import json from collections import namedtuple from unittest.mock import MagicMock, patch import pytest from src.graph.nodes import ( _execute_agent_step, _setup_and_execute_agent_step, coordinator_node, human_feedback_node, planner_node, reporter_node, researcher_node, extract_plan_content, ) class TestExtractPlanContent: """Test cases for the extract_plan_content function.""" def test_extract_plan_content_with_string(self): """Test that extract_plan_content returns the input string as-is.""" plan_json_str = '{"locale": "en-US", "has_enough_context": false, "title": "Test Plan"}' result = extract_plan_content(plan_json_str) assert result == plan_json_str def test_extract_plan_content_with_ai_message(self): """Test that extract_plan_content extracts content from an AIMessage-like object.""" # Create a mock AIMessage object class MockAIMessage: def __init__(self, content): self.content = content plan_content = '{"locale": "zh-CN", "has_enough_context": false, "title": "测试计划"}' plan_message = MockAIMessage(plan_content) result = extract_plan_content(plan_message) assert result == plan_content def test_extract_plan_content_with_dict(self): """Test that extract_plan_content converts a dictionary to JSON string.""" plan_dict = { "locale": "fr-FR", "has_enough_context": True, "title": "Plan de test", "steps": [] } expected_json = json.dumps(plan_dict) result = extract_plan_content(plan_dict) assert result == expected_json def test_extract_plan_content_with_other_type(self): """Test that extract_plan_content converts other types to string.""" plan_value = 12345 expected_string = "12345" result = extract_plan_content(plan_value) assert result == expected_string def test_extract_plan_content_with_complex_dict(self): """Test that extract_plan_content handles complex nested dictionaries.""" plan_dict = { "locale": "zh-CN", "has_enough_context": False, "title": "埃菲尔铁塔与世界最高建筑高度比较研究计划", "thought": "要回答埃菲尔铁塔比世界最高建筑高多少倍的问题,我们需要知道埃菲尔铁塔的高度以及当前世界最高建筑的高度。", "steps": [ { "need_search": True, "title": "收集埃菲尔铁塔和世界最高建筑的高度数据", "description": "从可靠来源检索埃菲尔铁塔的确切高度以及目前被公认为世界最高建筑的建筑物及其高度数据。", "step_type": "research" }, { "need_search": True, "title": "查找其他超高建筑作为对比基准", "description": "获取其他具有代表性的超高建筑的高度数据,以提供更全面的比较背景。", "step_type": "research" } ] } result = extract_plan_content(plan_dict) # Verify the result can be parsed back to a dictionary parsed_result = json.loads(result) assert parsed_result == plan_dict def test_extract_plan_content_with_non_string_content(self): """Test that extract_plan_content handles AIMessage with non-string content.""" class MockAIMessageWithNonStringContent: def __init__(self, content): self.content = content # Test with non-string content (should not be extracted) plan_content = 12345 plan_message = MockAIMessageWithNonStringContent(plan_content) result = extract_plan_content(plan_message) # Should convert the entire object to string since content is not a string assert isinstance(result, str) assert "MockAIMessageWithNonStringContent" in result def test_extract_plan_content_with_empty_string(self): """Test that extract_plan_content handles empty strings.""" empty_string = "" result = extract_plan_content(empty_string) assert result == "" def test_extract_plan_content_with_empty_dict(self): """Test that extract_plan_content handles empty dictionaries.""" empty_dict = {} expected_json = "{}" result = extract_plan_content(empty_dict) assert result == expected_json def test_extract_plan_content_with_content_dict(self): """Test that extract_plan_content handles dictionaries with content.""" content_dict = {"content": { "locale": "zh-CN", "has_enough_context": False, "title": "埃菲尔铁塔与世界最高建筑高度比较研究计划", "thought": "要回答埃菲尔铁塔比世界最高建筑高多少倍的问题,我们需要知道埃菲尔铁塔的高度以及当前世界最高建筑的高度。", "steps": [ { "need_search": True, "title": "收集埃菲尔铁塔和世界最高建筑的高度数据", "description": "从可靠来源检索埃菲尔铁塔的确切高度以及目前被公认为世界最高建筑的建筑物及其高度数据。", "step_type": "research" } ] } } result = extract_plan_content(content_dict) # Verify the result can be parsed back to a dictionary parsed_result = json.loads(result) assert parsed_result == content_dict["content"] def test_extract_plan_content_with_content_string(self): content_dict = {"content": '{"locale": "en-US", "title": "Test"}'} result = extract_plan_content(content_dict) assert result == '{"locale": "en-US", "title": "Test"}' def test_extract_plan_content_issue_703_case(self): """Test that extract_plan_content handles the specific case from issue #703.""" # This is the exact structure that was causing the error in issue #703 class MockAIMessageFromIssue703: def __init__(self, content): self.content = content self.additional_kwargs = {} self.response_metadata = {'finish_reason': 'stop', 'model_name': 'qwen-max-latest'} self.type = 'ai' self.id = 'run--ebc626af-3845-472b-aeee-acddebf5a4ea' self.example = False self.tool_calls = [] self.invalid_tool_calls = [] plan_content = '''{ "locale": "zh-CN", "has_enough_context": false, "thought": "要回答埃菲尔铁塔比世界最高建筑高多少倍的问题,我们需要知道埃菲尔铁塔的高度以及当前世界最高建筑的高度。", "title": "埃菲尔铁塔与世界最高建筑高度比较研究计划", "steps": [ { "need_search": true, "title": "收集埃菲尔铁塔和世界最高建筑的高度数据", "description": "从可靠来源检索埃菲尔铁塔的确切高度以及目前被公认为世界最高建筑的建筑物及其高度数据。", "step_type": "research" } ] }''' plan_message = MockAIMessageFromIssue703(plan_content) # Extract the content result = extract_plan_content(plan_message) # Verify the extracted content is the same as the original assert result == plan_content # Verify the extracted content can be parsed as JSON parsed_result = json.loads(result) assert parsed_result["locale"] == "zh-CN" assert parsed_result["title"] == "埃菲尔铁塔与世界最高建筑高度比较研究计划" assert len(parsed_result["steps"]) == 1 assert parsed_result["steps"][0]["title"] == "收集埃菲尔铁塔和世界最高建筑的高度数据" # 在这里 mock 掉 get_llm_by_type,避免 ValueError with patch("src.llms.llm.get_llm_by_type", return_value=MagicMock()): from langchain_core.messages import HumanMessage from langgraph.types import Command from src.config import SearchEngine from src.graph.nodes import background_investigation_node # Mock data MOCK_SEARCH_RESULTS = [ {"title": "Test Title 1", "content": "Test Content 1"}, {"title": "Test Title 2", "content": "Test Content 2"}, ] @pytest.fixture def mock_state(): return { "messages": [HumanMessage(content="test query")], "research_topic": "test query", "background_investigation_results": None, } @pytest.fixture def mock_configurable(): mock = MagicMock() mock.max_search_results = 7 return mock @pytest.fixture def mock_config(): # 你可以根据实际需要返回一个 MagicMock 或 dict return MagicMock() @pytest.fixture def patch_config_from_runnable_config(mock_configurable): with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=mock_configurable, ): yield @pytest.fixture def mock_tavily_search(): with patch("src.graph.nodes.LoggedTavilySearch") as mock: instance = mock.return_value instance.invoke.return_value = [ {"title": "Test Title 1", "content": "Test Content 1"}, {"title": "Test Title 2", "content": "Test Content 2"}, ] yield mock @pytest.fixture def mock_web_search_tool(): with patch("src.graph.nodes.get_web_search_tool") as mock: instance = mock.return_value instance.invoke.return_value = [ {"title": "Test Title 1", "content": "Test Content 1"}, {"title": "Test Title 2", "content": "Test Content 2"}, ] yield mock @pytest.mark.parametrize("search_engine", [SearchEngine.TAVILY.value, "other"]) def test_background_investigation_node_tavily( mock_state, mock_tavily_search, mock_web_search_tool, search_engine, patch_config_from_runnable_config, mock_config, ): """Test background_investigation_node with Tavily search engine""" with patch("src.graph.nodes.SELECTED_SEARCH_ENGINE", search_engine): result = background_investigation_node(mock_state, mock_config) # Verify the result structure assert isinstance(result, dict) # Verify the update contains background_investigation_results assert "background_investigation_results" in result # Parse and verify the JSON content results = result["background_investigation_results"] if search_engine == SearchEngine.TAVILY.value: mock_tavily_search.return_value.invoke.assert_called_once_with("test query") assert ( results == "## Test Title 1\n\nTest Content 1\n\n## Test Title 2\n\nTest Content 2" ) else: mock_web_search_tool.return_value.invoke.assert_called_once_with( "test query" ) assert len(json.loads(results)) == 2 def test_background_investigation_node_malformed_response( mock_state, mock_tavily_search, patch_config_from_runnable_config, mock_config ): """Test background_investigation_node with malformed Tavily response""" with patch("src.graph.nodes.SELECTED_SEARCH_ENGINE", SearchEngine.TAVILY.value): # Mock a malformed response mock_tavily_search.return_value.invoke.return_value = "invalid response" result = background_investigation_node(mock_state, mock_config) # Verify the result structure assert isinstance(result, dict) # Verify the update contains background_investigation_results assert "background_investigation_results" in result # Parse and verify the JSON content results = result["background_investigation_results"] assert json.loads(results) == [] @pytest.fixture def mock_plan(): return { "has_enough_context": True, "title": "Test Plan", "thought": "Test Thought", "steps": [], "locale": "en-US", } @pytest.fixture def mock_state_planner(): return { "messages": [HumanMessage(content="plan this")], "plan_iterations": 0, "enable_background_investigation": True, "background_investigation_results": "Background info", } @pytest.fixture def mock_configurable_planner(): mock = MagicMock() mock.max_plan_iterations = 3 mock.enable_deep_thinking = False return mock @pytest.fixture def patch_config_from_runnable_config_planner(mock_configurable_planner): with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=mock_configurable_planner, ): yield @pytest.fixture def patch_apply_prompt_template(): with patch( "src.graph.nodes.apply_prompt_template", return_value=[{"role": "user", "content": "plan this"}], ) as mock: yield mock @pytest.fixture def patch_repair_json_output(): with patch("src.graph.nodes.repair_json_output", side_effect=lambda x: x) as mock: yield mock @pytest.fixture def patch_plan_model_validate(): with patch("src.graph.nodes.Plan.model_validate", side_effect=lambda x: x) as mock: yield mock @pytest.fixture def patch_ai_message(): AIMessage = namedtuple("AIMessage", ["content", "name"]) with patch( "src.graph.nodes.AIMessage", side_effect=lambda content, name: AIMessage(content, name), ) as mock: yield mock def test_planner_node_basic_has_enough_context( mock_state_planner, patch_config_from_runnable_config_planner, patch_apply_prompt_template, patch_repair_json_output, patch_plan_model_validate, patch_ai_message, mock_plan, ): # AGENT_LLM_MAP["planner"] == "basic" and not thinking mode with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.with_structured_output.return_value = mock_llm mock_response = MagicMock() mock_response.model_dump_json.return_value = json.dumps(mock_plan) mock_llm.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = planner_node(mock_state_planner, MagicMock()) assert isinstance(result, Command) assert result.goto == "reporter" assert "current_plan" in result.update assert result.update["current_plan"]["has_enough_context"] is True assert result.update["messages"][0].name == "planner" def test_planner_node_basic_not_enough_context( mock_state_planner, patch_config_from_runnable_config_planner, patch_apply_prompt_template, patch_repair_json_output, patch_plan_model_validate, patch_ai_message, ): # AGENT_LLM_MAP["planner"] == "basic" and not thinking mode plan = { "has_enough_context": False, "title": "Test Plan", "thought": "Test Thought", "steps": [], "locale": "en-US", } with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.with_structured_output.return_value = mock_llm mock_response = MagicMock() mock_response.model_dump_json.return_value = json.dumps(plan) mock_llm.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = planner_node(mock_state_planner, MagicMock()) assert isinstance(result, Command) assert result.goto == "human_feedback" assert "current_plan" in result.update assert isinstance(result.update["current_plan"], str) assert result.update["messages"][0].name == "planner" def test_planner_node_stream_mode_has_enough_context( mock_state_planner, patch_config_from_runnable_config_planner, patch_apply_prompt_template, patch_repair_json_output, patch_plan_model_validate, patch_ai_message, mock_plan, ): # AGENT_LLM_MAP["planner"] != "basic" with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "other"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() # Simulate streaming chunks chunk = MagicMock() chunk.content = json.dumps(mock_plan) mock_llm.stream.return_value = [chunk] mock_get_llm.return_value = mock_llm result = planner_node(mock_state_planner, MagicMock()) assert isinstance(result, Command) assert result.goto == "reporter" assert "current_plan" in result.update assert result.update["current_plan"]["has_enough_context"] is True def test_planner_node_stream_mode_not_enough_context( mock_state_planner, patch_config_from_runnable_config_planner, patch_apply_prompt_template, patch_repair_json_output, patch_plan_model_validate, patch_ai_message, ): # AGENT_LLM_MAP["planner"] != "basic" plan = { "has_enough_context": False, "title": "Test Plan", "thought": "Test Thought", "steps": [], "locale": "en-US", } with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "other"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() chunk = MagicMock() chunk.content = json.dumps(plan) mock_llm.stream.return_value = [chunk] mock_get_llm.return_value = mock_llm result = planner_node(mock_state_planner, MagicMock()) assert isinstance(result, Command) assert result.goto == "human_feedback" assert "current_plan" in result.update assert isinstance(result.update["current_plan"], str) def test_planner_node_plan_iterations_exceeded(mock_state_planner): # plan_iterations >= max_plan_iterations state = dict(mock_state_planner) state["plan_iterations"] = 5 with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "basic"}), patch("src.graph.nodes.get_llm_by_type", return_value=MagicMock()), ): result = planner_node(state, MagicMock()) assert isinstance(result, Command) assert result.goto == "reporter" def test_planner_node_json_decode_error_first_iteration(mock_state_planner): # Simulate JSONDecodeError on first iteration with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, patch( "src.graph.nodes.json.loads", side_effect=json.JSONDecodeError("err", "doc", 0), ), ): mock_llm = MagicMock() mock_llm.with_structured_output.return_value = mock_llm mock_response = MagicMock() mock_response.model_dump_json.return_value = '{"bad": "json"' mock_llm.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = planner_node(mock_state_planner, MagicMock()) assert isinstance(result, Command) assert result.goto == "__end__" def test_planner_node_json_decode_error_second_iteration(mock_state_planner): # Simulate JSONDecodeError on second iteration state = dict(mock_state_planner) state["plan_iterations"] = 1 with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"planner": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, patch( "src.graph.nodes.json.loads", side_effect=json.JSONDecodeError("err", "doc", 0), ), ): mock_llm = MagicMock() mock_llm.with_structured_output.return_value = mock_llm mock_response = MagicMock() mock_response.model_dump_json.return_value = '{"bad": "json"' mock_llm.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = planner_node(state, MagicMock()) assert isinstance(result, Command) assert result.goto == "reporter" # Patch Plan.model_validate and repair_json_output globally for these tests @pytest.fixture(autouse=True) def patch_plan_and_repair(monkeypatch): monkeypatch.setattr("src.graph.nodes.Plan.model_validate", lambda x: x) monkeypatch.setattr("src.graph.nodes.repair_json_output", lambda x: x) yield @pytest.fixture def mock_state_base(): return { "current_plan": json.dumps( { "has_enough_context": False, "title": "Test Plan", "thought": "Test Thought", "steps": [], "locale": "en-US", } ), "plan_iterations": 0, } def test_human_feedback_node_auto_accepted(monkeypatch, mock_state_base, mock_config): # auto_accepted_plan True, should skip interrupt and parse plan state = dict(mock_state_base) state["auto_accepted_plan"] = True result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "research_team" assert result.update["plan_iterations"] == 1 assert result.update["current_plan"]["has_enough_context"] is False def test_human_feedback_node_edit_plan(monkeypatch, mock_state_base, mock_config): # interrupt returns [EDIT_PLAN]..., should return Command to planner state = dict(mock_state_base) state["auto_accepted_plan"] = False with patch("src.graph.nodes.interrupt", return_value="[EDIT_PLAN] Please revise"): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "planner" assert result.update["messages"][0].name == "feedback" assert "[EDIT_PLAN]" in result.update["messages"][0].content def test_human_feedback_node_accepted(monkeypatch, mock_state_base, mock_config): # interrupt returns [ACCEPTED]..., should proceed to parse plan state = dict(mock_state_base) state["auto_accepted_plan"] = False with patch("src.graph.nodes.interrupt", return_value="[ACCEPTED] Looks good!"): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "research_team" assert result.update["plan_iterations"] == 1 assert result.update["current_plan"]["has_enough_context"] is False def test_human_feedback_node_invalid_interrupt( monkeypatch, mock_state_base, mock_config ): # interrupt returns something else, should gracefully return to planner (not raise TypeError) state = dict(mock_state_base) state["auto_accepted_plan"] = False with patch("src.graph.nodes.interrupt", return_value="RANDOM_FEEDBACK"): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "planner" def test_human_feedback_node_none_feedback( monkeypatch, mock_state_base, mock_config ): # interrupt returns None, should gracefully return to planner state = dict(mock_state_base) state["auto_accepted_plan"] = False with patch("src.graph.nodes.interrupt", return_value=None): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "planner" def test_human_feedback_node_empty_feedback( monkeypatch, mock_state_base, mock_config ): # interrupt returns empty string, should gracefully return to planner state = dict(mock_state_base) state["auto_accepted_plan"] = False with patch("src.graph.nodes.interrupt", return_value=""): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "planner" def test_human_feedback_node_json_decode_error_first_iteration( monkeypatch, mock_state_base, mock_config ): # repair_json_output returns bad json, json.loads raises JSONDecodeError, plan_iterations=0 state = dict(mock_state_base) state["auto_accepted_plan"] = True state["plan_iterations"] = 0 with patch( "src.graph.nodes.json.loads", side_effect=json.JSONDecodeError("err", "doc", 0) ): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "__end__" def test_human_feedback_node_json_decode_error_second_iteration( monkeypatch, mock_state_base, mock_config ): # repair_json_output returns bad json, json.loads raises JSONDecodeError, plan_iterations>0 state = dict(mock_state_base) state["auto_accepted_plan"] = True state["plan_iterations"] = 2 with patch( "src.graph.nodes.json.loads", side_effect=json.JSONDecodeError("err", "doc", 0) ): result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "reporter" def test_human_feedback_node_not_enough_context( monkeypatch, mock_state_base, mock_config ): # Plan does not have enough context, should goto research_team plan = { "has_enough_context": False, "title": "Test Plan", "thought": "Test Thought", "steps": [], "locale": "en-US", } state = dict(mock_state_base) state["current_plan"] = json.dumps(plan) state["auto_accepted_plan"] = True result = human_feedback_node(state, mock_config) assert isinstance(result, Command) assert result.goto == "research_team" assert result.update["plan_iterations"] == 1 assert result.update["current_plan"]["has_enough_context"] is False @pytest.fixture def mock_state_coordinator(): return { "messages": [{"role": "user", "content": "test"}], "locale": "en-US", "enable_clarification": False, } @pytest.fixture def mock_configurable_coordinator(): mock = MagicMock() mock.resources = ["resource1", "resource2"] return mock @pytest.fixture def patch_config_from_runnable_config_coordinator(mock_configurable_coordinator): with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=mock_configurable_coordinator, ): yield @pytest.fixture def patch_apply_prompt_template_coordinator(): with patch( "src.graph.nodes.apply_prompt_template", return_value=[{"role": "user", "content": "test"}], ) as mock: yield mock @pytest.fixture def patch_handoff_to_planner(): with patch("src.graph.nodes.handoff_to_planner", MagicMock()): yield @pytest.fixture def patch_logger(): with patch("src.graph.nodes.logger") as mock_logger: yield mock_logger def make_mock_llm_response(tool_calls=None): resp = MagicMock() resp.tool_calls = tool_calls or [] return resp def test_coordinator_node_no_tool_calls( mock_state_coordinator, patch_config_from_runnable_config_coordinator, patch_apply_prompt_template_coordinator, patch_handoff_to_planner, patch_logger, ): # No tool calls when clarification disabled - should end workflow (fix for issue #733) # When LLM doesn't call any tools in BRANCH 1, workflow ends gracefully with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"coordinator": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.bind_tools.return_value = mock_llm mock_llm.invoke.return_value = make_mock_llm_response([]) mock_get_llm.return_value = mock_llm result = coordinator_node(mock_state_coordinator, MagicMock()) # With direct_response tool available, no tool calls means end workflow assert result.goto == "__end__" assert result.update["locale"] == "en-US" assert result.update["resources"] == ["resource1", "resource2"] def test_coordinator_node_with_tool_calls_planner( mock_state_coordinator, patch_config_from_runnable_config_coordinator, patch_apply_prompt_template_coordinator, patch_handoff_to_planner, patch_logger, ): # tool_calls present, should goto planner tool_calls = [{"name": "handoff_to_planner", "args": {}}] with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"coordinator": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.bind_tools.return_value = mock_llm mock_llm.invoke.return_value = make_mock_llm_response(tool_calls) mock_get_llm.return_value = mock_llm result = coordinator_node(mock_state_coordinator, MagicMock()) assert result.goto == "planner" assert result.update["locale"] == "en-US" assert result.update["resources"] == ["resource1", "resource2"] def test_coordinator_node_with_tool_calls_background_investigator( mock_state_coordinator, patch_config_from_runnable_config_coordinator, patch_apply_prompt_template_coordinator, patch_handoff_to_planner, patch_logger, ): # enable_background_investigation True, should goto background_investigator state = dict(mock_state_coordinator) state["enable_background_investigation"] = True tool_calls = [{"name": "handoff_to_planner", "args": {}}] with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"coordinator": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.bind_tools.return_value = mock_llm mock_llm.invoke.return_value = make_mock_llm_response(tool_calls) mock_get_llm.return_value = mock_llm result = coordinator_node(state, MagicMock()) assert result.goto == "background_investigator" assert result.update["locale"] == "en-US" assert result.update["resources"] == ["resource1", "resource2"] def test_coordinator_node_with_tool_calls_locale_override( mock_state_coordinator, patch_config_from_runnable_config_coordinator, patch_apply_prompt_template_coordinator, patch_handoff_to_planner, patch_logger, ): # tool_calls with locale in args should override locale tool_calls = [ { "name": "handoff_to_planner", "args": {"locale": "auto", "research_topic": "test topic"}, } ] with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"coordinator": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.bind_tools.return_value = mock_llm mock_llm.invoke.return_value = make_mock_llm_response(tool_calls) mock_get_llm.return_value = mock_llm result = coordinator_node(mock_state_coordinator, MagicMock()) assert result.goto == "planner" assert result.update["locale"] == "en-US" assert result.update["research_topic"] == "test topic" assert result.update["resources"] == ["resource1", "resource2"] assert result.update["resources"] == ["resource1", "resource2"] def test_coordinator_node_tool_calls_exception_handling( mock_state_coordinator, patch_config_from_runnable_config_coordinator, patch_apply_prompt_template_coordinator, patch_handoff_to_planner, patch_logger, ): with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"coordinator": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.bind_tools.return_value = mock_llm # Simulate tool_call.get("args", {}) raising AttributeError class BadToolCall(dict): def get(self, key, default=None): if key == "args": raise Exception("bad args") return super().get(key, default) mock_llm.invoke.return_value = make_mock_llm_response( [BadToolCall({"name": "handoff_to_planner"})] ) mock_get_llm.return_value = mock_llm # Should not raise, just log error and continue result = coordinator_node(mock_state_coordinator, MagicMock()) assert result.goto == "planner" assert result.update["locale"] == "en-US" assert result.update["resources"] == ["resource1", "resource2"] @pytest.fixture def mock_state_reporter(): # Simulate a plan object with title and thought attributes Plan = namedtuple("Plan", ["title", "thought"]) return { "current_plan": Plan(title="Test Title", thought="Test Thought"), "locale": "en-US", "observations": [], } @pytest.fixture def mock_state_reporter_with_observations(): Plan = namedtuple("Plan", ["title", "thought"]) return { "current_plan": Plan(title="Test Title", thought="Test Thought"), "locale": "en-US", "observations": ["Observation 1", "Observation 2"], } @pytest.fixture def mock_configurable_reporter(): mock = MagicMock() return mock @pytest.fixture def patch_config_from_runnable_config_reporter(mock_configurable_reporter): with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=mock_configurable_reporter, ): yield @pytest.fixture def patch_apply_prompt_template_reporter(): with patch( "src.graph.nodes.apply_prompt_template", side_effect=lambda *args, **kwargs: [MagicMock()], ) as mock: yield mock @pytest.fixture def patch_human_message(): HumanMessage = MagicMock() with patch("src.graph.nodes.HumanMessage", HumanMessage): yield HumanMessage @pytest.fixture def patch_logger_reporter(): with patch("src.graph.nodes.logger") as mock_logger: yield mock_logger def make_mock_llm_response_reporter(content): resp = MagicMock() resp.content = content return resp def test_reporter_node_basic( mock_state_reporter, patch_config_from_runnable_config_reporter, patch_apply_prompt_template_reporter, patch_human_message, patch_logger_reporter, ): # Patch get_llm_by_type and AGENT_LLM_MAP with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"reporter": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.invoke.return_value = make_mock_llm_response_reporter( "Final Report Content" ) mock_get_llm.return_value = mock_llm result = reporter_node(mock_state_reporter, MagicMock()) assert isinstance(result, dict) assert "final_report" in result assert result["final_report"] == "Final Report Content" # Should call apply_prompt_template with correct arguments patch_apply_prompt_template_reporter.assert_called() # Should call invoke on the LLM mock_llm.invoke.assert_called() def test_reporter_node_with_observations( mock_state_reporter_with_observations, patch_config_from_runnable_config_reporter, patch_apply_prompt_template_reporter, patch_human_message, patch_logger_reporter, ): with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"reporter": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.invoke.return_value = make_mock_llm_response_reporter( "Report with Observations" ) mock_get_llm.return_value = mock_llm result = reporter_node(mock_state_reporter_with_observations, MagicMock()) assert isinstance(result, dict) assert "final_report" in result assert result["final_report"] == "Report with Observations" # Should call apply_prompt_template with correct arguments patch_apply_prompt_template_reporter.assert_called() # Should call invoke on the LLM mock_llm.invoke.assert_called() def test_reporter_node_locale_default( patch_config_from_runnable_config_reporter, patch_apply_prompt_template_reporter, patch_human_message, patch_logger_reporter, ): # If locale is missing, should default to "en-US" Plan = namedtuple("Plan", ["title", "thought"]) state = { "current_plan": Plan(title="Test Title", thought="Test Thought"), # "locale" omitted "observations": [], } with ( patch("src.graph.nodes.AGENT_LLM_MAP", {"reporter": "basic"}), patch("src.graph.nodes.get_llm_by_type") as mock_get_llm, ): mock_llm = MagicMock() mock_llm.invoke.return_value = make_mock_llm_response_reporter( "Default Locale Report" ) mock_get_llm.return_value = mock_llm result = reporter_node(state, MagicMock()) assert isinstance(result, dict) assert "final_report" in result assert result["final_report"] == "Default Locale Report" # Create the real Step class for the tests class Step: def __init__(self, title, description, execution_res=None): self.title = title self.description = description self.execution_res = execution_res @pytest.fixture def mock_step(): return Step(title="Step 1", description="Desc 1", execution_res=None) @pytest.fixture def mock_completed_step(): return Step(title="Step 0", description="Desc 0", execution_res="Done") @pytest.fixture def mock_state_with_steps(mock_step, mock_completed_step): # Simulate a plan with one completed and one unexecuted step Plan = MagicMock() Plan.steps = [mock_completed_step, mock_step] return { "current_plan": Plan, "observations": ["obs1"], "locale": "en-US", "resources": [], } @pytest.fixture def mock_state_no_unexecuted(): Step = namedtuple("Step", ["title", "description", "execution_res"]) Plan = MagicMock() Plan.steps = [ Step(title="Step 1", description="Desc 1", execution_res="done"), Step(title="Step 2", description="Desc 2", execution_res="done"), ] return { "current_plan": Plan, "observations": [], "locale": "en-US", "resources": [], } @pytest.fixture def mock_agent(): agent = MagicMock() async def ainvoke(input, config): # Simulate agent returning a message list return {"messages": [MagicMock(content="result content")]} agent.ainvoke = ainvoke return agent @pytest.mark.asyncio async def test_execute_agent_step_basic(mock_state_with_steps, mock_agent): # Should execute the first unexecuted step and update execution_res with patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock(content=content, name=name), ): result = await _execute_agent_step( mock_state_with_steps, mock_agent, "researcher" ) assert isinstance(result, Command) assert result.goto == "research_team" assert "messages" in result.update assert "observations" in result.update # The new observation should be appended assert result.update["observations"][-1] == "result content" + "\n\n[WARNING] This research was completed without using the web_search tool. " + "Please verify that the information provided is accurate and up-to-date." + "\n\n[VALIDATION WARNING] Researcher did not use the web_search tool as recommended." # The step's execution_res should be updated assert ( mock_state_with_steps["current_plan"].steps[1].execution_res == "result content" ) @pytest.mark.asyncio async def test_execute_agent_step_no_unexecuted_step( mock_state_no_unexecuted, mock_agent ): # Should return Command with goto="research_team" and not fail with patch("src.graph.nodes.logger") as mock_logger: result = await _execute_agent_step( mock_state_no_unexecuted, mock_agent, "researcher" ) assert isinstance(result, Command) assert result.goto == "research_team" # Updated assertion to match new debug logging format mock_logger.warning.assert_called_once() assert "No unexecuted step found" in mock_logger.warning.call_args[0][0] @pytest.mark.asyncio async def test_execute_agent_step_with_resources_and_researcher(mock_step): # Should add resource info and citation reminder for researcher Resource = namedtuple("Resource", ["title", "description"]) resources = [Resource(title="file1.txt", description="desc1")] Plan = MagicMock() Plan.steps = [mock_step] state = { "current_plan": Plan, "observations": [], "locale": "en-US", "resources": resources, } agent = MagicMock() async def ainvoke(input, config): # Check that resource info and citation reminder are present messages = input["messages"] assert any("local_search_tool" in m.content for m in messages) assert any("DO NOT include inline citations" in m.content for m in messages) return {"messages": [MagicMock(content="resource result")]} agent.ainvoke = ainvoke with patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock(content=content, name=name), ): result = await _execute_agent_step(state, agent, "researcher") assert isinstance(result, Command) assert result.goto == "research_team" assert result.update["observations"][-1] == "resource result" + "\n\n[WARNING] This research was completed without using the web_search tool. " + "Please verify that the information provided is accurate and up-to-date." + "\n\n[VALIDATION WARNING] Researcher did not use the web_search tool as recommended." @pytest.mark.asyncio async def test_execute_agent_step_recursion_limit_env( monkeypatch, mock_state_with_steps, mock_agent ): # Should respect AGENT_RECURSION_LIMIT env variable if set and valid monkeypatch.setenv("AGENT_RECURSION_LIMIT", "42") with ( patch("src.graph.nodes.logger") as mock_logger, patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock( content=content, name=name ), ), ): result = await _execute_agent_step(mock_state_with_steps, mock_agent, "coder") assert isinstance(result, Command) mock_logger.info.assert_any_call("Recursion limit set to: 42") @pytest.mark.asyncio async def test_execute_agent_step_recursion_limit_env_invalid( monkeypatch, mock_state_with_steps, mock_agent ): # Should fallback to default if env variable is invalid monkeypatch.setenv("AGENT_RECURSION_LIMIT", "notanint") with ( patch("src.graph.nodes.logger") as mock_logger, patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock( content=content, name=name ), ), ): result = await _execute_agent_step(mock_state_with_steps, mock_agent, "coder") assert isinstance(result, Command) mock_logger.warning.assert_any_call( "Invalid AGENT_RECURSION_LIMIT value: 'notanint'. Using default value 25." ) @pytest.mark.asyncio async def test_execute_agent_step_recursion_limit_env_negative( monkeypatch, mock_state_with_steps, mock_agent ): # Should fallback to default if env variable is negative or zero monkeypatch.setenv("AGENT_RECURSION_LIMIT", "-5") with ( patch("src.graph.nodes.logger") as mock_logger, patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock( content=content, name=name ), ), ): result = await _execute_agent_step(mock_state_with_steps, mock_agent, "coder") assert isinstance(result, Command) mock_logger.warning.assert_any_call( "AGENT_RECURSION_LIMIT value '-5' (parsed as -5) is not positive. Using default value 25." ) @pytest.fixture def mock_configurable_with_mcp(): mock = MagicMock() mock.mcp_settings = { "servers": { "server1": { "enabled_tools": ["toolA", "toolB"], "add_to_agents": ["researcher"], "transport": "http", "command": "run", "args": {}, "url": "http://localhost", "env": {}, "other": "ignore", } } } return mock @pytest.fixture def mock_configurable_without_mcp(): mock = MagicMock() mock.mcp_settings = None return mock @pytest.fixture def patch_config_from_runnable_config_with_mcp(mock_configurable_with_mcp): with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=mock_configurable_with_mcp, ): yield @pytest.fixture def patch_config_from_runnable_config_without_mcp(mock_configurable_without_mcp): with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=mock_configurable_without_mcp, ): yield @pytest.fixture def patch_create_agent(): with patch("src.graph.nodes.create_agent") as mock: yield mock @pytest.fixture def patch_execute_agent_step(): async def fake_execute_agent_step(state, agent, agent_type, config=None): return "EXECUTED" with patch( "src.graph.nodes._execute_agent_step", side_effect=fake_execute_agent_step ) as mock: yield mock @pytest.fixture def patch_multiserver_mcp_client(): # Patch MultiServerMCPClient as async context manager class FakeTool: def __init__(self, name, description="desc"): self.name = name self.description = description class FakeClient: async def __aenter__(self): return self async def __aexit__(self, exc_type, exc, tb): pass async def get_tools(self): return [ FakeTool("toolA", "descA"), FakeTool("toolB", "descB"), FakeTool("toolC", "descC"), ] with patch( "src.graph.nodes.MultiServerMCPClient", return_value=FakeClient() ) as mock: yield mock @pytest.mark.asyncio async def test_setup_and_execute_agent_step_with_mcp( mock_state_with_steps, mock_config, patch_config_from_runnable_config_with_mcp, patch_create_agent, patch_execute_agent_step, patch_multiserver_mcp_client, ): # Should use MCP client, load tools, and call create_agent with correct tools default_tools = [MagicMock(name="default_tool")] agent_type = "researcher" result = await _setup_and_execute_agent_step( mock_state_with_steps, mock_config, agent_type, default_tools, ) # Should call create_agent with loaded_tools including toolA and toolB args, kwargs = patch_create_agent.call_args loaded_tools = args[2] tool_names = [t.name for t in loaded_tools if hasattr(t, "name")] assert "toolA" in tool_names assert "toolB" in tool_names # Should call _execute_agent_step patch_execute_agent_step.assert_called_once() assert result == "EXECUTED" @pytest.mark.asyncio async def test_setup_and_execute_agent_step_without_mcp( mock_state_with_steps, mock_config, patch_config_from_runnable_config_without_mcp, patch_create_agent, patch_execute_agent_step, ): # Should use default tools and not use MCP client default_tools = [MagicMock(name="default_tool")] agent_type = "coder" result = await _setup_and_execute_agent_step( mock_state_with_steps, mock_config, agent_type, default_tools, ) # Should call create_agent with default_tools args, kwargs = patch_create_agent.call_args assert args[2] == default_tools patch_execute_agent_step.assert_called_once() assert result == "EXECUTED" @pytest.mark.asyncio async def test_setup_and_execute_agent_step_with_mcp_no_enabled_tools( mock_state_with_steps, mock_config, patch_create_agent, patch_execute_agent_step, ): # If mcp_settings present but no enabled_tools for agent_type, should fallback to default_tools mcp_settings = { "servers": { "server1": { "enabled_tools": ["toolA"], "add_to_agents": ["other_agent"], "transport": "http", "command": "run", "args": {}, "url": "http://localhost", "env": {}, } } } configurable = MagicMock() configurable.mcp_settings = mcp_settings with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=configurable, ): default_tools = [MagicMock(name="default_tool")] agent_type = "researcher" result = await _setup_and_execute_agent_step( mock_state_with_steps, mock_config, agent_type, default_tools, ) args, kwargs = patch_create_agent.call_args assert args[2] == default_tools patch_execute_agent_step.assert_called_once() assert result == "EXECUTED" @pytest.mark.asyncio async def test_setup_and_execute_agent_step_with_mcp_tools_description_update( mock_state_with_steps, mock_config, patch_config_from_runnable_config_with_mcp, patch_create_agent, patch_execute_agent_step, ): # Should update tool.description with Powered by info default_tools = [MagicMock(name="default_tool")] agent_type = "researcher" # Patch MultiServerMCPClient to check description update class FakeTool: def __init__(self, name, description="desc"): self.name = name self.description = description class FakeClient: async def __aenter__(self): return self async def __aexit__(self, exc_type, exc, tb): pass async def get_tools(self): return [FakeTool("toolA", "descA")] with patch("src.graph.nodes.MultiServerMCPClient", return_value=FakeClient()): await _setup_and_execute_agent_step( mock_state_with_steps, mock_config, agent_type, default_tools, ) # The tool description should be updated args, kwargs = patch_create_agent.call_args loaded_tools = args[2] found = False for t in loaded_tools: if hasattr(t, "name") and t.name == "toolA": assert t.description.startswith("Powered by 'server1'.\n") found = True assert found @pytest.fixture def mock_state_with_resources(): return {"resources": ["resource1", "resource2"], "other": "value"} @pytest.fixture def mock_state_without_resources(): return {"other": "value"} @pytest.fixture def patch_get_web_search_tool(): with patch("src.graph.nodes.get_web_search_tool") as mock: mock_tool = MagicMock(name="web_search_tool") mock.return_value = mock_tool yield mock @pytest.fixture def patch_crawl_tool(): with patch("src.graph.nodes.crawl_tool", MagicMock(name="crawl_tool")): yield @pytest.fixture def patch_get_retriever_tool(): with patch("src.graph.nodes.get_retriever_tool") as mock: yield mock @pytest.fixture def patch_setup_and_execute_agent_step(): async def fake_setup_and_execute_agent_step(state, config, agent_type, tools): return "RESEARCHER_RESULT" with patch( "src.graph.nodes._setup_and_execute_agent_step", side_effect=fake_setup_and_execute_agent_step, ) as mock: yield mock @pytest.mark.asyncio async def test_researcher_node_with_retriever_tool( mock_state_with_resources, mock_config, patch_config_from_runnable_config, patch_get_web_search_tool, patch_crawl_tool, patch_get_retriever_tool, patch_setup_and_execute_agent_step, ): # Simulate retriever_tool is returned retriever_tool = MagicMock(name="retriever_tool") patch_get_retriever_tool.return_value = retriever_tool result = await researcher_node(mock_state_with_resources, mock_config) # Should call get_web_search_tool with correct max_search_results patch_get_web_search_tool.assert_called_once_with(7) # Should call get_retriever_tool with resources patch_get_retriever_tool.assert_called_once_with(["resource1", "resource2"]) # Should call _setup_and_execute_agent_step with retriever_tool first args, kwargs = patch_setup_and_execute_agent_step.call_args tools = args[3] assert tools[0] == retriever_tool assert patch_get_web_search_tool.return_value in tools assert result == "RESEARCHER_RESULT" @pytest.mark.asyncio async def test_researcher_node_without_retriever_tool( mock_state_with_resources, mock_config, patch_config_from_runnable_config, patch_get_web_search_tool, patch_crawl_tool, patch_get_retriever_tool, patch_setup_and_execute_agent_step, ): # Simulate retriever_tool is None patch_get_retriever_tool.return_value = None result = await researcher_node(mock_state_with_resources, mock_config) patch_get_web_search_tool.assert_called_once_with(7) patch_get_retriever_tool.assert_called_once_with(["resource1", "resource2"]) args, kwargs = patch_setup_and_execute_agent_step.call_args tools = args[3] # Should not include retriever_tool assert all(getattr(t, "name", None) != "retriever_tool" for t in tools) assert patch_get_web_search_tool.return_value in tools assert result == "RESEARCHER_RESULT" @pytest.mark.asyncio async def test_researcher_node_without_resources( mock_state_without_resources, mock_config, patch_config_from_runnable_config, patch_get_web_search_tool, patch_crawl_tool, patch_get_retriever_tool, patch_setup_and_execute_agent_step, ): patch_get_retriever_tool.return_value = None result = await researcher_node(mock_state_without_resources, mock_config) patch_get_web_search_tool.assert_called_once_with(7) patch_get_retriever_tool.assert_called_once_with([]) args, kwargs = patch_setup_and_execute_agent_step.call_args tools = args[3] assert patch_get_web_search_tool.return_value in tools assert result == "RESEARCHER_RESULT" # ============================================================================ # Clarification Feature Tests # ============================================================================ @pytest.mark.asyncio async def test_clarification_workflow_integration(): """Test the complete clarification workflow integration.""" import inspect from src.workflow import run_agent_workflow_async # Verify that the function accepts clarification parameters sig = inspect.signature(run_agent_workflow_async) assert "max_clarification_rounds" in sig.parameters assert "enable_clarification" in sig.parameters assert "initial_state" in sig.parameters def test_clarification_parameters_combinations(): """Test various combinations of clarification parameters.""" from src.graph.nodes import needs_clarification test_cases = [ # (enable_clarification, clarification_rounds, max_rounds, is_complete, expected) (True, 0, 3, False, False), # No rounds started (True, 1, 3, False, True), # In progress (True, 2, 3, False, True), # In progress (True, 3, 3, False, True), # At max - still waiting for last answer (True, 4, 3, False, False), # Exceeded max (True, 1, 3, True, False), # Completed (False, 1, 3, False, False), # Disabled ] for enable, rounds, max_rounds, complete, expected in test_cases: state = { "enable_clarification": enable, "clarification_rounds": rounds, "max_clarification_rounds": max_rounds, "is_clarification_complete": complete, } result = needs_clarification(state) assert result == expected, f"Failed for case: {state}" def test_handoff_tools(): """Test that handoff tools are properly defined.""" from src.graph.nodes import handoff_after_clarification, handoff_to_planner # Test handoff_to_planner tool - use invoke() method result = handoff_to_planner.invoke( {"research_topic": "renewable energy", "locale": "en-US"} ) assert result is None # Tool should return None (no-op) # Test handoff_after_clarification tool - use invoke() method result = handoff_after_clarification.invoke( {"locale": "en-US", "research_topic": "renewable energy research"} ) assert result is None # Tool should return None (no-op) @patch("src.graph.nodes.get_llm_by_type") def test_coordinator_tools_with_clarification_enabled(mock_get_llm): """Test that coordinator binds correct tools when clarification is enabled.""" # Mock LLM response mock_llm = MagicMock() mock_response = MagicMock() mock_response.content = "Let me clarify..." mock_response.tool_calls = [] mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm # State with clarification enabled (in progress) state = { "messages": [{"role": "user", "content": "Tell me about something"}], "enable_clarification": True, "clarification_rounds": 2, "max_clarification_rounds": 3, "is_clarification_complete": False, "clarification_history": [ "Tell me about something", "response 1", "response 2", ], "locale": "en-US", "research_topic": "Tell me about something", } # Mock config config = {"configurable": {"resources": []}} # Call coordinator_node coordinator_node(state, config) # Verify that LLM was called with bind_tools assert mock_llm.bind_tools.called bound_tools = mock_llm.bind_tools.call_args[0][0] # Should bind 2 tools when clarification is enabled assert len(bound_tools) == 2 tool_names = [tool.name for tool in bound_tools] assert "handoff_to_planner" in tool_names assert "handoff_after_clarification" in tool_names @patch("src.graph.nodes.get_llm_by_type") def test_coordinator_tools_with_clarification_disabled(mock_get_llm): """Test that coordinator binds two tools when clarification is disabled (fix for issue #733).""" # Mock LLM response with tool call mock_llm = MagicMock() mock_response = MagicMock() mock_response.content = "" mock_response.tool_calls = [ { "name": "handoff_to_planner", "args": {"research_topic": "test", "locale": "en-US"}, } ] mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm # State with clarification disabled state = { "messages": [{"role": "user", "content": "Tell me about something"}], "enable_clarification": False, "locale": "en-US", "research_topic": "", } # Mock config config = {"configurable": {"resources": []}} # Call coordinator_node coordinator_node(state, config) # Verify that LLM was called with bind_tools assert mock_llm.bind_tools.called bound_tools = mock_llm.bind_tools.call_args[0][0] # Should bind 2 tools when clarification is disabled: handoff_to_planner and direct_response assert len(bound_tools) == 2 tool_names = {tool.name for tool in bound_tools} assert "handoff_to_planner" in tool_names assert "direct_response" in tool_names @patch("src.graph.nodes.get_llm_by_type") def test_coordinator_empty_llm_response_corner_case(mock_get_llm): """ Corner case test: LLM returns empty response when clarification is enabled. This tests error handling when LLM fails to return any content or tool calls in the initial state (clarification_rounds=0). The system should gracefully handle this by going to planner instead of crashing (fix for issue #535). Note: This is NOT a typical clarification workflow test, but rather tests fault tolerance when LLM misbehaves. """ # Mock LLM response - empty response (failure scenario) mock_llm = MagicMock() mock_response = MagicMock() mock_response.content = "" mock_response.tool_calls = [] mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm # State with clarification enabled but initial round state = { "messages": [{"role": "user", "content": "test"}], "enable_clarification": True, # clarification_rounds: 0 (default, not started) "locale": "en-US", "research_topic": "", } # Mock config config = {"configurable": {"resources": []}} # Call coordinator_node - should not crash result = coordinator_node(state, config) # Should gracefully handle empty response by going to planner to ensure workflow continues assert result.goto == "planner" assert result.update["locale"] == "en-US" # ============================================================================ # Clarification flow tests # ============================================================================ def test_clarification_handoff_combines_history(): """Coordinator should merge original topic with all clarification answers before handoff.""" from langchain_core.messages import AIMessage from langchain_core.runnables import RunnableConfig test_state = { "messages": [ {"role": "user", "content": "Research artificial intelligence"}, {"role": "assistant", "content": "Which area of AI should we focus on?"}, {"role": "user", "content": "Machine learning applications"}, {"role": "assistant", "content": "What dimension of that should we cover?"}, {"role": "user", "content": "Technical implementation details"}, ], "enable_clarification": True, "clarification_rounds": 2, "clarification_history": [ "Research artificial intelligence", "Machine learning applications", "Technical implementation details", ], "max_clarification_rounds": 3, "research_topic": "Research artificial intelligence", "clarified_research_topic": "Research artificial intelligence - Machine learning applications, Technical implementation details", "locale": "en-US", } config = RunnableConfig(configurable={"thread_id": "clarification-test"}) mock_response = AIMessage( content="Understood, handing off now.", tool_calls=[ { "name": "handoff_after_clarification", "args": {"locale": "en-US", "research_topic": "placeholder"}, "id": "tool-call-handoff", "type": "tool_call", } ], ) with patch("src.graph.nodes.get_llm_by_type") as mock_get_llm: mock_llm = MagicMock() mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = coordinator_node(test_state, config) assert hasattr(result, "update") update = result.update assert update["clarification_history"] == [ "Research artificial intelligence", "Machine learning applications", "Technical implementation details", ] expected_topic = ( "Research artificial intelligence - " "Machine learning applications, Technical implementation details" ) assert update["research_topic"] == "Research artificial intelligence" assert update["clarified_research_topic"] == expected_topic def test_clarification_history_reconstructed_from_messages(): """Coordinator should rebuild clarification history from full message log when state is incomplete.""" from langchain_core.messages import AIMessage from langchain_core.runnables import RunnableConfig incomplete_state = { "messages": [ {"role": "user", "content": "Research on renewable energy"}, { "role": "assistant", "content": "Which type of renewable energy interests you?", }, {"role": "user", "content": "Solar and wind energy"}, {"role": "assistant", "content": "Which aspect should we focus on?"}, {"role": "user", "content": "Technical implementation"}, ], "enable_clarification": True, "clarification_rounds": 2, "clarification_history": ["Technical implementation"], "max_clarification_rounds": 3, "research_topic": "Research on renewable energy", "clarified_research_topic": "Research on renewable energy", "locale": "en-US", } config = RunnableConfig(configurable={"thread_id": "clarification-history-rebuild"}) mock_response = AIMessage( content="Understood, handing over now.", tool_calls=[ { "name": "handoff_after_clarification", "args": {"locale": "en-US", "research_topic": "placeholder"}, "id": "tool-call-handoff", "type": "tool_call", } ], ) with patch("src.graph.nodes.get_llm_by_type") as mock_get_llm: mock_llm = MagicMock() mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = coordinator_node(incomplete_state, config) update = result.update assert update["clarification_history"] == [ "Research on renewable energy", "Solar and wind energy", "Technical implementation", ] assert update["research_topic"] == "Research on renewable energy" assert ( update["clarified_research_topic"] == "Research on renewable energy - Solar and wind energy, Technical implementation" ) def test_clarification_max_rounds_without_tool_call(): """Coordinator should stop asking questions after max rounds and hand off with compiled topic.""" from langchain_core.messages import AIMessage from langchain_core.runnables import RunnableConfig test_state = { "messages": [ {"role": "user", "content": "Research artificial intelligence"}, {"role": "assistant", "content": "Which area should we focus on?"}, {"role": "user", "content": "Natural language processing"}, {"role": "assistant", "content": "Which domain matters most?"}, {"role": "user", "content": "Healthcare"}, {"role": "assistant", "content": "Any specific scenario to study?"}, {"role": "user", "content": "Clinical documentation"}, ], "enable_clarification": True, "clarification_rounds": 3, "clarification_history": [ "Research artificial intelligence", "Natural language processing", "Healthcare", "Clinical documentation", ], "max_clarification_rounds": 3, "research_topic": "Research artificial intelligence", "clarified_research_topic": "Research artificial intelligence - Natural language processing, Healthcare, Clinical documentation", "locale": "en-US", } config = RunnableConfig(configurable={"thread_id": "clarification-max"}) mock_response = AIMessage( content="Got it, sending this to the planner.", tool_calls=[], ) with patch("src.graph.nodes.get_llm_by_type") as mock_get_llm: mock_llm = MagicMock() mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = coordinator_node(test_state, config) assert hasattr(result, "update") update = result.update expected_topic = ( "Research artificial intelligence - " "Natural language processing, Healthcare, Clinical documentation" ) assert update["research_topic"] == "Research artificial intelligence" assert update["clarified_research_topic"] == expected_topic assert result.goto == "planner" def test_clarification_human_message_support(): """Coordinator should treat HumanMessage instances from the user as user authored.""" from langchain_core.messages import AIMessage, HumanMessage from langchain_core.runnables import RunnableConfig test_state = { "messages": [ HumanMessage(content="Research artificial intelligence"), HumanMessage(content="Which area should we focus on?", name="coordinator"), HumanMessage(content="Machine learning"), HumanMessage( content="Which dimension should we explore?", name="coordinator" ), HumanMessage(content="Technical feasibility"), ], "enable_clarification": True, "clarification_rounds": 2, "clarification_history": [ "Research artificial intelligence", "Machine learning", "Technical feasibility", ], "max_clarification_rounds": 3, "research_topic": "Research artificial intelligence", "clarified_research_topic": "Research artificial intelligence - Machine learning, Technical feasibility", "locale": "en-US", } config = RunnableConfig(configurable={"thread_id": "clarification-human"}) mock_response = AIMessage( content="Moving to planner.", tool_calls=[ { "name": "handoff_after_clarification", "args": {"locale": "en-US", "research_topic": "placeholder"}, "id": "human-message-handoff", "type": "tool_call", } ], ) with patch("src.graph.nodes.get_llm_by_type") as mock_get_llm: mock_llm = MagicMock() mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = coordinator_node(test_state, config) assert hasattr(result, "update") update = result.update expected_topic = ( "Research artificial intelligence - Machine learning, Technical feasibility" ) assert update["clarification_history"] == [ "Research artificial intelligence", "Machine learning", "Technical feasibility", ] assert update["research_topic"] == "Research artificial intelligence" assert update["clarified_research_topic"] == expected_topic def test_clarification_no_history_defaults_to_topic(): """If clarification never started, coordinator should forward the original topic.""" from langchain_core.messages import AIMessage from langchain_core.runnables import RunnableConfig test_state = { "messages": [{"role": "user", "content": "What is quantum computing?"}], "enable_clarification": True, "clarification_rounds": 0, "clarification_history": ["What is quantum computing?"], "max_clarification_rounds": 3, "research_topic": "What is quantum computing?", "clarified_research_topic": "What is quantum computing?", "locale": "en-US", } config = RunnableConfig(configurable={"thread_id": "clarification-none"}) mock_response = AIMessage( content="Understood.", tool_calls=[ { "name": "handoff_to_planner", "args": {"locale": "en-US", "research_topic": "placeholder"}, "id": "clarification-none", "type": "tool_call", } ], ) with patch("src.graph.nodes.get_llm_by_type") as mock_get_llm: mock_llm = MagicMock() mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = coordinator_node(test_state, config) assert hasattr(result, "update") assert result.update["research_topic"] == "What is quantum computing?" assert result.update["clarified_research_topic"] == "What is quantum computing?" # ============================================================================ # Issue #650: Pydantic validation errors (missing step_type field) # ============================================================================ def test_planner_node_issue_650_missing_step_type_basic(): """Test planner_node with missing step_type fields (Issue #650).""" from src.graph.nodes import validate_and_fix_plan # Simulate LLM response with missing step_type (Issue #650 scenario) llm_response = { "locale": "en-US", "has_enough_context": False, "thought": "Need to gather data", "title": "Test Plan", "steps": [ { "need_search": True, "title": "Research Step", "description": "Gather info", # step_type MISSING - this is the issue }, { "need_search": False, "title": "Processing Step", "description": "Analyze", # step_type MISSING }, ], } # Apply the fix fixed_plan = validate_and_fix_plan(llm_response) # Verify all steps have step_type after fix assert isinstance(fixed_plan, dict) assert fixed_plan["steps"][0]["step_type"] == "research" # Issue #677: non-search steps now default to "analysis" instead of "processing" assert fixed_plan["steps"][1]["step_type"] == "analysis" assert all("step_type" in step for step in fixed_plan["steps"]) def test_planner_node_issue_650_water_footprint_scenario(): """Test the exact water footprint query scenario from Issue #650.""" from src.graph.nodes import validate_and_fix_plan # Approximate the exact plan structure that caused Issue #650 # "How many liters of water are required to produce 1 kg of beef?" llm_response = { "locale": "en-US", "has_enough_context": False, "thought": "You asked about water footprint of beef - need comprehensive data gathering", "title": "Research Plan — Water Footprint of 1 kg of Beef", "steps": [ { "need_search": True, "title": "Authoritative global estimates", "description": "Collect peer-reviewed estimates", # MISSING step_type }, { "need_search": True, "title": "System-specific data", "description": "Gather system-level variation data", # MISSING step_type }, { "need_search": False, "title": "Synthesize estimates", "description": "Calculate scenario-based estimates", # MISSING step_type }, ], } # Apply the fix fixed_plan = validate_and_fix_plan(llm_response) # Verify structure - all steps should have step_type filled in assert len(fixed_plan["steps"]) == 3 assert fixed_plan["steps"][0]["step_type"] == "research" assert fixed_plan["steps"][1]["step_type"] == "research" # Issue #677: non-search steps now default to "analysis" instead of "processing" assert fixed_plan["steps"][2]["step_type"] == "analysis" assert all("step_type" in step for step in fixed_plan["steps"]) def test_planner_node_issue_650_validation_error_fixed(): """Test that the validation error from Issue #650 is now prevented.""" from src.graph.nodes import validate_and_fix_plan # This is the exact type of response that caused the error in Issue #650 malformed_response = { "locale": "en-US", "has_enough_context": False, "title": "Test", "thought": "Test", "steps": [ { "need_search": True, "title": "Step 1", "description": "Test description", # Missing step_type - caused "Field required" error }, ], } # Before fix would raise: # ValidationError: 1 validation error for Plan # steps.0.step_type Field required [type=missing, ...] # After fix should succeed without raising exception fixed = validate_and_fix_plan(malformed_response) # Verify the fix was applied assert fixed["steps"][0]["step_type"] in ["research", "processing"] assert "step_type" in fixed["steps"][0] def test_human_feedback_node_issue_650_plan_parsing(): """Test human_feedback_node with Issue #650 plan that has missing step_type.""" from src.graph.nodes import human_feedback_node # Plan with missing step_type fields state = { "current_plan": json.dumps( { "locale": "en-US", "has_enough_context": False, "title": "Test Plan", "thought": "Test", "steps": [ { "need_search": True, "title": "Step 1", "description": "Gather", # MISSING step_type }, ], } ), "plan_iterations": 0, "auto_accepted_plan": True, } config = MagicMock() with patch( "src.graph.nodes.Configuration.from_runnable_config", return_value=MagicMock(enforce_web_search=False), ): with patch("src.graph.nodes.Plan.model_validate", side_effect=lambda x: x): with patch("src.graph.nodes.repair_json_output", side_effect=lambda x: x): result = human_feedback_node(state, config) # Should succeed without validation error assert isinstance(result, Command) assert result.goto == "research_team" def test_plan_validation_with_all_issue_650_error_scenarios(): """Test all variations of Issue #650 error scenarios.""" from src.graph.nodes import validate_and_fix_plan test_scenarios = [ # Missing step_type with need_search=true { "steps": [ {"need_search": True, "title": "R", "description": "D"}, ] }, # Missing step_type with need_search=false { "steps": [ {"need_search": False, "title": "P", "description": "D"}, ] }, # Multiple missing step_types { "steps": [ {"need_search": True, "title": "R1", "description": "D"}, {"need_search": True, "title": "R2", "description": "D"}, {"need_search": False, "title": "P", "description": "D"}, ] }, # Mix of missing and present step_type { "steps": [ {"need_search": True, "title": "R", "description": "D", "step_type": "research"}, {"need_search": False, "title": "P", "description": "D"}, ] }, ] for scenario in test_scenarios: plan = { "locale": "en-US", "has_enough_context": False, "title": "Test", "thought": "Test", **scenario, } # Should not raise exception fixed = validate_and_fix_plan(plan) # All steps should have step_type after fix for step in fixed["steps"]: assert "step_type" in step # Issue #677: 'analysis' is now a valid step_type assert step["step_type"] in ["research", "analysis", "processing"] def test_clarification_skips_specific_topics(): """Coordinator should skip clarification for already specific topics.""" from langchain_core.messages import AIMessage from langchain_core.runnables import RunnableConfig test_state = { "messages": [ { "role": "user", "content": "Research Plan for Improving Efficiency of AI e-commerce Video Synthesis Technology Based on Transformer Model", } ], "enable_clarification": True, "clarification_rounds": 0, "clarification_history": [], "max_clarification_rounds": 3, "research_topic": "Research Plan for Improving Efficiency of AI e-commerce Video Synthesis Technology Based on Transformer Model", "locale": "en-US", } config = RunnableConfig(configurable={"thread_id": "specific-topic-test"}) mock_response = AIMessage( content="I understand you want to research AI e-commerce video synthesis technology. Let me hand this off to the planner.", tool_calls=[ { "name": "handoff_to_planner", "args": { "locale": "en-US", "research_topic": "Research Plan for Improving Efficiency of AI e-commerce Video Synthesis Technology Based on Transformer Model", }, "id": "tool-call-handoff", "type": "tool_call", } ], ) with patch("src.graph.nodes.get_llm_by_type") as mock_get_llm: mock_llm = MagicMock() mock_llm.bind_tools.return_value.invoke.return_value = mock_response mock_get_llm.return_value = mock_llm result = coordinator_node(test_state, config) assert hasattr(result, "update") assert result.goto == "planner" assert ( result.update["research_topic"] == "Research Plan for Improving Efficiency of AI e-commerce Video Synthesis Technology Based on Transformer Model" ) # ============================================================================ # Issue #693 Tests: Multiple web_search ToolMessages Preservation # ============================================================================ @pytest.mark.asyncio async def test_execute_agent_step_preserves_multiple_tool_messages(): """ Test for Issue #693: Verify that all ToolMessages from multiple tool calls (e.g., multiple web_search calls) are preserved and not just the final result. This test ensures that when an agent makes multiple web_search calls, each ToolMessage is preserved in the Command update, allowing the frontend to receive and display all search results. """ from langchain_core.messages import AIMessage, ToolMessage # Create test state with a plan and an unexecuted step class TestStep: def __init__(self, title, description, execution_res=None): self.title = title self.description = description self.execution_res = execution_res Plan = MagicMock() Plan.title = "Test Research Plan" Plan.steps = [ TestStep(title="Test Step", description="Test Description", execution_res=None) ] state = { "current_plan": Plan, "observations": [], "locale": "en-US", "resources": [], } # Create a mock agent that simulates multiple web_search tool calls # This mimics what a ReAct agent does internally agent = MagicMock() async def mock_ainvoke(input, config): # Simulate the agent making 2 web_search calls with this message sequence: # 1. AIMessage with first tool call # 2. ToolMessage with first tool result # 3. AIMessage with second tool call # 4. ToolMessage with second tool result # 5. Final AIMessage with the complete response messages = [ AIMessage( content="I'll search for information about this topic.", tool_calls=[{ "id": "call_1", "name": "web_search", "args": {"query": "first search query"} }] ), ToolMessage( content="First search result content here", tool_call_id="call_1", name="web_search", ), AIMessage( content="Let me search for more specific information.", tool_calls=[{ "id": "call_2", "name": "web_search", "args": {"query": "second search query"} }] ), ToolMessage( content="Second search result content here", tool_call_id="call_2", name="web_search", ), AIMessage( content="Based on my research, here is the comprehensive answer..." ), ] return {"messages": messages} agent.ainvoke = mock_ainvoke # Execute the agent step with patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock(content=content, name=name), ): result = await _execute_agent_step(state, agent, "researcher") # Verify the result is a Command with correct goto assert isinstance(result, Command) assert result.goto == "research_team" # Verify that ALL messages are preserved in the Command update # (not just the final message content) messages_in_update = result.update.get("messages", []) # Should have 5 messages: 2 AIMessages + 2 ToolMessages + 1 final AIMessage assert len(messages_in_update) == 5, ( f"Expected 5 messages to be preserved, but got {len(messages_in_update)}. " f"This indicates that intermediate ToolMessages are being dropped, " f"which is the bug from Issue #693." ) # Verify message types message_types = [type(msg).__name__ for msg in messages_in_update] assert message_types.count("AIMessage") == 3, "Should have 3 AIMessages" assert message_types.count("ToolMessage") == 2, "Should have 2 ToolMessages" # Verify that we have both ToolMessages with their content tool_messages = [msg for msg in messages_in_update if isinstance(msg, ToolMessage)] assert len(tool_messages) == 2, "Should preserve both tool calls" assert "First search result content here" in tool_messages[0].content assert "Second search result content here" in tool_messages[1].content # Verify that observations still contain the final response assert "observations" in result.update observations = result.update["observations"] assert len(observations) > 0 assert "Based on my research" in observations[-1] # Verify step execution result is set to final message assert state["current_plan"].steps[0].execution_res == "Based on my research, here is the comprehensive answer..." @pytest.mark.asyncio async def test_execute_agent_step_single_tool_call_still_works(): """ Test that the fix for Issue #693 doesn't break the case where an agent makes only a single tool call. """ from langchain_core.messages import AIMessage, ToolMessage class TestStep: def __init__(self, title, description, execution_res=None): self.title = title self.description = description self.execution_res = execution_res Plan = MagicMock() Plan.title = "Test Research Plan" Plan.steps = [ TestStep(title="Test Step", description="Test Description", execution_res=None) ] state = { "current_plan": Plan, "observations": [], "locale": "en-US", "resources": [], } agent = MagicMock() async def mock_ainvoke(input, config): # Simulate a single web_search call messages = [ AIMessage( content="I'll search for information.", tool_calls=[{ "id": "call_1", "name": "web_search", "args": {"query": "search query"} }] ), ToolMessage( content="Search result content", tool_call_id="call_1", name="web_search", ), AIMessage( content="Here is the answer based on the search result." ), ] return {"messages": messages} agent.ainvoke = mock_ainvoke with patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock(content=content, name=name), ): result = await _execute_agent_step(state, agent, "researcher") # Verify result structure assert isinstance(result, Command) assert result.goto == "research_team" # Verify all 3 messages are preserved messages_in_update = result.update.get("messages", []) assert len(messages_in_update) == 3 # Verify the single tool message is present tool_messages = [msg for msg in messages_in_update if isinstance(msg, ToolMessage)] assert len(tool_messages) == 1 assert "Search result content" in tool_messages[0].content @pytest.mark.asyncio async def test_execute_agent_step_no_tool_calls_still_works(): """ Test that the fix for Issue #693 doesn't break the case where an agent completes without making any tool calls. """ from langchain_core.messages import AIMessage class TestStep: def __init__(self, title, description, execution_res=None): self.title = title self.description = description self.execution_res = execution_res Plan = MagicMock() Plan.title = "Test Research Plan" Plan.steps = [ TestStep(title="Test Step", description="Test Description", execution_res=None) ] state = { "current_plan": Plan, "observations": [], "locale": "en-US", "resources": [], } agent = MagicMock() async def mock_ainvoke(input, config): # Agent responds without making any tool calls messages = [ AIMessage( content="Based on my knowledge, here is the answer without needing to search." ), ] return {"messages": messages} agent.ainvoke = mock_ainvoke with patch( "src.graph.nodes.HumanMessage", side_effect=lambda content, name=None: MagicMock(content=content, name=name), ): result = await _execute_agent_step(state, agent, "researcher") # Verify result structure assert isinstance(result, Command) assert result.goto == "research_team" # Verify the single message is preserved messages_in_update = result.update.get("messages", []) assert len(messages_in_update) == 1 # Verify step execution result is set assert state["current_plan"].steps[0].execution_res == "Based on my knowledge, here is the answer without needing to search."