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import os
import shutil
from unittest.mock import MagicMock, Mock
import pytest
from litellm import ChatCompletionMessageToolCall
from openhands.controller.state.state import State
from openhands.core.config.agent_config import AgentConfig
from openhands.core.message import ImageContent, Message, TextContent
from openhands.events.action import (
AgentFinishAction,
CmdRunAction,
MessageAction,
)
from openhands.events.action.message import SystemMessageAction
from openhands.events.event import (
Event,
EventSource,
FileEditSource,
FileReadSource,
RecallType,
)
from openhands.events.observation import CmdOutputObservation
from openhands.events.observation.agent import (
MicroagentKnowledge,
RecallObservation,
)
from openhands.events.observation.browse import BrowserOutputObservation
from openhands.events.observation.commands import (
CmdOutputMetadata,
IPythonRunCellObservation,
)
from openhands.events.observation.delegate import AgentDelegateObservation
from openhands.events.observation.error import ErrorObservation
from openhands.events.observation.files import FileEditObservation, FileReadObservation
from openhands.events.observation.reject import UserRejectObservation
from openhands.events.tool import ToolCallMetadata
from openhands.memory.conversation_memory import ConversationMemory
from openhands.utils.prompt import PromptManager, RepositoryInfo, RuntimeInfo
@pytest.fixture
def agent_config():
return AgentConfig(
enable_prompt_extensions=True,
enable_som_visual_browsing=True,
disabled_microagents=['disabled_agent'],
)
@pytest.fixture
def conversation_memory(agent_config):
prompt_manager = MagicMock(spec=PromptManager)
prompt_manager.get_system_message.return_value = 'System message'
prompt_manager.build_workspace_context.return_value = (
'Formatted repository and runtime info'
)
# Make build_microagent_info return the actual content from the triggered agents
def build_microagent_info(triggered_agents):
if not triggered_agents:
return ''
return '\n'.join(agent.content for agent in triggered_agents)
prompt_manager.build_microagent_info.side_effect = build_microagent_info
return ConversationMemory(agent_config, prompt_manager)
@pytest.fixture
def prompt_dir(tmp_path):
# Copy contents from "openhands/agenthub/codeact_agent" to the temp directory
shutil.copytree(
'openhands/agenthub/codeact_agent/prompts', tmp_path, dirs_exist_ok=True
)
# Return the temporary directory path
return tmp_path
@pytest.fixture
def mock_state():
state = MagicMock(spec=State)
state.history = []
return state
@pytest.fixture
def mock_prompt_manager():
return MagicMock()
def test_process_events_with_message_action(conversation_memory):
"""Test that MessageAction is processed correctly."""
# Create a system message action
system_message = SystemMessageAction(content='System message')
system_message._source = EventSource.AGENT
# Create user and assistant messages
user_message = MessageAction(content='Hello')
user_message._source = EventSource.USER
assistant_message = MessageAction(content='Hi there')
assistant_message._source = EventSource.AGENT
# Process events
messages = conversation_memory.process_events(
condensed_history=[system_message, user_message, assistant_message],
initial_user_action=user_message,
max_message_chars=None,
vision_is_active=False,
)
# Check that the messages were processed correctly
assert len(messages) == 3
assert messages[0].role == 'system'
assert messages[0].content[0].text == 'System message'
# Test cases for _ensure_system_message
def test_ensure_system_message_adds_if_missing(conversation_memory):
"""Test that _ensure_system_message adds a system message if none exists."""
user_message = MessageAction(content='User message')
user_message._source = EventSource.USER
events = [user_message]
conversation_memory._ensure_system_message(events)
assert len(events) == 2
assert isinstance(events[0], SystemMessageAction)
assert events[0].content == 'System message' # From fixture
assert isinstance(events[1], MessageAction) # Original event is still there
def test_ensure_system_message_does_nothing_if_present(conversation_memory):
"""Test that _ensure_system_message does nothing if a system message is already present."""
original_system_message = SystemMessageAction(content='Existing system message')
user_message = MessageAction(content='User message')
user_message._source = EventSource.USER
events = [
original_system_message,
user_message,
]
original_events = list(events) # Copy before modification
conversation_memory._ensure_system_message(events)
assert events == original_events # List should be unchanged
# Test cases for _ensure_initial_user_message
@pytest.fixture
def initial_user_action():
msg = MessageAction(content='Initial User Message')
msg._source = EventSource.USER
return msg
def test_ensure_initial_user_message_adds_if_only_system(
conversation_memory, initial_user_action
):
"""Test adding the initial user message when only the system message exists."""
system_message = SystemMessageAction(content='System')
system_message._source = EventSource.AGENT
events = [system_message]
conversation_memory._ensure_initial_user_message(events, initial_user_action)
assert len(events) == 2
assert events[0] == system_message
assert events[1] == initial_user_action
def test_ensure_initial_user_message_correct_already_present(
conversation_memory, initial_user_action
):
"""Test that nothing changes if the correct initial user message is at index 1."""
system_message = SystemMessageAction(content='System')
agent_message = MessageAction(content='Assistant')
agent_message._source = EventSource.USER
events = [
system_message,
initial_user_action,
agent_message,
]
original_events = list(events)
conversation_memory._ensure_initial_user_message(events, initial_user_action)
assert events == original_events
def test_ensure_initial_user_message_incorrect_at_index_1(
conversation_memory, initial_user_action
):
"""Test inserting the correct initial user message when an incorrect message is at index 1."""
system_message = SystemMessageAction(content='System')
incorrect_second_message = MessageAction(content='Assistant')
incorrect_second_message._source = EventSource.AGENT
events = [system_message, incorrect_second_message]
conversation_memory._ensure_initial_user_message(events, initial_user_action)
assert len(events) == 3
assert events[0] == system_message
assert events[1] == initial_user_action # Correct one inserted
assert events[2] == incorrect_second_message # Original second message shifted
def test_ensure_initial_user_message_correct_present_later(
conversation_memory, initial_user_action
):
"""Test inserting the correct initial user message at index 1 even if it exists later."""
system_message = SystemMessageAction(content='System')
incorrect_second_message = MessageAction(content='Assistant')
incorrect_second_message._source = EventSource.AGENT
# Correct initial message is present, but later in the list
events = [system_message, incorrect_second_message]
conversation_memory._ensure_system_message(events)
conversation_memory._ensure_initial_user_message(events, initial_user_action)
assert len(events) == 3 # Should still insert at index 1, not remove the later one
assert events[0] == system_message
assert events[1] == initial_user_action # Correct one inserted at index 1
assert events[2] == incorrect_second_message # Original second message shifted
# The duplicate initial_user_action originally at index 2 is now at index 3 (implicitly tested by length and content)
def test_ensure_initial_user_message_different_user_msg_at_index_1(
conversation_memory, initial_user_action
):
"""Test inserting the correct initial user message when a *different* user message is at index 1."""
system_message = SystemMessageAction(content='System')
different_user_message = MessageAction(content='Different User Message')
different_user_message._source = EventSource.USER
events = [system_message, different_user_message]
conversation_memory._ensure_initial_user_message(events, initial_user_action)
assert len(events) == 2
assert events[0] == system_message
assert events[1] == different_user_message # Original second message remains
def test_ensure_initial_user_message_different_user_msg_at_index_1_and_orphaned_obs(
conversation_memory, initial_user_action
):
"""
Test process_events when an incorrect user message is at index 1 AND
an orphaned observation (with tool_call_metadata but no matching action) exists.
Expect: System msg, CORRECT initial user msg, the incorrect user msg (shifted).
The orphaned observation should be filtered out.
"""
system_message = SystemMessageAction(content='System')
different_user_message = MessageAction(content='Different User Message')
different_user_message._source = EventSource.USER
# Create an orphaned observation (no matching action/tool call request will exist)
# Use a dictionary that mimics ModelResponse structure to satisfy Pydantic
mock_response = {
'id': 'mock_response_id',
'choices': [{'message': {'content': None, 'tool_calls': []}}],
'created': 0,
'model': '',
'object': '',
'usage': {'completion_tokens': 0, 'prompt_tokens': 0, 'total_tokens': 0},
}
orphaned_obs = CmdOutputObservation(
command='orphan_cmd',
content='Orphaned output',
command_id=99,
exit_code=0,
)
orphaned_obs.tool_call_metadata = ToolCallMetadata(
tool_call_id='orphan_call_id',
function_name='execute_bash',
model_response=mock_response,
total_calls_in_response=1,
)
# Initial events list: system, wrong user message, orphaned observation
events = [system_message, different_user_message, orphaned_obs]
# Call the main process_events method
messages = conversation_memory.process_events(
condensed_history=events,
initial_user_action=initial_user_action, # Provide the *correct* initial action
max_message_chars=None,
vision_is_active=False,
)
# Assertions on the final messages list
assert len(messages) == 2
# 1. System message should be first
assert messages[0].role == 'system'
assert messages[0].content[0].text == 'System'
# 2. The different user message should be left at index 1
assert messages[1].role == 'user'
assert messages[1].content[0].text == different_user_message.content
# Implicitly assert that the orphaned_obs was filtered out by checking the length (2)
def test_process_events_with_cmd_output_observation(conversation_memory):
obs = CmdOutputObservation(
command='echo hello',
content='Command output',
metadata=CmdOutputMetadata(
exit_code=0,
prefix='[THIS IS PREFIX]',
suffix='[THIS IS SUFFIX]',
),
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'Observed result of command executed by user:' in result.content[0].text
assert '[Command finished with exit code 0]' in result.content[0].text
assert '[THIS IS PREFIX]' in result.content[0].text
assert '[THIS IS SUFFIX]' in result.content[0].text
def test_process_events_with_ipython_run_cell_observation(conversation_memory):
obs = IPythonRunCellObservation(
code='plt.plot()',
content='IPython output\n',
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'IPython output' in result.content[0].text
assert (
' already displayed to user'
in result.content[0].text
)
assert 'ABC123' not in result.content[0].text
def test_process_events_with_agent_delegate_observation(conversation_memory):
obs = AgentDelegateObservation(
content='Content', outputs={'content': 'Delegated agent output'}
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'Delegated agent output' in result.content[0].text
def test_process_events_with_error_observation(conversation_memory):
obs = ErrorObservation('Error message')
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'Error message' in result.content[0].text
assert 'Error occurred in processing last action' in result.content[0].text
def test_process_events_with_unknown_observation(conversation_memory):
# Create a mock that inherits from Event but not Action or Observation
obs = Mock(spec=Event)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
with pytest.raises(ValueError, match='Unknown event type'):
conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
def test_process_events_with_file_edit_observation(conversation_memory):
obs = FileEditObservation(
path='/test/file.txt',
prev_exist=True,
old_content='old content',
new_content='new content',
content='diff content',
impl_source=FileEditSource.LLM_BASED_EDIT,
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert '[Existing file /test/file.txt is edited with' in result.content[0].text
def test_process_events_with_file_read_observation(conversation_memory):
obs = FileReadObservation(
path='/test/file.txt',
content='File content',
impl_source=FileReadSource.DEFAULT,
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert result.content[0].text == '\n\nFile content'
def test_process_events_with_browser_output_observation(conversation_memory):
obs = BrowserOutputObservation(
url='http://example.com',
trigger_by_action='browse',
screenshot='',
content='Page loaded',
error=False,
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert '[Current URL: http://example.com]' in result.content[0].text
def test_process_events_with_user_reject_observation(conversation_memory):
obs = UserRejectObservation('Action rejected')
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + initial user + result
result = messages[2] # The actual result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'Action rejected' in result.content[0].text
assert '[Last action has been rejected by the user]' in result.content[0].text
def test_process_events_with_empty_environment_info(conversation_memory):
"""Test that empty environment info observations return an empty list of messages without calling build_workspace_context."""
# Create a RecallObservation with empty info
empty_obs = RecallObservation(
recall_type=RecallType.WORKSPACE_CONTEXT,
repo_name='',
repo_directory='',
repo_instructions='',
runtime_hosts={},
additional_agent_instructions='',
microagent_knowledge=[],
content='Retrieved environment info',
)
initial_user_message = MessageAction(content='Initial user message')
initial_user_message._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[empty_obs],
initial_user_action=initial_user_message,
max_message_chars=None,
vision_is_active=False,
)
# Should only contain system message and initial user message
assert len(messages) == 2
# Verify that build_workspace_context was NOT called since all input values were empty
conversation_memory.prompt_manager.build_workspace_context.assert_not_called()
def test_process_events_with_function_calling_observation(conversation_memory):
mock_response = {
'id': 'mock_id',
'total_calls_in_response': 1,
'choices': [{'message': {'content': 'Task completed'}}],
}
obs = CmdOutputObservation(
command='echo hello',
content='Command output',
command_id=1,
exit_code=0,
)
obs.tool_call_metadata = ToolCallMetadata(
tool_call_id='123',
function_name='execute_bash',
model_response=mock_response,
total_calls_in_response=1,
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# No direct message when using function calling
assert (
len(messages) == 2
) # should be no messages except system message and initial user message
def test_process_events_with_message_action_with_image(conversation_memory):
action = MessageAction(
content='Message with image',
image_urls=['http://example.com/image.jpg'],
)
action._source = EventSource.AGENT
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[action],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=True,
)
assert len(messages) == 3
result = messages[2]
assert result.role == 'assistant'
assert len(result.content) == 2
assert isinstance(result.content[0], TextContent)
assert isinstance(result.content[1], ImageContent)
assert result.content[0].text == 'Message with image'
assert result.content[1].image_urls == ['http://example.com/image.jpg']
def test_process_events_with_user_cmd_action(conversation_memory):
action = CmdRunAction(command='ls -l')
action._source = EventSource.USER
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[action],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3
result = messages[2]
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'User executed the command' in result.content[0].text
assert 'ls -l' in result.content[0].text
def test_process_events_with_agent_finish_action_with_tool_metadata(
conversation_memory,
):
mock_response = {
'id': 'mock_id',
'total_calls_in_response': 1,
'choices': [{'message': {'content': 'Task completed'}}],
}
action = AgentFinishAction(thought='Initial thought')
action._source = EventSource.AGENT
action.tool_call_metadata = ToolCallMetadata(
tool_call_id='123',
function_name='finish',
model_response=mock_response,
total_calls_in_response=1,
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[action],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3
result = messages[2]
assert result.role == 'assistant'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert 'Initial thought\nTask completed' in result.content[0].text
def test_apply_prompt_caching(conversation_memory):
messages = [
Message(role='system', content=[TextContent(text='System message')]),
Message(role='user', content=[TextContent(text='User message')]),
Message(role='assistant', content=[TextContent(text='Assistant message')]),
Message(role='user', content=[TextContent(text='Another user message')]),
]
conversation_memory.apply_prompt_caching(messages)
# System message is hard-coded to be cached always
assert messages[0].content[0].cache_prompt is True
assert messages[1].content[0].cache_prompt is False
assert messages[2].content[0].cache_prompt is False
# Only the last user message should have cache_prompt=True
assert messages[3].content[0].cache_prompt is True
def test_process_events_with_environment_microagent_observation(conversation_memory):
"""Test processing a RecallObservation with ENVIRONMENT info type."""
obs = RecallObservation(
recall_type=RecallType.WORKSPACE_CONTEXT,
repo_name='test-repo',
repo_directory='/path/to/repo',
repo_instructions='# Test Repository\nThis is a test repository.',
runtime_hosts={'localhost': 8080},
content='Retrieved environment info',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3
result = messages[2]
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
assert result.content[0].text == '\n\nFormatted repository and runtime info'
# Verify the prompt_manager was called with the correct parameters
conversation_memory.prompt_manager.build_workspace_context.assert_called_once()
call_args = conversation_memory.prompt_manager.build_workspace_context.call_args[1]
assert isinstance(call_args['repository_info'], RepositoryInfo)
assert call_args['repository_info'].repo_name == 'test-repo'
assert call_args['repository_info'].repo_directory == '/path/to/repo'
assert isinstance(call_args['runtime_info'], RuntimeInfo)
assert call_args['runtime_info'].available_hosts == {'localhost': 8080}
assert (
call_args['repo_instructions']
== '# Test Repository\nThis is a test repository.'
)
def test_process_events_with_knowledge_microagent_microagent_observation(
conversation_memory,
):
"""Test processing a RecallObservation with KNOWLEDGE type."""
microagent_knowledge = [
MicroagentKnowledge(
name='test_agent',
trigger='test',
content='This is test agent content',
),
MicroagentKnowledge(
name='another_agent',
trigger='another',
content='This is another agent content',
),
MicroagentKnowledge(
name='disabled_agent',
trigger='disabled',
content='This is disabled agent content',
),
]
obs = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=microagent_knowledge,
content='Retrieved knowledge from microagents',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
assert len(messages) == 3 # System + Initial User + Result
result = messages[2] # Result is now at index 2
assert result.role == 'user'
assert len(result.content) == 1
assert isinstance(result.content[0], TextContent)
# Verify that disabled_agent is filtered out and enabled agents are included
assert 'This is test agent content' in result.content[0].text
assert 'This is another agent content' in result.content[0].text
assert 'This is disabled agent content' not in result.content[0].text
# Verify the prompt_manager was called with the correct parameters
conversation_memory.prompt_manager.build_microagent_info.assert_called_once()
call_args = conversation_memory.prompt_manager.build_microagent_info.call_args[1]
# Check that disabled_agent was filtered out
triggered_agents = call_args['triggered_agents']
assert len(triggered_agents) == 2
agent_names = [agent.name for agent in triggered_agents]
assert 'test_agent' in agent_names
assert 'another_agent' in agent_names
assert 'disabled_agent' not in agent_names
def test_process_events_with_microagent_observation_extensions_disabled(
agent_config, conversation_memory
):
"""Test processing a RecallObservation when prompt extensions are disabled."""
# Modify the agent config to disable prompt extensions
agent_config.enable_prompt_extensions = False
obs = RecallObservation(
recall_type=RecallType.WORKSPACE_CONTEXT,
repo_name='test-repo',
repo_directory='/path/to/repo',
content='Retrieved environment info',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# When prompt extensions are disabled, the RecallObservation should be ignored
assert len(messages) == 2 # System + Initial User
# Verify the prompt_manager was not called
conversation_memory.prompt_manager.build_workspace_context.assert_not_called()
conversation_memory.prompt_manager.build_microagent_info.assert_not_called()
def test_process_events_with_empty_microagent_knowledge(conversation_memory):
"""Test processing a RecallObservation with empty microagent knowledge."""
obs = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[],
content='Retrieved knowledge from microagents',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# The implementation returns an empty string and it doesn't creates a message
assert len(messages) == 2 # System + Initial User
# When there are no triggered agents, build_microagent_info is not called
conversation_memory.prompt_manager.build_microagent_info.assert_not_called()
def test_conversation_memory_processes_microagent_observation(prompt_dir):
"""Test that ConversationMemory processes RecallObservations correctly."""
# Create a microagent_info.j2 template file
template_path = os.path.join(prompt_dir, 'microagent_info.j2')
if not os.path.exists(template_path):
with open(template_path, 'w') as f:
f.write("""{% for agent_info in triggered_agents %}
<EXTRA_INFO>
The following information has been included based on a keyword match for "{{ agent_info.trigger_word }}".
It may or may not be relevant to the user's request.
# Verify the template was correctly rendered
{{ agent_info.content }}
</EXTRA_INFO>
{% endfor %}
""")
# Create a mock agent config
agent_config = MagicMock(spec=AgentConfig)
agent_config.enable_prompt_extensions = True
agent_config.disabled_microagents = []
# Create a PromptManager
prompt_manager = PromptManager(prompt_dir=prompt_dir)
# Initialize ConversationMemory
conversation_memory = ConversationMemory(
config=agent_config, prompt_manager=prompt_manager
)
# Create a RecallObservation with microagent knowledge
microagent_observation = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='test_agent',
trigger='test_trigger',
content='This is triggered content for testing.',
)
],
content='Retrieved knowledge from microagents',
)
# Process the observation
messages = conversation_memory._process_observation(
obs=microagent_observation, tool_call_id_to_message={}, max_message_chars=None
)
# Verify the message was created correctly
assert len(messages) == 1
message = messages[0]
assert message.role == 'user'
assert len(message.content) == 1
assert isinstance(message.content[0], TextContent)
expected_text = """<EXTRA_INFO>
The following information has been included based on a keyword match for "test_trigger".
It may or may not be relevant to the user's request.
This is triggered content for testing.
</EXTRA_INFO>"""
assert message.content[0].text.strip() == expected_text.strip()
# Clean up
os.remove(os.path.join(prompt_dir, 'microagent_info.j2'))
def test_conversation_memory_processes_environment_microagent_observation(prompt_dir):
"""Test that ConversationMemory processes environment info RecallObservations correctly."""
# Create an additional_info.j2 template file
template_path = os.path.join(prompt_dir, 'additional_info.j2')
if not os.path.exists(template_path):
with open(template_path, 'w') as f:
f.write("""
{% if repository_info %}
<REPOSITORY_INFO>
At the user's request, repository {{ repository_info.repo_name }} has been cloned to directory {{ repository_info.repo_directory }}.
</REPOSITORY_INFO>
{% endif %}
{% if repository_instructions %}
<REPOSITORY_INSTRUCTIONS>
{{ repository_instructions }}
</REPOSITORY_INSTRUCTIONS>
{% endif %}
{% if runtime_info and runtime_info.available_hosts %}
<RUNTIME_INFORMATION>
The user has access to the following hosts for accessing a web application,
each of which has a corresponding port:
{% for host, port in runtime_info.available_hosts.items() %}
* {{ host }} (port {{ port }})
{% endfor %}
</RUNTIME_INFORMATION>
{% endif %}
""")
# Create a mock agent config
agent_config = MagicMock(spec=AgentConfig)
agent_config.enable_prompt_extensions = True
# Create a PromptManager
prompt_manager = PromptManager(prompt_dir=prompt_dir)
# Initialize ConversationMemory
conversation_memory = ConversationMemory(
config=agent_config, prompt_manager=prompt_manager
)
# Create a RecallObservation with environment info
microagent_observation = RecallObservation(
recall_type=RecallType.WORKSPACE_CONTEXT,
repo_name='owner/repo',
repo_directory='/workspace/repo',
repo_instructions='This repository contains important code.',
runtime_hosts={'example.com': 8080},
content='Retrieved environment info',
)
# Process the observation
messages = conversation_memory._process_observation(
obs=microagent_observation, tool_call_id_to_message={}, max_message_chars=None
)
# Verify the message was created correctly
assert len(messages) == 1
message = messages[0]
assert message.role == 'user'
assert len(message.content) == 1
assert isinstance(message.content[0], TextContent)
# Check that the message contains the repository info
assert '<REPOSITORY_INFO>' in message.content[0].text
assert 'owner/repo' in message.content[0].text
assert '/workspace/repo' in message.content[0].text
# Check that the message contains the repository instructions
assert '<REPOSITORY_INSTRUCTIONS>' in message.content[0].text
assert 'This repository contains important code.' in message.content[0].text
# Check that the message contains the runtime info
assert '<RUNTIME_INFORMATION>' in message.content[0].text
assert 'example.com (port 8080)' in message.content[0].text
def test_process_events_with_microagent_observation_deduplication(conversation_memory):
"""Test that RecallObservations are properly deduplicated based on agent name.
The deduplication logic should keep the FIRST occurrence of each microagent
and filter out later occurrences to avoid redundant information.
"""
# Create a sequence of RecallObservations with overlapping agents
obs1 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='python_agent',
trigger='python',
content='Python best practices v1',
),
MicroagentKnowledge(
name='git_agent',
trigger='git',
content='Git best practices v1',
),
MicroagentKnowledge(
name='image_agent',
trigger='image',
content='Image best practices v1',
),
],
content='First retrieval',
)
obs2 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='python_agent',
trigger='python',
content='Python best practices v2',
),
],
content='Second retrieval',
)
obs3 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='git_agent',
trigger='git',
content='Git best practices v3',
),
],
content='Third retrieval',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs1, obs2, obs3],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# Verify that only the first occurrence of content for each agent is included
assert len(messages) == 3 # System + Initial User + Result
# Result is now at index 2
# First microagent should include all agents since they appear here first
assert 'Image best practices v1' in messages[2].content[0].text
assert 'Git best practices v1' in messages[2].content[0].text
assert 'Python best practices v1' in messages[2].content[0].text
def test_process_events_with_microagent_observation_deduplication_disabled_agents(
conversation_memory,
):
"""Test that disabled agents are filtered out and deduplication keeps the first occurrence."""
# Create a sequence of RecallObservations with disabled agents
obs1 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='disabled_agent',
trigger='disabled',
content='Disabled agent content',
),
MicroagentKnowledge(
name='enabled_agent',
trigger='enabled',
content='Enabled agent content v1',
),
],
content='First retrieval',
)
obs2 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='enabled_agent',
trigger='enabled',
content='Enabled agent content v2',
),
],
content='Second retrieval',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs1, obs2],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# Verify that disabled agents are filtered out and only the first occurrence of enabled agents is included
assert len(messages) == 3 # System + Initial User + Result
# Result is now at index 2
# First microagent should include enabled_agent but not disabled_agent
assert 'Disabled agent content' not in messages[2].content[0].text
assert 'Enabled agent content v1' in messages[2].content[0].text
def test_process_events_with_microagent_observation_deduplication_empty(
conversation_memory,
):
"""Test that empty RecallObservations are handled correctly."""
obs = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[],
content='Empty retrieval',
)
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[obs],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# Verify that empty RecallObservations are handled gracefully
assert (
len(messages) == 2 # System + Initial User
) # an empty microagent is not added to Messages
assert messages[0].role == 'system'
assert messages[1].role == 'user' # Initial user message
def test_has_agent_in_earlier_events(conversation_memory):
"""Test the _has_agent_in_earlier_events helper method."""
# Create test RecallObservations
obs1 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='agent1',
trigger='trigger1',
content='Content 1',
),
],
content='First retrieval',
)
obs2 = RecallObservation(
recall_type=RecallType.KNOWLEDGE,
microagent_knowledge=[
MicroagentKnowledge(
name='agent2',
trigger='trigger2',
content='Content 2',
),
],
content='Second retrieval',
)
obs3 = RecallObservation(
recall_type=RecallType.WORKSPACE_CONTEXT,
content='Environment info',
)
# Create a list with mixed event types
events = [obs1, MessageAction(content='User message'), obs2, obs3]
# Test looking for existing agents
assert conversation_memory._has_agent_in_earlier_events('agent1', 2, events) is True
assert conversation_memory._has_agent_in_earlier_events('agent1', 3, events) is True
assert conversation_memory._has_agent_in_earlier_events('agent1', 4, events) is True
# Test looking for an agent in a later position (should not find it)
assert (
conversation_memory._has_agent_in_earlier_events('agent2', 0, events) is False
)
assert (
conversation_memory._has_agent_in_earlier_events('agent2', 1, events) is False
)
# Test looking for an agent in a different microagent type (should not find it)
assert (
conversation_memory._has_agent_in_earlier_events('non_existent', 3, events)
is False
)
class TestFilterUnmatchedToolCalls:
@pytest.fixture
def processor(self):
return ConversationMemory()
def test_empty_is_unchanged(self):
assert list(ConversationMemory._filter_unmatched_tool_calls([])) == []
def test_no_tool_calls_is_unchanged(self):
messages = [
Message(role='user', content=[TextContent(text='Hello')]),
Message(role='assistant', content=[TextContent(text='Hi there')]),
Message(role='user', content=[TextContent(text='How are you?')]),
]
assert (
list(ConversationMemory._filter_unmatched_tool_calls(messages)) == messages
)
def test_matched_tool_calls_are_unchanged(self):
messages = [
Message(role='user', content=[TextContent(text="What's the weather?")]),
Message(
role='assistant',
content=[],
tool_calls=[
ChatCompletionMessageToolCall(
id='call_1',
type='function',
function={'name': 'get_weather', 'arguments': ''},
)
],
),
Message(
role='tool',
tool_call_id='call_1',
content=[TextContent(text='Sunny, 75°F')],
),
Message(role='assistant', content=[TextContent(text="It's sunny today.")]),
]
# All tool calls have matching responses, should remain unchanged
assert (
list(ConversationMemory._filter_unmatched_tool_calls(messages)) == messages
)
def test_tool_call_without_response_is_removed(self):
messages = [
Message(role='user', content=[TextContent(text='Query')]),
Message(
role='tool',
tool_call_id='missing_call',
content=[TextContent(text='Response')],
),
Message(role='assistant', content=[TextContent(text='Answer')]),
]
expected_after_filter = [
Message(role='user', content=[TextContent(text='Query')]),
Message(role='assistant', content=[TextContent(text='Answer')]),
]
result = list(ConversationMemory._filter_unmatched_tool_calls(messages))
assert result == expected_after_filter
def test_tool_response_without_call_is_removed(self):
messages = [
Message(role='user', content=[TextContent(text='Query')]),
Message(
role='assistant',
content=[],
tool_calls=[
ChatCompletionMessageToolCall(
id='unmatched_call',
type='function',
function={'name': 'some_function', 'arguments': ''},
)
],
),
Message(role='assistant', content=[TextContent(text='Answer')]),
]
expected_after_filter = [
Message(role='user', content=[TextContent(text='Query')]),
Message(role='assistant', content=[TextContent(text='Answer')]),
]
result = list(ConversationMemory._filter_unmatched_tool_calls(messages))
assert result == expected_after_filter
def test_partial_matched_tool_calls_retains_matched(self):
"""When there are both matched and unmatched tools calls in a message, retain the message and only matched calls"""
messages = [
Message(role='user', content=[TextContent(text='Get data')]),
Message(
role='assistant',
content=[],
tool_calls=[
ChatCompletionMessageToolCall(
id='matched_call',
type='function',
function={'name': 'function1', 'arguments': ''},
),
ChatCompletionMessageToolCall(
id='unmatched_call',
type='function',
function={'name': 'function2', 'arguments': ''},
),
],
),
Message(
role='tool',
tool_call_id='matched_call',
content=[TextContent(text='Data')],
),
Message(role='assistant', content=[TextContent(text='Result')]),
]
expected = [
Message(role='user', content=[TextContent(text='Get data')]),
# This message should be modified to only include the matched tool call
Message(
role='assistant',
content=[],
tool_calls=[
ChatCompletionMessageToolCall(
id='matched_call',
type='function',
function={'name': 'function1', 'arguments': ''},
)
],
),
Message(
role='tool',
tool_call_id='matched_call',
content=[TextContent(text='Data')],
),
Message(role='assistant', content=[TextContent(text='Result')]),
]
result = list(ConversationMemory._filter_unmatched_tool_calls(messages))
# Verify result structure
assert len(result) == len(expected)
for i, msg in enumerate(result):
assert msg == expected[i]
def test_system_message_in_events(conversation_memory):
"""Test that SystemMessageAction in condensed_history is processed correctly."""
# Create a system message action
system_message = SystemMessageAction(content='System message', tools=['test_tool'])
system_message._source = EventSource.AGENT
# Process events with the system message in condensed_history
# Define initial user action
initial_user_action = MessageAction(content='Initial user message')
initial_user_action._source = EventSource.USER
messages = conversation_memory.process_events(
condensed_history=[system_message],
initial_user_action=initial_user_action,
max_message_chars=None,
vision_is_active=False,
)
# Check that the system message was processed correctly
assert len(messages) == 2 # System + Initial User
assert messages[0].role == 'system'
assert messages[0].content[0].text == 'System message'
assert messages[1].role == 'user' # Initial user message
# Helper function to create mock tool call metadata
def _create_mock_tool_call_metadata(
tool_call_id: str, function_name: str, response_id: str = 'mock_response_id'
) -> ToolCallMetadata:
# Use a dictionary that mimics ModelResponse structure to satisfy Pydantic
mock_response = {
'id': response_id,
'choices': [
{
'message': {
'role': 'assistant',
'content': None, # Content is None for tool calls
'tool_calls': [
{
'id': tool_call_id,
'type': 'function',
'function': {
'name': function_name,
'arguments': '{}',
}, # Args don't matter for this test
}
],
}
}
],
'created': 0,
'model': 'mock_model',
'object': 'chat.completion',
'usage': {'completion_tokens': 0, 'prompt_tokens': 0, 'total_tokens': 0},
}
return ToolCallMetadata(
tool_call_id=tool_call_id,
function_name=function_name,
model_response=mock_response,
total_calls_in_response=1,
)
def test_process_events_partial_history(conversation_memory):
"""
Tests process_events with full and partial histories to verify
_ensure_system_message, _ensure_initial_user_message, and tool call matching logic.
"""
# --- Define Common Events ---
system_message = SystemMessageAction(content='System message')
system_message._source = EventSource.AGENT
user_message = MessageAction(
content='Initial user query'
) # This is the crucial initial_user_action
user_message._source = EventSource.USER
recall_obs = RecallObservation(
recall_type=RecallType.WORKSPACE_CONTEXT,
repo_name='test-repo',
repo_directory='/path/to/repo',
content='Retrieved environment info',
)
recall_obs._source = EventSource.AGENT
cmd_action = CmdRunAction(command='ls', thought='Running ls')
cmd_action._source = EventSource.AGENT
cmd_action.tool_call_metadata = _create_mock_tool_call_metadata(
tool_call_id='call_ls_1', function_name='execute_bash', response_id='resp_ls_1'
)
cmd_obs = CmdOutputObservation(
command_id=1, command='ls', content='file1.txt\nfile2.py', exit_code=0
)
cmd_obs._source = EventSource.AGENT
cmd_obs.tool_call_metadata = _create_mock_tool_call_metadata(
tool_call_id='call_ls_1', function_name='execute_bash', response_id='resp_ls_1'
)
# --- Scenario 1: Full History ---
full_history: list[Event] = [
system_message,
user_message, # Correct initial user message at index 1
recall_obs,
cmd_action,
cmd_obs,
]
messages_full = conversation_memory.process_events(
condensed_history=list(full_history), # Pass a copy
initial_user_action=user_message, # Provide the initial action
max_message_chars=None,
vision_is_active=False,
)
# Expected: System, User, Recall (formatted), Assistant (tool call), Tool Response
assert len(messages_full) == 5
assert messages_full[0].role == 'system'
assert messages_full[0].content[0].text == 'System message'
assert messages_full[1].role == 'user'
assert messages_full[1].content[0].text == 'Initial user query'
assert messages_full[2].role == 'user' # Recall obs becomes user message
assert (
'Formatted repository and runtime info' in messages_full[2].content[0].text
) # From fixture mock
assert messages_full[3].role == 'assistant'
assert messages_full[3].tool_calls is not None
assert len(messages_full[3].tool_calls) == 1
assert messages_full[3].tool_calls[0].id == 'call_ls_1'
assert messages_full[4].role == 'tool'
assert messages_full[4].tool_call_id == 'call_ls_1'
assert 'file1.txt' in messages_full[4].content[0].text
# --- Scenario 2: Partial History (Action + Observation) ---
# Simulates processing only the last action/observation pair
partial_history_action_obs: list[Event] = [
cmd_action,
cmd_obs,
]
messages_partial_action_obs = conversation_memory.process_events(
condensed_history=list(partial_history_action_obs), # Pass a copy
initial_user_action=user_message, # Provide the initial action
max_message_chars=None,
vision_is_active=False,
)
# Expected: System (added), Initial User (added), Assistant (tool call), Tool Response
assert len(messages_partial_action_obs) == 4
assert (
messages_partial_action_obs[0].role == 'system'
) # Added by _ensure_system_message
assert messages_partial_action_obs[0].content[0].text == 'System message'
assert (
messages_partial_action_obs[1].role == 'user'
) # Added by _ensure_initial_user_message
assert messages_partial_action_obs[1].content[0].text == 'Initial user query'
assert messages_partial_action_obs[2].role == 'assistant'
assert messages_partial_action_obs[2].tool_calls is not None
assert len(messages_partial_action_obs[2].tool_calls) == 1
assert messages_partial_action_obs[2].tool_calls[0].id == 'call_ls_1'
assert messages_partial_action_obs[3].role == 'tool'
assert messages_partial_action_obs[3].tool_call_id == 'call_ls_1'
assert 'file1.txt' in messages_partial_action_obs[3].content[0].text
# --- Scenario 3: Partial History (Observation Only) ---
# Simulates processing only the last observation
partial_history_obs_only: list[Event] = [
cmd_obs,
]
messages_partial_obs_only = conversation_memory.process_events(
condensed_history=list(partial_history_obs_only), # Pass a copy
initial_user_action=user_message, # Provide the initial action
max_message_chars=None,
vision_is_active=False,
)
# Expected: System (added), Initial User (added).
# The CmdOutputObservation has tool_call_metadata, but there's no corresponding
# assistant message (from CmdRunAction) with the matching tool_call.id in the input history.
# Therefore, _filter_unmatched_tool_calls should remove the tool response message.
assert len(messages_partial_obs_only) == 2
assert (
messages_partial_obs_only[0].role == 'system'
) # Added by _ensure_system_message
assert messages_partial_obs_only[0].content[0].text == 'System message'
assert (
messages_partial_obs_only[1].role == 'user'
) # Added by _ensure_initial_user_message
assert messages_partial_obs_only[1].content[0].text == 'Initial user query'
def test_process_ipython_observation_with_vision_enabled(
agent_config, mock_prompt_manager
):
"""Test that _process_observation correctly handles IPythonRunCellObservation with image_urls when vision is enabled."""
# Create a ConversationMemory instance
memory = ConversationMemory(agent_config, mock_prompt_manager)
# Create an observation with image URLs
obs = IPythonRunCellObservation(
content='Test output',
code="print('test')",
image_urls=['data:image/png;base64,abc123'],
)
# Process the observation with vision enabled
messages = memory._process_observation(
obs=obs,
tool_call_id_to_message={},
max_message_chars=None,
vision_is_active=True,
)
# Check that the message contains both text and image content
assert len(messages) == 1
message = messages[0]
assert len(message.content) == 2
assert isinstance(message.content[0], TextContent)
assert isinstance(message.content[1], ImageContent)
assert message.content[1].image_urls == ['data:image/png;base64,abc123']
def test_process_ipython_observation_with_vision_disabled(
agent_config, mock_prompt_manager
):
"""Test that _process_observation correctly handles IPythonRunCellObservation with image_urls when vision is disabled."""
# Create a ConversationMemory instance
memory = ConversationMemory(agent_config, mock_prompt_manager)
# Create an observation with image URLs
obs = IPythonRunCellObservation(
content='Test output',
code="print('test')",
image_urls=['data:image/png;base64,abc123'],
)
# Process the observation with vision disabled
messages = memory._process_observation(
obs=obs,
tool_call_id_to_message={},
max_message_chars=None,
vision_is_active=False,
)
# Check that the message contains only text content
assert len(messages) == 1
message = messages[0]
assert len(message.content) == 1
assert isinstance(message.content[0], TextContent)
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