agent_id): try: fake_agent_id = uuid.uuid4() server.user_message(user_id=user_id, agent_id=fake_agent_id, message="Hello?") raise Exception("user_message call should have failed") except (KeyError, ValueError) as e: # Error is expected print(e) except: raise @pytest.mark.order(1) def test_user_message(server, user_id, agent_id): try: server.user_message(user_id=user_id, agent_id=agent_id, message="/memory") raise Exception("user_message call should have failed") except ValueError as e: # Error is expected print(e) except: raise server.run_command(user_id=user_id, agent_id=agent_id, command="/memory") @pytest.mark.order(3) def test_load_data(server, user_id, agent_id): # create source source = server.create_source(SourceCreate(name="test_source"), user_id=user_id) # load data archival_memories = [ "alpha", "Cinderella wore a blue dress", "Dog eat dog", "ZZZ", "Shishir loves indian food", ] connector = DummyDataConnector(archival_memories) server.load_data(user_id, connector, source.name) @pytest.mark.order(3) def test_attach_source_to_agent(server, user_id, agent_id): # check archival memory size passages_before = server.get_agent_archival(user_id=user_id, agent_id=agent_id, start=0, count=10000) assert len(passages_before) == 0 # attach source server.attach_source_to_agent(user_id=user_id, agent_id=agent_id, source_name="test_source") # check archival memory size passages_after = server.get_agent_archival(user_id=user_id, agent_id=agent_id, start=0, count=10000) assert len(passages_after) == 5 def test_save_archival_memory(server, user_id, agent_id): # TODO: insert into archival memory pass @pytest.mark.order(4) def test_user_message(server, user_id, agent_id): # add data into recall memory server.user_message(user_id=user_id, agent_id=agent_id, message="Hello?") # server.user_message(user_id=user_id, agent_id=agent_id, message="Hello?") # server.user_message(user_id=user_id, agent_id=agent_id, message="Hello?") # server.user_message(user_id=user_id, agent_id=agent_id, message="Hello?") # server.user_message(user_id=user_id, agent_id=agent_id, message="Hello?") @pytest.mark.order(5) def test_get_recall_memory(server, user_id, agent_id): # test recall memory cursor pagination messages_1 = server.get_agent_recall_cursor(user_id=user_id, agent_id=agent_id, limit=2) cursor1 = messages_1[-1].id messages_2 = server.get_agent_recall_cursor(user_id=user_id, agent_id=agent_id, after=cursor1, limit=1000) messages_2[-1].id messages_3 = server.get_agent_recall_cursor(user_id=user_id, agent_id=agent_id, limit=1000) messages_3[-1].id # [m["id"] for m in messages_3] # [m["id"] for m in messages_2] timestamps = [m.created_at for m in messages_3] print("timestamps", timestamps) assert messages_3[-1].created_at >= messages_3[0].created_at assert len(messages_3) == len(messages_1) + len(messages_2) messages_4 = server.get_agent_recall_cursor(user_id=user_id, agent_id=agent_id, reverse=True, before=cursor1) assert len(messages_4) == 1 # test in-context message ids all_messages = server.get_agent_messages(agent_id=agent_id, start=0, count=1000) in_context_ids = server.get_in_context_message_ids(agent_id=agent_id) # TODO: doesn't pass since recall memory also logs all system message changess # print("IN CONTEXT:", [m.text for m in server.get_in_context_messages(agent_id=agent_id)]) # print("ALL:", [m.text for m in all_messages]) # print() # for message in all_messages: # if message.id not in in_context_ids: # print("NOT IN CONTEXT:", message.id, message.created_at, message.text[-100:]) # print() # assert len(in_context_ids) == len(messages_3) message_ids = [m.id for m in messages_3] for message_id in in_context_ids: assert message_id in message_ids, f"{message_id} not in {message_ids}" # test recall memory messages_1 = server.get_agent_messages(agent_id=agent_id, start=0, count=1) assert len(messages_1) == 1 messages_2 = server.get_agent_messages(agent_id=agent_id, start=1, count=1000) messages_3 = server.get_agent_messages(agent_id=agent_id, start=1, count=2) # not sure exactly how many messages there should be assert len(messages_2) > len(messages_3) # test safe empty return messages_none = server.get_agent_messages(agent_id=agent_id, start=1000, count=1000) assert len(messages_none) == 0 @pytest.mark.order(6) def test_get_archival_memory(server, user_id, agent_id): # test archival memory cursor pagination passages_1 = server.get_agent_archival_cursor(user_id=user_id, agent_id=agent_id, reverse=False, limit=2, order_by="text") assert len(passages_1) == 2, f"Returned {[p.text for p in passages_1]}, not equal to 2" cursor1 = passages_1[-1].id passages_2 = server.get_agent_archival_cursor( user_id=user_id, agent_id=agent_id, reverse=False, after=cursor1, order_by="text", ) cursor2 = passages_2[-1].id passages_3 = server.get_agent_archival_cursor( user_id=user_id, agent_id=agent_id, reverse=False, before=cursor2, limit=1000, order_by="text", ) passages_3[-1].id assert passages_1[0].text == "Cinderella wore a blue dress" assert len(passages_2) in [3, 4] # NOTE: exact size seems non-deterministic, so loosen test assert len(passages_3) in [4, 5] # NOTE: exact size seems non-deterministic, so loosen test # test archival memory passage_1 = server.get_agent_archival(user_id=user_id, agent_id=agent_id, start=0, count=1) assert len(passage_1) == 1 passage_2 = server.get_agent_archival(user_id=user_id, agent_id=agent_id, start=1, count=1000) assert len(passage_2) in [4, 5] # NOTE: exact size seems non-deterministic, so loosen test # test safe empty return passage_none = server.get_agent_archival(user_id=user_id, agent_id=agent_id, start=1000, count=1000) assert len(passage_none) == 0