- import logging
-
- import pytest
- from autogen_core import (
- AgentId,
- AgentInstantiationContext,
- AgentType,
- DefaultTopicId,
- SingleThreadedAgentRuntime,
- TopicId,
- TypeSubscription,
- try_get_known_serializers_for_type,
- type_subscription,
- )
- from autogen_test_utils import (
- CascadingAgent,
- CascadingMessageType,
- LoopbackAgent,
- LoopbackAgentWithDefaultSubscription,
- MessageType,
- NoopAgent,
- )
- from autogen_test_utils.telemetry_test_utils import MyTestExporter, get_test_tracer_provider
- from opentelemetry.sdk.trace import TracerProvider
-
- test_exporter = MyTestExporter()
-
-
- @pytest.fixture
- def tracer_provider() -> TracerProvider:
- test_exporter.clear()
- return get_test_tracer_provider(test_exporter)
-
-
- @pytest.mark.asyncio
- async def test_agent_type_must_be_unique() -> None:
- runtime = SingleThreadedAgentRuntime()
-
- def agent_factory() -> NoopAgent:
- id = AgentInstantiationContext.current_agent_id()
- assert id == AgentId("name1", "default")
- agent = NoopAgent()
- assert agent.id == id
- return agent
-
- await NoopAgent.register(runtime, "name1", agent_factory)
-
- # await runtime.register_factory(type=AgentType("name1"), agent_factory=agent_factory, expected_class=NoopAgent)
-
- with pytest.raises(ValueError):
- await runtime.register_factory(type=AgentType("name1"), agent_factory=agent_factory, expected_class=NoopAgent)
-
- await runtime.register_factory(type=AgentType("name2"), agent_factory=agent_factory, expected_class=NoopAgent)
-
-
- @pytest.mark.asyncio
- async def test_register_receives_publish(tracer_provider: TracerProvider) -> None:
- runtime = SingleThreadedAgentRuntime(tracer_provider=tracer_provider)
-
- runtime.add_message_serializer(try_get_known_serializers_for_type(MessageType))
- await runtime.register_factory(
- type=AgentType("name"), agent_factory=lambda: LoopbackAgent(), expected_class=LoopbackAgent
- )
- await runtime.add_subscription(TypeSubscription("default", "name"))
-
- runtime.start()
- await runtime.publish_message(MessageType(), topic_id=TopicId("default", "default"))
- await runtime.stop_when_idle()
-
- # Agent in default namespace should have received the message
- long_running_agent = await runtime.try_get_underlying_agent_instance(AgentId("name", "default"), type=LoopbackAgent)
- assert long_running_agent.num_calls == 1
-
- # Agent in other namespace should not have received the message
- other_long_running_agent: LoopbackAgent = await runtime.try_get_underlying_agent_instance(
- AgentId("name", key="other"), type=LoopbackAgent
- )
- assert other_long_running_agent.num_calls == 0
-
- exported_spans = test_exporter.get_exported_spans()
- assert len(exported_spans) == 3
- span_names = [span.name for span in exported_spans]
- assert span_names == [
- "autogen create default.(default)-T",
- "autogen process name.(default)-A",
- "autogen publish default.(default)-T",
- ]
-
- await runtime.close()
-
-
- @pytest.mark.asyncio
- async def test_register_receives_publish_with_construction(caplog: pytest.LogCaptureFixture) -> None:
- runtime = SingleThreadedAgentRuntime()
-
- runtime.add_message_serializer(try_get_known_serializers_for_type(MessageType))
-
- async def agent_factory() -> LoopbackAgent:
- raise ValueError("test")
-
- await runtime.register_factory(type=AgentType("name"), agent_factory=agent_factory, expected_class=LoopbackAgent)
- await runtime.add_subscription(TypeSubscription("default", "name"))
-
- with caplog.at_level(logging.ERROR):
- runtime.start()
- await runtime.publish_message(MessageType(), topic_id=TopicId("default", "default"))
- await runtime.stop_when_idle()
-
- # Check if logger has the exception.
- assert any("Error constructing agent" in e.message for e in caplog.records)
-
- await runtime.close()
-
-
- @pytest.mark.asyncio
- async def test_register_receives_publish_cascade() -> None:
- num_agents = 5
- num_initial_messages = 5
- max_rounds = 5
- total_num_calls_expected = 0
- for i in range(0, max_rounds):
- total_num_calls_expected += num_initial_messages * ((num_agents - 1) ** i)
-
- runtime = SingleThreadedAgentRuntime()
-
- # Register agents
- for i in range(num_agents):
- await CascadingAgent.register(runtime, f"name{i}", lambda: CascadingAgent(max_rounds))
-
- runtime.start()
-
- # Publish messages
- for _ in range(num_initial_messages):
- await runtime.publish_message(CascadingMessageType(round=1), DefaultTopicId())
-
- # Process until idle.
- await runtime.stop_when_idle()
-
- # Check that each agent received the correct number of messages.
- for i in range(num_agents):
- agent = await runtime.try_get_underlying_agent_instance(AgentId(f"name{i}", "default"), CascadingAgent)
- assert agent.num_calls == total_num_calls_expected
-
- await runtime.close()
-
-
- @pytest.mark.asyncio
- async def test_register_factory_explicit_name() -> None:
- runtime = SingleThreadedAgentRuntime()
-
- await LoopbackAgent.register(runtime, "name", LoopbackAgent)
- await runtime.add_subscription(TypeSubscription("default", "name"))
-
- runtime.start()
- agent_id = AgentId("name", key="default")
- topic_id = TopicId("default", "default")
- await runtime.publish_message(MessageType(), topic_id=topic_id)
-
- await runtime.stop_when_idle()
-
- # Agent in default namespace should have received the message
- long_running_agent = await runtime.try_get_underlying_agent_instance(agent_id, type=LoopbackAgent)
- assert long_running_agent.num_calls == 1
-
- # Agent in other namespace should not have received the message
- other_long_running_agent: LoopbackAgent = await runtime.try_get_underlying_agent_instance(
- AgentId("name", key="other"), type=LoopbackAgent
- )
- assert other_long_running_agent.num_calls == 0
-
- await runtime.close()
-
-
- @pytest.mark.asyncio
- async def test_default_subscription() -> None:
- runtime = SingleThreadedAgentRuntime()
- runtime.start()
-
- await LoopbackAgentWithDefaultSubscription.register(runtime, "name", LoopbackAgentWithDefaultSubscription)
-
- agent_id = AgentId("name", key="default")
- await runtime.publish_message(MessageType(), topic_id=DefaultTopicId())
-
- await runtime.stop_when_idle()
-
- long_running_agent = await runtime.try_get_underlying_agent_instance(
- agent_id, type=LoopbackAgentWithDefaultSubscription
- )
- assert long_running_agent.num_calls == 1
-
- other_long_running_agent = await runtime.try_get_underlying_agent_instance(
- AgentId("name", key="other"), type=LoopbackAgentWithDefaultSubscription
- )
- assert other_long_running_agent.num_calls == 0
-
- await runtime.close()
-
-
- @pytest.mark.asyncio
- async def test_type_subscription() -> None:
- runtime = SingleThreadedAgentRuntime()
- runtime.start()
-
- @type_subscription(topic_type="Other")
- class LoopbackAgentWithSubscription(LoopbackAgent): ...
-
- await LoopbackAgentWithSubscription.register(runtime, "name", LoopbackAgentWithSubscription)
-
- agent_id = AgentId("name", key="default")
- await runtime.publish_message(MessageType(), topic_id=TopicId("Other", "default"))
- await runtime.stop_when_idle()
-
- long_running_agent = await runtime.try_get_underlying_agent_instance(agent_id, type=LoopbackAgentWithSubscription)
- assert long_running_agent.num_calls == 1
-
- other_long_running_agent = await runtime.try_get_underlying_agent_instance(
- AgentId("name", key="other"), type=LoopbackAgentWithSubscription
- )
- assert other_long_running_agent.num_calls == 0
-
- await runtime.close()
-
-
- @pytest.mark.asyncio
- async def test_default_subscription_publish_to_other_source() -> None:
- runtime = SingleThreadedAgentRuntime()
- runtime.start()
-
- await LoopbackAgentWithDefaultSubscription.register(runtime, "name", LoopbackAgentWithDefaultSubscription)
-
- agent_id = AgentId("name", key="default")
- await runtime.publish_message(MessageType(), topic_id=DefaultTopicId(source="other"))
- await runtime.stop_when_idle()
-
- long_running_agent = await runtime.try_get_underlying_agent_instance(
- agent_id, type=LoopbackAgentWithDefaultSubscription
- )
- assert long_running_agent.num_calls == 0
-
- other_long_running_agent = await runtime.try_get_underlying_agent_instance(
- AgentId("name", key="other"), type=LoopbackAgentWithDefaultSubscription
- )
- assert other_long_running_agent.num_calls == 1
-
- await runtime.close()
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