|
- import asyncio
- import json
- import logging
- import tempfile
- from typing import AsyncGenerator, List, Sequence
-
- import pytest
- import pytest_asyncio
- from autogen_agentchat import EVENT_LOGGER_NAME
- from autogen_agentchat.agents import (
- AssistantAgent,
- BaseChatAgent,
- CodeExecutorAgent,
- )
- from autogen_agentchat.base import Handoff, Response, TaskResult
- from autogen_agentchat.conditions import HandoffTermination, MaxMessageTermination, TextMentionTermination
- from autogen_agentchat.messages import (
- AgentEvent,
- ChatMessage,
- HandoffMessage,
- MultiModalMessage,
- StopMessage,
- StructuredMessage,
- TextMessage,
- ToolCallExecutionEvent,
- ToolCallRequestEvent,
- ToolCallSummaryMessage,
- )
- from autogen_agentchat.teams import MagenticOneGroupChat, RoundRobinGroupChat, SelectorGroupChat, Swarm
- from autogen_agentchat.teams._group_chat._round_robin_group_chat import RoundRobinGroupChatManager
- from autogen_agentchat.teams._group_chat._selector_group_chat import SelectorGroupChatManager
- from autogen_agentchat.teams._group_chat._swarm_group_chat import SwarmGroupChatManager
- from autogen_agentchat.ui import Console
- from autogen_core import AgentId, AgentRuntime, CancellationToken, FunctionCall, SingleThreadedAgentRuntime
- from autogen_core.models import (
- AssistantMessage,
- CreateResult,
- FunctionExecutionResult,
- FunctionExecutionResultMessage,
- LLMMessage,
- RequestUsage,
- UserMessage,
- )
- from autogen_core.tools import FunctionTool
- from autogen_ext.code_executors.local import LocalCommandLineCodeExecutor
- from autogen_ext.models.openai import OpenAIChatCompletionClient
- from autogen_ext.models.replay import ReplayChatCompletionClient
- from pydantic import BaseModel
- from utils import FileLogHandler
-
- logger = logging.getLogger(EVENT_LOGGER_NAME)
- logger.setLevel(logging.DEBUG)
- logger.addHandler(FileLogHandler("test_group_chat.log"))
-
-
- class _EchoAgent(BaseChatAgent):
- def __init__(self, name: str, description: str) -> None:
- super().__init__(name, description)
- self._last_message: str | None = None
- self._total_messages = 0
-
- @property
- def produced_message_types(self) -> Sequence[type[ChatMessage]]:
- return (TextMessage,)
-
- @property
- def total_messages(self) -> int:
- return self._total_messages
-
- async def on_messages(self, messages: Sequence[ChatMessage], cancellation_token: CancellationToken) -> Response:
- if len(messages) > 0:
- assert isinstance(messages[0], TextMessage)
- self._last_message = messages[0].content
- self._total_messages += 1
- return Response(chat_message=TextMessage(content=messages[0].content, source=self.name))
- else:
- assert self._last_message is not None
- self._total_messages += 1
- return Response(chat_message=TextMessage(content=self._last_message, source=self.name))
-
- async def on_reset(self, cancellation_token: CancellationToken) -> None:
- self._last_message = None
-
-
- class _FlakyAgent(BaseChatAgent):
- def __init__(self, name: str, description: str) -> None:
- super().__init__(name, description)
- self._last_message: str | None = None
- self._total_messages = 0
-
- @property
- def produced_message_types(self) -> Sequence[type[ChatMessage]]:
- return (TextMessage,)
-
- @property
- def total_messages(self) -> int:
- return self._total_messages
-
- async def on_messages(self, messages: Sequence[ChatMessage], cancellation_token: CancellationToken) -> Response:
- raise ValueError("I am a flaky agent...")
-
- async def on_reset(self, cancellation_token: CancellationToken) -> None:
- self._last_message = None
-
-
- class _UnknownMessageType(ChatMessage):
- content: str
-
- def to_model_message(self) -> UserMessage:
- raise NotImplementedError("This message type is not supported.")
-
- def to_model_text(self) -> str:
- raise NotImplementedError("This message type is not supported.")
-
- def to_text(self) -> str:
- raise NotImplementedError("This message type is not supported.")
-
-
- class _UnknownMessageTypeAgent(BaseChatAgent):
- def __init__(self, name: str, description: str) -> None:
- super().__init__(name, description)
-
- @property
- def produced_message_types(self) -> Sequence[type[ChatMessage]]:
- return (_UnknownMessageType,)
-
- async def on_messages(self, messages: Sequence[ChatMessage], cancellation_token: CancellationToken) -> Response:
- return Response(chat_message=_UnknownMessageType(content="Unknown message type", source=self.name))
-
- async def on_reset(self, cancellation_token: CancellationToken) -> None:
- pass
-
-
- class _StopAgent(_EchoAgent):
- def __init__(self, name: str, description: str, *, stop_at: int = 1) -> None:
- super().__init__(name, description)
- self._count = 0
- self._stop_at = stop_at
-
- @property
- def produced_message_types(self) -> Sequence[type[ChatMessage]]:
- return (TextMessage, StopMessage)
-
- async def on_messages(self, messages: Sequence[ChatMessage], cancellation_token: CancellationToken) -> Response:
- self._count += 1
- if self._count < self._stop_at:
- return await super().on_messages(messages, cancellation_token)
- return Response(chat_message=StopMessage(content="TERMINATE", source=self.name))
-
-
- def _pass_function(input: str) -> str:
- return "pass"
-
-
- class _InputTask1(BaseModel):
- task: str
- data: List[str]
-
-
- class _InputTask2(BaseModel):
- task: str
- data: str
-
-
- TaskType = str | List[ChatMessage] | ChatMessage
-
-
- @pytest_asyncio.fixture(params=["single_threaded", "embedded"]) # type: ignore
- async def runtime(request: pytest.FixtureRequest) -> AsyncGenerator[AgentRuntime | None, None]:
- if request.param == "single_threaded":
- runtime = SingleThreadedAgentRuntime()
- runtime.start()
- yield runtime
- await runtime.stop()
- elif request.param == "embedded":
- yield None
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- [
- 'Here is the program\n ```python\nprint("Hello, world!")\n```',
- "TERMINATE",
- ],
- )
- with tempfile.TemporaryDirectory() as temp_dir:
- code_executor_agent = CodeExecutorAgent(
- "code_executor", code_executor=LocalCommandLineCodeExecutor(work_dir=temp_dir)
- )
- coding_assistant_agent = AssistantAgent(
- "coding_assistant",
- model_client=model_client,
- )
- termination = TextMentionTermination("TERMINATE")
- team = RoundRobinGroupChat(
- participants=[coding_assistant_agent, code_executor_agent],
- termination_condition=termination,
- runtime=runtime,
- )
- result = await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
- expected_messages = [
- "Write a program that prints 'Hello, world!'",
- 'Here is the program\n ```python\nprint("Hello, world!")\n```',
- "Hello, world!",
- "TERMINATE",
- ]
- for i in range(len(expected_messages)):
- produced_message = result.messages[i]
- assert isinstance(produced_message, TextMessage)
- content = produced_message.content.replace("\r\n", "\n").rstrip("\n")
- assert content == expected_messages[i]
-
- assert result.stop_reason is not None and result.stop_reason == "Text 'TERMINATE' mentioned"
-
- # Test streaming.
- model_client.reset()
- index = 0
- await team.reset()
- async for message in team.run_stream(
- task="Write a program that prints 'Hello, world!'",
- ):
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test message input.
- # Text message.
- model_client.reset()
- index = 0
- await team.reset()
- result_2 = await team.run(
- task=TextMessage(content="Write a program that prints 'Hello, world!'", source="user")
- )
- assert result == result_2
-
- # Test multi-modal message.
- model_client.reset()
- index = 0
- await team.reset()
- task = MultiModalMessage(content=["Write a program that prints 'Hello, world!'"], source="user")
- result_2 = await team.run(task=task)
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result_2.messages[0], MultiModalMessage)
- assert result.messages[0].content == task.content[0]
- assert result.messages[1:] == result_2.messages[1:]
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_unknown_task_message_type(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient([])
- agent1 = AssistantAgent("agent1", model_client=model_client)
- agent2 = AssistantAgent("agent2", model_client=model_client)
- termination = TextMentionTermination("TERMINATE")
- team1 = RoundRobinGroupChat(
- participants=[agent1, agent2],
- termination_condition=termination,
- runtime=runtime,
- custom_message_types=[StructuredMessage[_InputTask2]],
- )
- with pytest.raises(ValueError, match=r"Message type .*StructuredMessage\[_InputTask1\].* is not registered"):
- await team1.run(
- task=StructuredMessage[_InputTask1](
- content=_InputTask1(task="Write a program that prints 'Hello, world!'", data=["a", "b", "c"]),
- source="user",
- )
- )
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_unknown_agent_message_type() -> None:
- model_client = ReplayChatCompletionClient(["Hello"])
- agent1 = AssistantAgent("agent1", model_client=model_client)
- agent2 = _UnknownMessageTypeAgent("agent2", "I am an unknown message type agent")
- termination = TextMentionTermination("TERMINATE")
- team1 = RoundRobinGroupChat(participants=[agent1, agent2], termination_condition=termination)
- with pytest.raises(ValueError, match="Message type .*UnknownMessageType.* not registered"):
- await team1.run(task=TextMessage(content="Write a program that prints 'Hello, world!'", source="user"))
-
-
- @pytest.mark.asyncio
- @pytest.mark.parametrize(
- "task",
- [
- "Write a program that prints 'Hello, world!'",
- [TextMessage(content="Write a program that prints 'Hello, world!'", source="user")],
- [MultiModalMessage(content=["Write a program that prints 'Hello, world!'"], source="user")],
- [
- StructuredMessage[_InputTask1](
- content=_InputTask1(task="Write a program that prints 'Hello, world!'", data=["a", "b", "c"]),
- source="user",
- ),
- StructuredMessage[_InputTask2](
- content=_InputTask2(task="Write a program that prints 'Hello, world!'", data="a"), source="user"
- ),
- ],
- ],
- ids=["text", "text_message", "multi_modal_message", "structured_message"],
- )
- async def test_round_robin_group_chat_state(task: TaskType, runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- ["No facts", "No plan", "print('Hello, world!')", "TERMINATE"],
- )
- agent1 = AssistantAgent("agent1", model_client=model_client)
- agent2 = AssistantAgent("agent2", model_client=model_client)
- termination = TextMentionTermination("TERMINATE")
- team1 = RoundRobinGroupChat(
- participants=[agent1, agent2],
- termination_condition=termination,
- runtime=runtime,
- custom_message_types=[StructuredMessage[_InputTask1], StructuredMessage[_InputTask2]],
- )
- await team1.run(task=task)
- state = await team1.save_state()
-
- agent3 = AssistantAgent("agent1", model_client=model_client)
- agent4 = AssistantAgent("agent2", model_client=model_client)
- team2 = RoundRobinGroupChat(
- participants=[agent3, agent4],
- termination_condition=termination,
- runtime=runtime,
- custom_message_types=[StructuredMessage[_InputTask1], StructuredMessage[_InputTask2]],
- )
- await team2.load_state(state)
- state2 = await team2.save_state()
- assert state == state2
-
- agent1_model_ctx_messages = await agent1._model_context.get_messages() # pyright: ignore
- agent2_model_ctx_messages = await agent2._model_context.get_messages() # pyright: ignore
- agent3_model_ctx_messages = await agent3._model_context.get_messages() # pyright: ignore
- agent4_model_ctx_messages = await agent4._model_context.get_messages() # pyright: ignore
- assert agent3_model_ctx_messages == agent1_model_ctx_messages
- assert agent4_model_ctx_messages == agent2_model_ctx_messages
- manager_1 = await team1._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team1._group_chat_manager_name}_{team1._team_id}", team1._team_id), # pyright: ignore
- RoundRobinGroupChatManager, # pyright: ignore
- ) # pyright: ignore
- manager_2 = await team2._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team2._group_chat_manager_name}_{team2._team_id}", team2._team_id), # pyright: ignore
- RoundRobinGroupChatManager, # pyright: ignore
- ) # pyright: ignore
- assert manager_1._current_turn == manager_2._current_turn # pyright: ignore
- assert manager_1._message_thread == manager_2._message_thread # pyright: ignore
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_with_tools(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- chat_completions=[
- CreateResult(
- finish_reason="function_calls",
- content=[FunctionCall(id="1", name="pass", arguments=json.dumps({"input": "pass"}))],
- usage=RequestUsage(prompt_tokens=0, completion_tokens=0),
- cached=False,
- ),
- "Hello",
- "TERMINATE",
- ],
- model_info={
- "family": "gpt-4o",
- "function_calling": True,
- "json_output": True,
- "vision": True,
- "structured_output": True,
- },
- )
- tool = FunctionTool(_pass_function, name="pass", description="pass function")
- tool_use_agent = AssistantAgent("tool_use_agent", model_client=model_client, tools=[tool])
- echo_agent = _EchoAgent("echo_agent", description="echo agent")
- termination = TextMentionTermination("TERMINATE")
- team = RoundRobinGroupChat(
- participants=[tool_use_agent, echo_agent], termination_condition=termination, runtime=runtime
- )
- result = await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
- assert len(result.messages) == 8
- assert isinstance(result.messages[0], TextMessage) # task
- assert isinstance(result.messages[1], ToolCallRequestEvent) # tool call
- assert isinstance(result.messages[2], ToolCallExecutionEvent) # tool call result
- assert isinstance(result.messages[3], ToolCallSummaryMessage) # tool use agent response
- assert result.messages[3].content == "pass" # ensure the tool call was executed
- assert isinstance(result.messages[4], TextMessage) # echo agent response
- assert isinstance(result.messages[5], TextMessage) # tool use agent response
- assert isinstance(result.messages[6], TextMessage) # echo agent response
- assert isinstance(result.messages[7], TextMessage) # tool use agent response, that has TERMINATE
- assert result.messages[7].content == "TERMINATE"
-
- assert result.stop_reason is not None and result.stop_reason == "Text 'TERMINATE' mentioned"
-
- # Test streaming.
- await tool_use_agent._model_context.clear() # pyright: ignore
- model_client.reset()
- index = 0
- await team.reset()
- async for message in team.run_stream(
- task="Write a program that prints 'Hello, world!'",
- ):
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test Console.
- await tool_use_agent._model_context.clear() # pyright: ignore
- model_client.reset()
- index = 0
- await team.reset()
- result2 = await Console(team.run_stream(task="Write a program that prints 'Hello, world!'"))
- assert result2 == result
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_with_resume_and_reset(runtime: AgentRuntime | None) -> None:
- agent_1 = _EchoAgent("agent_1", description="echo agent 1")
- agent_2 = _EchoAgent("agent_2", description="echo agent 2")
- agent_3 = _EchoAgent("agent_3", description="echo agent 3")
- agent_4 = _EchoAgent("agent_4", description="echo agent 4")
- termination = MaxMessageTermination(3)
- team = RoundRobinGroupChat(
- participants=[agent_1, agent_2, agent_3, agent_4], termination_condition=termination, runtime=runtime
- )
- result = await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
- assert len(result.messages) == 3
- assert result.messages[1].source == "agent_1"
- assert result.messages[2].source == "agent_2"
- assert result.stop_reason is not None
-
- # Resume.
- result = await team.run()
- assert len(result.messages) == 3
- assert result.messages[0].source == "agent_3"
- assert result.messages[1].source == "agent_4"
- assert result.messages[2].source == "agent_1"
- assert result.stop_reason is not None
-
- # Reset.
- await team.reset()
- result = await team.run(task="Write a program that prints 'Hello, world!'")
- assert len(result.messages) == 3
- assert result.messages[1].source == "agent_1"
- assert result.messages[2].source == "agent_2"
- assert result.stop_reason is not None
-
-
- # TODO: add runtime fixture for testing with custom runtime once the issue regarding
- # hanging on exception is resolved.
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_with_exception_raised() -> None:
- agent_1 = _EchoAgent("agent_1", description="echo agent 1")
- agent_2 = _FlakyAgent("agent_2", description="echo agent 2")
- agent_3 = _EchoAgent("agent_3", description="echo agent 3")
- termination = MaxMessageTermination(3)
- team = RoundRobinGroupChat(
- participants=[agent_1, agent_2, agent_3],
- termination_condition=termination,
- )
-
- with pytest.raises(ValueError, match="I am a flaky agent..."):
- await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_max_turn(runtime: AgentRuntime | None) -> None:
- agent_1 = _EchoAgent("agent_1", description="echo agent 1")
- agent_2 = _EchoAgent("agent_2", description="echo agent 2")
- agent_3 = _EchoAgent("agent_3", description="echo agent 3")
- agent_4 = _EchoAgent("agent_4", description="echo agent 4")
- team = RoundRobinGroupChat(participants=[agent_1, agent_2, agent_3, agent_4], max_turns=3, runtime=runtime)
- result = await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
- assert len(result.messages) == 4
- assert result.messages[1].source == "agent_1"
- assert result.messages[2].source == "agent_2"
- assert result.messages[3].source == "agent_3"
- assert result.stop_reason is not None
-
- # Resume.
- result = await team.run()
- assert len(result.messages) == 3
- assert result.messages[0].source == "agent_4"
- assert result.messages[1].source == "agent_1"
- assert result.messages[2].source == "agent_2"
- assert result.stop_reason is not None
-
- # Reset.
- await team.reset()
- result = await team.run(task="Write a program that prints 'Hello, world!'")
- assert len(result.messages) == 4
- assert result.messages[1].source == "agent_1"
- assert result.messages[2].source == "agent_2"
- assert result.messages[3].source == "agent_3"
- assert result.stop_reason is not None
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_cancellation(runtime: AgentRuntime | None) -> None:
- agent_1 = _EchoAgent("agent_1", description="echo agent 1")
- agent_2 = _EchoAgent("agent_2", description="echo agent 2")
- agent_3 = _EchoAgent("agent_3", description="echo agent 3")
- agent_4 = _EchoAgent("agent_4", description="echo agent 4")
- # Set max_turns to a large number to avoid stopping due to max_turns before cancellation.
- team = RoundRobinGroupChat(participants=[agent_1, agent_2, agent_3, agent_4], max_turns=1000, runtime=runtime)
- cancellation_token = CancellationToken()
- run_task = asyncio.create_task(
- team.run(
- task="Write a program that prints 'Hello, world!'",
- cancellation_token=cancellation_token,
- )
- )
- await asyncio.sleep(0.1)
- # Cancel the task.
- cancellation_token.cancel()
- with pytest.raises(asyncio.CancelledError):
- await run_task
-
- # Still can run again and finish the task.
- result = await team.run()
- assert result.stop_reason is not None and result.stop_reason == "Maximum number of turns 1000 reached."
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- chat_completions=[
- "agent3",
- "agent2",
- "agent1",
- "agent2",
- "agent1",
- ]
- )
- agent1 = _StopAgent("agent1", description="echo agent 1", stop_at=2)
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- agent3 = _EchoAgent("agent3", description="echo agent 3")
- termination = TextMentionTermination("TERMINATE")
- team = SelectorGroupChat(
- participants=[agent1, agent2, agent3],
- model_client=model_client,
- termination_condition=termination,
- runtime=runtime,
- )
- result = await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
- assert len(result.messages) == 6
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "Write a program that prints 'Hello, world!'"
- assert result.messages[1].source == "agent3"
- assert result.messages[2].source == "agent2"
- assert result.messages[3].source == "agent1"
- assert result.messages[4].source == "agent2"
- assert result.messages[5].source == "agent1"
- assert result.stop_reason is not None and result.stop_reason == "Text 'TERMINATE' mentioned"
-
- # Test streaming.
- model_client.reset()
- agent1._count = 0 # pyright: ignore
- index = 0
- await team.reset()
- async for message in team.run_stream(
- task="Write a program that prints 'Hello, world!'",
- ):
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test Console.
- model_client.reset()
- agent1._count = 0 # pyright: ignore
- index = 0
- await team.reset()
- result2 = await Console(team.run_stream(task="Write a program that prints 'Hello, world!'"))
- assert result2 == result
-
-
- @pytest.mark.asyncio
- @pytest.mark.parametrize(
- "task",
- [
- "Write a program that prints 'Hello, world!'",
- [TextMessage(content="Write a program that prints 'Hello, world!'", source="user")],
- [MultiModalMessage(content=["Write a program that prints 'Hello, world!'"], source="user")],
- [
- StructuredMessage[_InputTask1](
- content=_InputTask1(task="Write a program that prints 'Hello, world!'", data=["a", "b", "c"]),
- source="user",
- ),
- StructuredMessage[_InputTask2](
- content=_InputTask2(task="Write a program that prints 'Hello, world!'", data="a"), source="user"
- ),
- ],
- ],
- ids=["text", "text_message", "multi_modal_message", "structured_message"],
- )
- async def test_selector_group_chat_state(task: TaskType, runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- ["agent1", "No facts", "agent2", "No plan", "agent1", "print('Hello, world!')", "agent2", "TERMINATE"],
- )
- agent1 = AssistantAgent("agent1", model_client=model_client)
- agent2 = AssistantAgent("agent2", model_client=model_client)
- termination = TextMentionTermination("TERMINATE")
- team1 = SelectorGroupChat(
- participants=[agent1, agent2],
- termination_condition=termination,
- model_client=model_client,
- runtime=runtime,
- custom_message_types=[StructuredMessage[_InputTask1], StructuredMessage[_InputTask2]],
- )
- await team1.run(task=task)
- state = await team1.save_state()
-
- agent3 = AssistantAgent("agent1", model_client=model_client)
- agent4 = AssistantAgent("agent2", model_client=model_client)
- team2 = SelectorGroupChat(
- participants=[agent3, agent4],
- termination_condition=termination,
- model_client=model_client,
- custom_message_types=[StructuredMessage[_InputTask1], StructuredMessage[_InputTask2]],
- )
- await team2.load_state(state)
- state2 = await team2.save_state()
- assert state == state2
-
- agent1_model_ctx_messages = await agent1._model_context.get_messages() # pyright: ignore
- agent2_model_ctx_messages = await agent2._model_context.get_messages() # pyright: ignore
- agent3_model_ctx_messages = await agent3._model_context.get_messages() # pyright: ignore
- agent4_model_ctx_messages = await agent4._model_context.get_messages() # pyright: ignore
- assert agent3_model_ctx_messages == agent1_model_ctx_messages
- assert agent4_model_ctx_messages == agent2_model_ctx_messages
- manager_1 = await team1._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team1._group_chat_manager_name}_{team1._team_id}", team1._team_id), # pyright: ignore
- SelectorGroupChatManager, # pyright: ignore
- ) # pyright: ignore
- manager_2 = await team2._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team2._group_chat_manager_name}_{team2._team_id}", team2._team_id), # pyright: ignore
- SelectorGroupChatManager, # pyright: ignore
- ) # pyright: ignore
- assert manager_1._message_thread == manager_2._message_thread # pyright: ignore
- assert manager_1._previous_speaker == manager_2._previous_speaker # pyright: ignore
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_two_speakers(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(["agent2"])
-
- agent1 = _StopAgent("agent1", description="echo agent 1", stop_at=2)
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- termination = TextMentionTermination("TERMINATE")
- team = SelectorGroupChat(
- participants=[agent1, agent2],
- termination_condition=termination,
- model_client=model_client,
- runtime=runtime,
- )
- result = await team.run(
- task="Write a program that prints 'Hello, world!'",
- )
- assert len(result.messages) == 5
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "Write a program that prints 'Hello, world!'"
- assert result.messages[1].source == "agent2"
- assert result.messages[2].source == "agent1"
- assert result.messages[3].source == "agent2"
- assert result.messages[4].source == "agent1"
- assert result.stop_reason is not None and result.stop_reason == "Text 'TERMINATE' mentioned"
-
- # Test streaming.
- model_client.reset()
- agent1._count = 0 # pyright: ignore
- index = 0
- await team.reset()
- async for message in team.run_stream(task="Write a program that prints 'Hello, world!'"):
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test Console.
- model_client.reset()
- agent1._count = 0 # pyright: ignore
- index = 0
- await team.reset()
- result2 = await Console(team.run_stream(task="Write a program that prints 'Hello, world!'"))
- assert result2 == result
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_two_speakers_allow_repeated(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- [
- "agent2",
- "agent2",
- "agent1",
- ]
- )
- agent1 = _StopAgent("agent1", description="echo agent 1", stop_at=1)
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- termination = TextMentionTermination("TERMINATE")
- team = SelectorGroupChat(
- participants=[agent1, agent2],
- model_client=model_client,
- termination_condition=termination,
- allow_repeated_speaker=True,
- runtime=runtime,
- )
- result = await team.run(task="Write a program that prints 'Hello, world!'")
- assert len(result.messages) == 4
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "Write a program that prints 'Hello, world!'"
- assert result.messages[1].source == "agent2"
- assert result.messages[2].source == "agent2"
- assert result.messages[3].source == "agent1"
- assert result.stop_reason is not None and result.stop_reason == "Text 'TERMINATE' mentioned"
-
- # Test streaming.
- model_client.reset()
- index = 0
- await team.reset()
- async for message in team.run_stream(task="Write a program that prints 'Hello, world!'"):
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test Console.
- model_client.reset()
- index = 0
- await team.reset()
- result2 = await Console(team.run_stream(task="Write a program that prints 'Hello, world!'"))
- assert result2 == result
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_succcess_after_2_attempts(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- ["agent2, agent3", "agent2"],
- )
- agent1 = _StopAgent("agent1", description="echo agent 1", stop_at=1)
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- agent3 = _EchoAgent("agent3", description="echo agent 3")
- team = SelectorGroupChat(
- participants=[agent1, agent2, agent3],
- model_client=model_client,
- max_turns=1,
- runtime=runtime,
- )
- result = await team.run(task="Write a program that prints 'Hello, world!'")
- assert len(result.messages) == 2
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "Write a program that prints 'Hello, world!'"
- assert result.messages[1].source == "agent2"
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_fall_back_to_first_after_3_attempts(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- [
- "agent2, agent3", # Multiple speakers
- "agent5", # Non-existent speaker
- "agent3, agent1", # Multiple speakers
- ]
- )
- agent1 = _StopAgent("agent1", description="echo agent 1", stop_at=1)
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- agent3 = _EchoAgent("agent3", description="echo agent 3")
- team = SelectorGroupChat(
- participants=[agent1, agent2, agent3],
- model_client=model_client,
- max_turns=1,
- runtime=runtime,
- )
- result = await team.run(task="Write a program that prints 'Hello, world!'")
- assert len(result.messages) == 2
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "Write a program that prints 'Hello, world!'"
- assert result.messages[1].source == "agent1"
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_fall_back_to_previous_after_3_attempts(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- ["agent2", "agent2", "agent2", "agent2"],
- )
- agent1 = _StopAgent("agent1", description="echo agent 1", stop_at=1)
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- agent3 = _EchoAgent("agent3", description="echo agent 3")
- team = SelectorGroupChat(
- participants=[agent1, agent2, agent3],
- model_client=model_client,
- max_turns=2,
- runtime=runtime,
- )
- result = await team.run(task="Write a program that prints 'Hello, world!'")
- assert len(result.messages) == 3
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "Write a program that prints 'Hello, world!'"
- assert result.messages[1].source == "agent2"
- assert result.messages[2].source == "agent2"
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_custom_selector(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(["agent3"])
- agent1 = _EchoAgent("agent1", description="echo agent 1")
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- agent3 = _EchoAgent("agent3", description="echo agent 3")
- agent4 = _EchoAgent("agent4", description="echo agent 4")
-
- def _select_agent(messages: Sequence[AgentEvent | ChatMessage]) -> str | None:
- if len(messages) == 0:
- return "agent1"
- elif messages[-1].source == "agent1":
- return "agent2"
- elif messages[-1].source == "agent2":
- return None
- elif messages[-1].source == "agent3":
- return "agent4"
- else:
- return "agent1"
-
- termination = MaxMessageTermination(6)
- team = SelectorGroupChat(
- participants=[agent1, agent2, agent3, agent4],
- model_client=model_client,
- selector_func=_select_agent,
- termination_condition=termination,
- runtime=runtime,
- )
- result = await team.run(task="task")
- assert len(result.messages) == 6
- assert result.messages[1].source == "agent1"
- assert result.messages[2].source == "agent2"
- assert result.messages[3].source == "agent3"
- assert result.messages[4].source == "agent4"
- assert result.messages[5].source == "agent1"
- assert (
- result.stop_reason is not None
- and result.stop_reason == "Maximum number of messages 6 reached, current message count: 6"
- )
-
-
- @pytest.mark.asyncio
- async def test_selector_group_chat_custom_candidate_func(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(["agent3"])
- agent1 = _EchoAgent("agent1", description="echo agent 1")
- agent2 = _EchoAgent("agent2", description="echo agent 2")
- agent3 = _EchoAgent("agent3", description="echo agent 3")
- agent4 = _EchoAgent("agent4", description="echo agent 4")
-
- def _candidate_func(messages: Sequence[AgentEvent | ChatMessage]) -> List[str]:
- if len(messages) == 0:
- return ["agent1"]
- elif messages[-1].source == "agent1":
- return ["agent2"]
- elif messages[-1].source == "agent2":
- return ["agent2", "agent3"] # will generate agent3
- elif messages[-1].source == "agent3":
- return ["agent4"]
- else:
- return ["agent1"]
-
- termination = MaxMessageTermination(6)
- team = SelectorGroupChat(
- participants=[agent1, agent2, agent3, agent4],
- model_client=model_client,
- candidate_func=_candidate_func,
- termination_condition=termination,
- runtime=runtime,
- )
- result = await team.run(task="task")
- assert len(result.messages) == 6
- assert result.messages[1].source == "agent1"
- assert result.messages[2].source == "agent2"
- assert result.messages[3].source == "agent3"
- assert result.messages[4].source == "agent4"
- assert result.messages[5].source == "agent1"
- assert (
- result.stop_reason is not None
- and result.stop_reason == "Maximum number of messages 6 reached, current message count: 6"
- )
-
-
- class _HandOffAgent(BaseChatAgent):
- def __init__(self, name: str, description: str, next_agent: str) -> None:
- super().__init__(name, description)
- self._next_agent = next_agent
-
- @property
- def produced_message_types(self) -> Sequence[type[ChatMessage]]:
- return (HandoffMessage,)
-
- async def on_messages(self, messages: Sequence[ChatMessage], cancellation_token: CancellationToken) -> Response:
- return Response(
- chat_message=HandoffMessage(
- content=f"Transferred to {self._next_agent}.", target=self._next_agent, source=self.name
- )
- )
-
- async def on_reset(self, cancellation_token: CancellationToken) -> None:
- pass
-
-
- @pytest.mark.asyncio
- async def test_swarm_handoff(runtime: AgentRuntime | None) -> None:
- first_agent = _HandOffAgent("first_agent", description="first agent", next_agent="second_agent")
- second_agent = _HandOffAgent("second_agent", description="second agent", next_agent="third_agent")
- third_agent = _HandOffAgent("third_agent", description="third agent", next_agent="first_agent")
-
- termination = MaxMessageTermination(6)
- team = Swarm([second_agent, first_agent, third_agent], termination_condition=termination, runtime=runtime)
- result = await team.run(task="task")
- assert len(result.messages) == 6
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert isinstance(result.messages[2], HandoffMessage)
- assert isinstance(result.messages[3], HandoffMessage)
- assert isinstance(result.messages[4], HandoffMessage)
- assert isinstance(result.messages[5], HandoffMessage)
- assert result.messages[0].content == "task"
- assert result.messages[1].content == "Transferred to third_agent."
- assert result.messages[2].content == "Transferred to first_agent."
- assert result.messages[3].content == "Transferred to second_agent."
- assert result.messages[4].content == "Transferred to third_agent."
- assert result.messages[5].content == "Transferred to first_agent."
- assert (
- result.stop_reason is not None
- and result.stop_reason == "Maximum number of messages 6 reached, current message count: 6"
- )
-
- # Test streaming.
- index = 0
- await team.reset()
- stream = team.run_stream(task="task")
- async for message in stream:
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test save and load.
- state = await team.save_state()
- first_agent2 = _HandOffAgent("first_agent", description="first agent", next_agent="second_agent")
- second_agent2 = _HandOffAgent("second_agent", description="second agent", next_agent="third_agent")
- third_agent2 = _HandOffAgent("third_agent", description="third agent", next_agent="first_agent")
- team2 = Swarm([second_agent2, first_agent2, third_agent2], termination_condition=termination, runtime=runtime)
- await team2.load_state(state)
- state2 = await team2.save_state()
- assert state == state2
- manager_1 = await team._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team._group_chat_manager_name}_{team._team_id}", team._team_id), # pyright: ignore
- SwarmGroupChatManager, # pyright: ignore
- ) # pyright: ignore
- manager_2 = await team2._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team2._group_chat_manager_name}_{team2._team_id}", team2._team_id), # pyright: ignore
- SwarmGroupChatManager, # pyright: ignore
- ) # pyright: ignore
- assert manager_1._message_thread == manager_2._message_thread # pyright: ignore
- assert manager_1._current_speaker == manager_2._current_speaker # pyright: ignore
-
-
- @pytest.mark.asyncio
- @pytest.mark.parametrize(
- "task",
- [
- "Write a program that prints 'Hello, world!'",
- [TextMessage(content="Write a program that prints 'Hello, world!'", source="user")],
- [MultiModalMessage(content=["Write a program that prints 'Hello, world!'"], source="user")],
- [
- StructuredMessage[_InputTask1](
- content=_InputTask1(task="Write a program that prints 'Hello, world!'", data=["a", "b", "c"]),
- source="user",
- ),
- StructuredMessage[_InputTask2](
- content=_InputTask2(task="Write a program that prints 'Hello, world!'", data="a"), source="user"
- ),
- ],
- ],
- ids=["text", "text_message", "multi_modal_message", "structured_message"],
- )
- async def test_swarm_handoff_state(task: TaskType, runtime: AgentRuntime | None) -> None:
- first_agent = _HandOffAgent("first_agent", description="first agent", next_agent="second_agent")
- second_agent = _HandOffAgent("second_agent", description="second agent", next_agent="third_agent")
- third_agent = _HandOffAgent("third_agent", description="third agent", next_agent="first_agent")
-
- termination = MaxMessageTermination(6)
- team1 = Swarm(
- [second_agent, first_agent, third_agent],
- termination_condition=termination,
- runtime=runtime,
- custom_message_types=[StructuredMessage[_InputTask1], StructuredMessage[_InputTask2]],
- )
- await team1.run(task=task)
- state = await team1.save_state()
-
- first_agent2 = _HandOffAgent("first_agent", description="first agent", next_agent="second_agent")
- second_agent2 = _HandOffAgent("second_agent", description="second agent", next_agent="third_agent")
- third_agent2 = _HandOffAgent("third_agent", description="third agent", next_agent="first_agent")
- team2 = Swarm(
- [second_agent2, first_agent2, third_agent2],
- termination_condition=termination,
- runtime=runtime,
- custom_message_types=[StructuredMessage[_InputTask1], StructuredMessage[_InputTask2]],
- )
- await team2.load_state(state)
- state2 = await team2.save_state()
- assert state == state2
-
- manager_1 = await team1._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team1._group_chat_manager_name}_{team1._team_id}", team1._team_id), # pyright: ignore
- SwarmGroupChatManager, # pyright: ignore
- )
- manager_2 = await team2._runtime.try_get_underlying_agent_instance( # pyright: ignore
- AgentId(f"{team2._group_chat_manager_name}_{team2._team_id}", team2._team_id), # pyright: ignore
- SwarmGroupChatManager, # pyright: ignore
- )
- assert manager_1._message_thread == manager_2._message_thread # pyright: ignore
- assert manager_1._current_speaker == manager_2._current_speaker # pyright: ignore
-
-
- @pytest.mark.asyncio
- async def test_swarm_handoff_using_tool_calls(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- chat_completions=[
- CreateResult(
- finish_reason="function_calls",
- content=[FunctionCall(id="1", name="handoff_to_agent2", arguments=json.dumps({}))],
- usage=RequestUsage(prompt_tokens=0, completion_tokens=0),
- cached=False,
- ),
- "Hello",
- "TERMINATE",
- ],
- model_info={
- "family": "gpt-4o",
- "function_calling": True,
- "json_output": True,
- "vision": True,
- "structured_output": True,
- },
- )
- agent1 = AssistantAgent(
- "agent1",
- model_client=model_client,
- handoffs=[Handoff(target="agent2", name="handoff_to_agent2", message="handoff to agent2")],
- )
- agent2 = _HandOffAgent("agent2", description="agent 2", next_agent="agent1")
- termination = TextMentionTermination("TERMINATE")
- team = Swarm([agent1, agent2], termination_condition=termination, runtime=runtime)
- result = await team.run(task="task")
- assert len(result.messages) == 7
- assert isinstance(result.messages[0], TextMessage)
- assert result.messages[0].content == "task"
- assert isinstance(result.messages[1], ToolCallRequestEvent)
- assert isinstance(result.messages[2], ToolCallExecutionEvent)
- assert isinstance(result.messages[3], HandoffMessage)
- assert isinstance(result.messages[4], HandoffMessage)
- assert isinstance(result.messages[5], TextMessage)
- assert isinstance(result.messages[6], TextMessage)
- assert result.messages[3].content == "handoff to agent2"
- assert result.messages[4].content == "Transferred to agent1."
- assert result.messages[5].content == "Hello"
- assert result.messages[6].content == "TERMINATE"
- assert result.stop_reason is not None and result.stop_reason == "Text 'TERMINATE' mentioned"
-
- # Test streaming.
- await agent1._model_context.clear() # pyright: ignore
- model_client.reset()
- index = 0
- await team.reset()
- stream = team.run_stream(task="task")
- async for message in stream:
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test Console
- await agent1._model_context.clear() # pyright: ignore
- model_client.reset()
- index = 0
- await team.reset()
- result2 = await Console(team.run_stream(task="task"))
- assert result2 == result
-
-
- @pytest.mark.asyncio
- async def test_swarm_pause_and_resume(runtime: AgentRuntime | None) -> None:
- first_agent = _HandOffAgent("first_agent", description="first agent", next_agent="second_agent")
- second_agent = _HandOffAgent("second_agent", description="second agent", next_agent="third_agent")
- third_agent = _HandOffAgent("third_agent", description="third agent", next_agent="first_agent")
-
- team = Swarm([second_agent, first_agent, third_agent], max_turns=1, runtime=runtime)
- result = await team.run(task="task")
- assert len(result.messages) == 2
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert result.messages[0].content == "task"
- assert result.messages[1].content == "Transferred to third_agent."
-
- # Resume with a new task.
- result = await team.run(task="new task")
- assert len(result.messages) == 2
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert result.messages[0].content == "new task"
- assert result.messages[1].content == "Transferred to first_agent."
-
- # Resume with the same task.
- result = await team.run()
- assert len(result.messages) == 1
- assert isinstance(result.messages[0], HandoffMessage)
- assert result.messages[0].content == "Transferred to second_agent."
-
-
- @pytest.mark.asyncio
- async def test_swarm_with_parallel_tool_calls(runtime: AgentRuntime | None) -> None:
- model_client = ReplayChatCompletionClient(
- [
- CreateResult(
- finish_reason="function_calls",
- content=[
- FunctionCall(id="1", name="tool1", arguments="{}"),
- FunctionCall(id="2", name="tool2", arguments="{}"),
- FunctionCall(id="3", name="handoff_to_agent2", arguments=json.dumps({})),
- ],
- usage=RequestUsage(prompt_tokens=0, completion_tokens=0),
- cached=False,
- ),
- "Hello",
- "TERMINATE",
- ],
- model_info={
- "family": "gpt-4o",
- "function_calling": True,
- "json_output": True,
- "vision": True,
- "structured_output": True,
- },
- )
-
- expected_handoff_context: List[LLMMessage] = [
- AssistantMessage(
- source="agent1",
- content=[
- FunctionCall(id="1", name="tool1", arguments="{}"),
- FunctionCall(id="2", name="tool2", arguments="{}"),
- ],
- ),
- FunctionExecutionResultMessage(
- content=[
- FunctionExecutionResult(content="tool1", call_id="1", is_error=False, name="tool1"),
- FunctionExecutionResult(content="tool2", call_id="2", is_error=False, name="tool2"),
- ]
- ),
- ]
-
- def tool1() -> str:
- return "tool1"
-
- def tool2() -> str:
- return "tool2"
-
- agent1 = AssistantAgent(
- "agent1",
- model_client=model_client,
- handoffs=[Handoff(target="agent2", name="handoff_to_agent2", message="handoff to agent2")],
- tools=[tool1, tool2],
- )
- agent2 = AssistantAgent(
- "agent2",
- model_client=model_client,
- )
- termination = TextMentionTermination("TERMINATE")
- team = Swarm([agent1, agent2], termination_condition=termination, runtime=runtime)
- result = await team.run(task="task")
- assert len(result.messages) == 6
- assert result.messages[0] == TextMessage(content="task", source="user")
- assert isinstance(result.messages[1], ToolCallRequestEvent)
- assert isinstance(result.messages[2], ToolCallExecutionEvent)
- assert result.messages[3] == HandoffMessage(
- content="handoff to agent2",
- target="agent2",
- source="agent1",
- context=expected_handoff_context,
- )
- assert isinstance(result.messages[4], TextMessage)
- assert result.messages[4].content == "Hello"
- assert result.messages[4].source == "agent2"
- assert isinstance(result.messages[5], TextMessage)
- assert result.messages[5].content == "TERMINATE"
- assert result.messages[5].source == "agent2"
-
- # Verify the tool calls are in agent2's context.
- agent2_model_ctx_messages = await agent2._model_context.get_messages() # pyright: ignore
- assert agent2_model_ctx_messages[0] == UserMessage(content="task", source="user")
- assert agent2_model_ctx_messages[1] == expected_handoff_context[0]
- assert agent2_model_ctx_messages[2] == expected_handoff_context[1]
-
-
- @pytest.mark.asyncio
- async def test_swarm_with_handoff_termination(runtime: AgentRuntime | None) -> None:
- first_agent = _HandOffAgent("first_agent", description="first agent", next_agent="second_agent")
- second_agent = _HandOffAgent("second_agent", description="second agent", next_agent="third_agent")
- third_agent = _HandOffAgent("third_agent", description="third agent", next_agent="first_agent")
-
- # Handoff to an existing agent.
- termination = HandoffTermination(target="third_agent")
- team = Swarm([second_agent, first_agent, third_agent], termination_condition=termination, runtime=runtime)
- # Start
- result = await team.run(task="task")
- assert len(result.messages) == 2
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert result.messages[0].content == "task"
- assert result.messages[1].content == "Transferred to third_agent."
- # Resume existing.
- result = await team.run()
- assert len(result.messages) == 3
- assert isinstance(result.messages[0], HandoffMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert isinstance(result.messages[2], HandoffMessage)
- assert result.messages[0].content == "Transferred to first_agent."
- assert result.messages[1].content == "Transferred to second_agent."
- assert result.messages[2].content == "Transferred to third_agent."
- # Resume new task.
- result = await team.run(task="new task")
- assert len(result.messages) == 4
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert isinstance(result.messages[2], HandoffMessage)
- assert isinstance(result.messages[3], HandoffMessage)
- assert result.messages[0].content == "new task"
- assert result.messages[1].content == "Transferred to first_agent."
- assert result.messages[2].content == "Transferred to second_agent."
- assert result.messages[3].content == "Transferred to third_agent."
-
- # Handoff to a non-existing agent.
- third_agent = _HandOffAgent("third_agent", description="third agent", next_agent="non_existing_agent")
- termination = HandoffTermination(target="non_existing_agent")
- team = Swarm([second_agent, first_agent, third_agent], termination_condition=termination, runtime=runtime)
- # Start
- result = await team.run(task="task")
- assert len(result.messages) == 3
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert isinstance(result.messages[2], HandoffMessage)
- assert result.messages[0].content == "task"
- assert result.messages[1].content == "Transferred to third_agent."
- assert result.messages[2].content == "Transferred to non_existing_agent."
- # Attempt to resume.
- with pytest.raises(ValueError):
- await team.run()
- # Attempt to resume with a new task.
- with pytest.raises(ValueError):
- await team.run(task="new task")
- # Resume with a HandoffMessage
- result = await team.run(task=HandoffMessage(content="Handoff to first_agent.", target="first_agent", source="user"))
- assert len(result.messages) == 4
- assert isinstance(result.messages[0], HandoffMessage)
- assert isinstance(result.messages[1], HandoffMessage)
- assert isinstance(result.messages[2], HandoffMessage)
- assert isinstance(result.messages[3], HandoffMessage)
- assert result.messages[0].content == "Handoff to first_agent."
- assert result.messages[1].content == "Transferred to second_agent."
- assert result.messages[2].content == "Transferred to third_agent."
- assert result.messages[3].content == "Transferred to non_existing_agent."
-
-
- @pytest.mark.asyncio
- async def test_round_robin_group_chat_with_message_list(runtime: AgentRuntime | None) -> None:
- # Create a simple team with echo agents
- agent1 = _EchoAgent("Agent1", "First agent")
- agent2 = _EchoAgent("Agent2", "Second agent")
- termination = MaxMessageTermination(4) # Stop after 4 messages
- team = RoundRobinGroupChat([agent1, agent2], termination_condition=termination, runtime=runtime)
-
- # Create a list of messages
- messages: List[ChatMessage] = [
- TextMessage(content="Message 1", source="user"),
- TextMessage(content="Message 2", source="user"),
- TextMessage(content="Message 3", source="user"),
- ]
-
- # Run the team with the message list
- result = await team.run(task=messages)
-
- # Verify the messages were processed in order
- assert len(result.messages) == 4 # Initial messages + echo until termination
- assert isinstance(result.messages[0], TextMessage)
- assert isinstance(result.messages[1], TextMessage)
- assert isinstance(result.messages[2], TextMessage)
- assert isinstance(result.messages[3], TextMessage)
- assert result.messages[0].content == "Message 1" # First message
- assert result.messages[1].content == "Message 2" # Second message
- assert result.messages[2].content == "Message 3" # Third message
- assert result.messages[3].content == "Message 1" # Echo from first agent
- assert result.stop_reason == "Maximum number of messages 4 reached, current message count: 4"
-
- # Test with streaming
- await team.reset()
- index = 0
- async for message in team.run_stream(task=messages):
- if isinstance(message, TaskResult):
- assert message == result
- else:
- assert message == result.messages[index]
- index += 1
-
- # Test with invalid message list
- with pytest.raises(ValueError, match="All messages in task list must be valid ChatMessage types"):
- await team.run(task=["not a message"]) # type: ignore[list-item, arg-type] # intentionally testing invalid input
-
- # Test with empty message list
- with pytest.raises(ValueError, match="Task list cannot be empty"):
- await team.run(task=[])
-
-
- @pytest.mark.asyncio
- async def test_declarative_groupchats_with_config(runtime: AgentRuntime | None) -> None:
- # Create basic agents and components for testing
- agent1 = AssistantAgent(
- "agent_1",
- model_client=OpenAIChatCompletionClient(model="gpt-4o-2024-05-13", api_key=""),
- handoffs=["agent_2"],
- )
- agent2 = AssistantAgent("agent_2", model_client=OpenAIChatCompletionClient(model="gpt-4o-2024-05-13", api_key=""))
- termination = MaxMessageTermination(4)
- model_client = OpenAIChatCompletionClient(model="gpt-4o-2024-05-13", api_key="")
-
- # Test round robin - verify config is preserved
- round_robin = RoundRobinGroupChat(participants=[agent1, agent2], termination_condition=termination, max_turns=5)
- config = round_robin.dump_component()
- loaded = RoundRobinGroupChat.load_component(config)
- assert loaded.dump_component() == config
-
- # Test selector group chat - verify config is preserved
- selector_prompt = "Custom selector prompt with {roles}, {participants}, {history}"
- selector = SelectorGroupChat(
- participants=[agent1, agent2],
- model_client=model_client,
- termination_condition=termination,
- max_turns=10,
- selector_prompt=selector_prompt,
- allow_repeated_speaker=True,
- runtime=runtime,
- )
- selector_config = selector.dump_component()
- selector_loaded = SelectorGroupChat.load_component(selector_config)
- assert selector_loaded.dump_component() == selector_config
-
- # Test swarm with handoff termination
- handoff_termination = HandoffTermination(target="Agent2")
- swarm = Swarm(
- participants=[agent1, agent2], termination_condition=handoff_termination, max_turns=5, runtime=runtime
- )
- swarm_config = swarm.dump_component()
- swarm_loaded = Swarm.load_component(swarm_config)
- assert swarm_loaded.dump_component() == swarm_config
-
- # Test MagenticOne with custom parameters
- magentic = MagenticOneGroupChat(
- participants=[agent1],
- model_client=model_client,
- max_turns=15,
- max_stalls=5,
- final_answer_prompt="Custom prompt",
- runtime=runtime,
- )
- magentic_config = magentic.dump_component()
- magentic_loaded = MagenticOneGroupChat.load_component(magentic_config)
- assert magentic_loaded.dump_component() == magentic_config
-
- # Verify component types are correctly set for each
- for team in [loaded, selector, swarm, magentic]:
- assert team.component_type == "team"
-
- # Verify provider strings are correctly set
- assert round_robin.dump_component().provider == "autogen_agentchat.teams.RoundRobinGroupChat"
- assert selector.dump_component().provider == "autogen_agentchat.teams.SelectorGroupChat"
- assert swarm.dump_component().provider == "autogen_agentchat.teams.Swarm"
- assert magentic.dump_component().provider == "autogen_agentchat.teams.MagenticOneGroupChat"
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