import logging import pytest from invokeai.app.services.config.config_default import InvokeAIAppConfig from invokeai.app.services.item_storage.item_storage_memory import ItemStorageMemory # This import must happen before other invoke imports or test in other files(!!) break from .test_nodes import ( # isort: split ErrorInvocation, PromptTestInvocation, TestEventService, TextToImageTestInvocation, create_edge, wait_until, ) from invokeai.app.services.invocation_cache.invocation_cache_memory import MemoryInvocationCache from invokeai.app.services.invocation_processor.invocation_processor_default import DefaultInvocationProcessor from invokeai.app.services.invocation_queue.invocation_queue_memory import MemoryInvocationQueue from invokeai.app.services.invocation_services import InvocationServices from invokeai.app.services.invocation_stats.invocation_stats_default import InvocationStatsService from invokeai.app.services.invoker import Invoker from invokeai.app.services.session_queue.session_queue_common import DEFAULT_QUEUE_ID from invokeai.app.services.shared.graph import Graph, GraphExecutionState, GraphInvocation @pytest.fixture def simple_graph(): g = Graph() g.add_node(PromptTestInvocation(id="1", prompt="Banana sushi")) g.add_node(TextToImageTestInvocation(id="2")) g.add_edge(create_edge("1", "prompt", "2", "prompt")) return g @pytest.fixture def graph_with_subgraph(): sub_g = Graph() sub_g.add_node(PromptTestInvocation(id="1", prompt="Banana sushi")) sub_g.add_node(TextToImageTestInvocation(id="2")) sub_g.add_edge(create_edge("1", "prompt", "2", "prompt")) g = Graph() g.add_node(GraphInvocation(id="1", graph=sub_g)) return g # This must be defined here to avoid issues with the dynamic creation of the union of all invocation types # Defining it in a separate module will cause the union to be incomplete, and pydantic will not validate # the test invocations. @pytest.fixture def mock_services() -> InvocationServices: configuration = InvokeAIAppConfig(use_memory_db=True, node_cache_size=0) return InvocationServices( board_image_records=None, # type: ignore board_images=None, # type: ignore board_records=None, # type: ignore boards=None, # type: ignore configuration=configuration, events=TestEventService(), graph_execution_manager=ItemStorageMemory[GraphExecutionState](), image_files=None, # type: ignore image_records=None, # type: ignore images=None, # type: ignore invocation_cache=MemoryInvocationCache(max_cache_size=0), logger=logging, # type: ignore model_manager=None, # type: ignore model_records=None, # type: ignore download_queue=None, # type: ignore model_install=None, # type: ignore names=None, # type: ignore performance_statistics=InvocationStatsService(), processor=DefaultInvocationProcessor(), queue=MemoryInvocationQueue(), session_processor=None, # type: ignore session_queue=None, # type: ignore urls=None, # type: ignore workflow_records=None, # type: ignore tensors=None, conditioning=None, ) @pytest.fixture() def mock_invoker(mock_services: InvocationServices) -> Invoker: return Invoker(services=mock_services) def test_can_create_graph_state(mock_invoker: Invoker): g = mock_invoker.create_execution_state() mock_invoker.stop() assert g is not None assert isinstance(g, GraphExecutionState) def test_can_create_graph_state_from_graph(mock_invoker: Invoker, simple_graph): g = mock_invoker.create_execution_state(graph=simple_graph) mock_invoker.stop() assert g is not None assert isinstance(g, GraphExecutionState) assert g.graph == simple_graph # @pytest.mark.xfail(reason = "Requires fixing following the model manager refactor") def test_can_invoke(mock_invoker: Invoker, simple_graph): g = mock_invoker.create_execution_state(graph=simple_graph) invocation_id = mock_invoker.invoke( session_queue_batch_id="1", session_queue_item_id=1, session_queue_id=DEFAULT_QUEUE_ID, graph_execution_state=g, ) assert invocation_id is not None def has_executed_any(g: GraphExecutionState): g = mock_invoker.services.graph_execution_manager.get(g.id) return len(g.executed) > 0 wait_until(lambda: has_executed_any(g), timeout=5, interval=1) mock_invoker.stop() g = mock_invoker.services.graph_execution_manager.get(g.id) assert len(g.executed) > 0 # @pytest.mark.xfail(reason = "Requires fixing following the model manager refactor") def test_can_invoke_all(mock_invoker: Invoker, simple_graph): g = mock_invoker.create_execution_state(graph=simple_graph) invocation_id = mock_invoker.invoke( session_queue_batch_id="1", session_queue_item_id=1, session_queue_id=DEFAULT_QUEUE_ID, graph_execution_state=g, invoke_all=True, ) assert invocation_id is not None def has_executed_all(g: GraphExecutionState): g = mock_invoker.services.graph_execution_manager.get(g.id) return g.is_complete() wait_until(lambda: has_executed_all(g), timeout=5, interval=1) mock_invoker.stop() g = mock_invoker.services.graph_execution_manager.get(g.id) assert g.is_complete() # @pytest.mark.xfail(reason = "Requires fixing following the model manager refactor") def test_handles_errors(mock_invoker: Invoker): g = mock_invoker.create_execution_state() g.graph.add_node(ErrorInvocation(id="1")) mock_invoker.invoke( session_queue_batch_id="1", session_queue_item_id=1, session_queue_id=DEFAULT_QUEUE_ID, graph_execution_state=g, invoke_all=True, ) def has_executed_all(g: GraphExecutionState): g = mock_invoker.services.graph_execution_manager.get(g.id) return g.is_complete() wait_until(lambda: has_executed_all(g), timeout=5, interval=1) mock_invoker.stop() g = mock_invoker.services.graph_execution_manager.get(g.id) assert g.has_error() assert g.is_complete() assert all((i in g.errors for i in g.source_prepared_mapping["1"]))