from __future__ import annotations import abc import asyncio import copy import weakref from collections.abc import AsyncIterator from dataclasses import InitVar, dataclass, field from typing import TYPE_CHECKING, Any, Literal, TypeVar, cast from pydantic import GetCoreSchemaHandler from pydantic_core import core_schema from .agent import Agent from .agent_output import AgentOutputSchemaBase from .exceptions import ( AgentsException, InputGuardrailTripwireTriggered, MaxTurnsExceeded, RunErrorDetails, _should_drain_stream_events_before_raising, ) from .guardrail import InputGuardrailResult, OutputGuardrailResult from .items import ( ItemHelpers, ModelResponse, RunItem, ToolApprovalItem, TResponseInputItem, ) from .logger import logger from .run_context import RunContextWrapper from .run_internal.items import run_items_to_input_items from .run_internal.run_steps import ( NextStepInterruption, ProcessedResponse, QueueCompleteSentinel, ) from .run_state import RunState from .stream_events import StreamEvent from .tool_guardrails import ToolInputGuardrailResult, ToolOutputGuardrailResult from .tracing import Trace from .tracing.traces import TraceState from .util._pretty_print import ( pretty_print_result, pretty_print_run_result_streaming, ) if TYPE_CHECKING: from collections.abc import Awaitable, Callable from .sandbox.session.base_sandbox_session import BaseSandboxSession T = TypeVar("T") @dataclass(frozen=True) class AgentToolInvocation: """Immutable metadata about a nested agent-tool invocation.""" tool_name: str """The nested tool name exposed to the model.""" tool_call_id: str """The tool call ID for the nested invocation.""" tool_arguments: str """The raw JSON arguments for the nested invocation.""" def _populate_state_from_result( state: RunState[Any], result: RunResultBase, *, current_turn: int, last_processed_response: ProcessedResponse | None, current_turn_persisted_item_count: int, tool_use_tracker_snapshot: dict[str, list[str]], conversation_id: str | None = None, previous_response_id: str | None = None, auto_previous_response_id: bool = False, ) -> RunState[Any]: """Populate a RunState with common fields from a RunResult.""" state._current_agent = result.last_agent model_input_items = getattr(result, "_model_input_items", None) if isinstance(model_input_items, list): state._generated_items = list(model_input_items) else: state._generated_items = result.new_items state._session_items = list(result.new_items) state._model_responses = result.raw_responses state._input_guardrail_results = result.input_guardrail_results state._output_guardrail_results = result.output_guardrail_results state._tool_input_guardrail_results = result.tool_input_guardrail_results state._tool_output_guardrail_results = result.tool_output_guardrail_results state._last_processed_response = last_processed_response state._current_turn = current_turn state._current_turn_persisted_item_count = current_turn_persisted_item_count state.set_tool_use_tracker_snapshot(tool_use_tracker_snapshot) state._conversation_id = conversation_id state._previous_response_id = previous_response_id state._auto_previous_response_id = auto_previous_response_id source_state = getattr(result, "_state", None) if isinstance(source_state, RunState): state._generated_prompt_cache_key = source_state._generated_prompt_cache_key else: state._generated_prompt_cache_key = getattr(result, "_generated_prompt_cache_key", None) state._reasoning_item_id_policy = getattr(result, "_reasoning_item_id_policy", None) interruptions = list(getattr(result, "interruptions", [])) if interruptions: state._current_step = NextStepInterruption(interruptions=interruptions) trace_state = getattr(result, "_trace_state", None) if trace_state is None: trace_state = TraceState.from_trace(getattr(result, "trace", None)) state._trace_state = copy.deepcopy(trace_state) if trace_state else None sandbox_resume_state = getattr(result, "_sandbox_resume_state", None) if isinstance(sandbox_resume_state, dict): state._sandbox = copy.deepcopy(sandbox_resume_state) else: state._sandbox = None return state ToInputListMode = Literal["preserve_all", "normalized"] def _input_items_for_result( result: RunResultBase, *, mode: ToInputListMode, reasoning_item_id_policy: Literal["preserve", "omit"] | None, ) -> list[TResponseInputItem]: """Return input items for the requested result view. ``preserve_all`` keeps the full converted history from ``new_items``. ``normalized`` returns the canonical continuation input when handoff filtering rewrote model history, otherwise it falls back to the same converted history. """ session_items = run_items_to_input_items(result.new_items, reasoning_item_id_policy) if mode == "preserve_all": return session_items if mode != "normalized": raise ValueError(f"Unsupported to_input_list mode: {mode}") if not getattr(result, "_replay_from_model_input_items", False): # Most runs never rewrite continuation history, so normalized stays identical to the # historical preserve-all view unless the runner explicitly marked a divergence. return session_items model_input_items = getattr(result, "_model_input_items", None) if not isinstance(model_input_items, list): return session_items # When the runner marks a divergence, generated_items already reflect the continuation input # chosen for the next local run after applying handoff/input filtering. return run_items_to_input_items(model_input_items, reasoning_item_id_policy) def _starting_agent_for_state(result: RunResultBase) -> Agent[Any]: """Return the root agent graph that should seed RunState identity resolution.""" state = getattr(result, "_state", None) starting_agent = getattr(state, "_starting_agent", None) if isinstance(starting_agent, Agent): return starting_agent stored_starting_agent = getattr(result, "_starting_agent_for_state", None) if isinstance(stored_starting_agent, Agent): return stored_starting_agent return result.last_agent @dataclass class RunResultBase(abc.ABC): input: str | list[TResponseInputItem] """The original input items i.e. the items before run() was called. This may be a mutated version of the input, if there are handoff input filters that mutate the input. """ new_items: list[RunItem] """The new items generated during the agent run. These include things like new messages, tool calls and their outputs, etc. """ raw_responses: list[ModelResponse] """The raw LLM responses generated by the model during the agent run.""" final_output: Any """The output of the last agent.""" input_guardrail_results: list[InputGuardrailResult] """Guardrail results for the input messages.""" output_guardrail_results: list[OutputGuardrailResult] """Guardrail results for the final output of the agent.""" tool_input_guardrail_results: list[ToolInputGuardrailResult] """Tool input guardrail results from all tools executed during the run.""" tool_output_guardrail_results: list[ToolOutputGuardrailResult] """Tool output guardrail results from all tools executed during the run.""" context_wrapper: RunContextWrapper[Any] """The context wrapper for the agent run.""" _trace_state: TraceState | None = field(default=None, init=False, repr=False) """Serialized trace metadata captured during the run.""" _replay_from_model_input_items: bool = field(default=False, init=False, repr=False) """Whether replay helpers should prefer `_model_input_items` over `new_items`. This is only set when the runner preserved extra session history items that should not be replayed into the next local run, such as nested handoff history or filtered handoff input. """ _sandbox_resume_state: dict[str, object] | None = field(default=None, init=False, repr=False) """Serialized sandbox session state captured during the run.""" _sandbox_session: BaseSandboxSession | None = field(default=None, init=False, repr=False) """Live sandbox session attached to this run result when sandbox execution is enabled.""" _starting_agent_for_state: Agent[Any] | None = field(default=None, init=False, repr=False) """Root agent graph used when converting the result back into RunState.""" _generated_prompt_cache_key: str | None = field(default=None, init=False, repr=False) """SDK-generated prompt cache key captured during the run.""" @classmethod def __get_pydantic_core_schema__( cls, _source_type: Any, _handler: GetCoreSchemaHandler, ) -> core_schema.CoreSchema: # RunResult objects are runtime values; schema generation should treat them as instances # instead of recursively traversing internal dataclass annotations. return core_schema.is_instance_schema(cls) @property @abc.abstractmethod def last_agent(self) -> Agent[Any]: """The last agent that was run.""" def release_agents(self, *, release_new_items: bool = True) -> None: """ Release strong references to agents held by this result. After calling this method, accessing `item.agent` or `last_agent` may return `None` if the agent has been garbage collected. Callers can use this when they are done inspecting the result and want to eagerly drop any associated agent graph. """ if release_new_items: for item in self.new_items: release = getattr(item, "release_agent", None) if callable(release): release() self._release_last_agent_reference() def __del__(self) -> None: try: # Fall back to releasing agents automatically in case the caller never invoked # `release_agents()` explicitly so GC of the RunResult drops the last strong reference. # We pass `release_new_items=False` so RunItems that the user intentionally keeps # continue exposing their originating agent until that agent itself is collected. self.release_agents(release_new_items=False) except Exception: # Avoid raising from __del__. pass @abc.abstractmethod def _release_last_agent_reference(self) -> None: """Release stored agent reference specific to the concrete result type.""" def final_output_as(self, cls: type[T], raise_if_incorrect_type: bool = False) -> T: """A convenience method to cast the final output to a specific type. By default, the cast is only for the typechecker. If you set `raise_if_incorrect_type` to True, we'll raise a TypeError if the final output is not of the given type. Args: cls: The type to cast the final output to. raise_if_incorrect_type: If True, we'll raise a TypeError if the final output is not of the given type. Returns: The final output casted to the given type. """ if raise_if_incorrect_type and not isinstance(self.final_output, cls): raise TypeError(f"Final output is not of type {cls.__name__}") return cast(T, self.final_output) def to_input_list( self, *, mode: ToInputListMode = "preserve_all", ) -> list[TResponseInputItem]: """Create an input-item view of this run. ``mode="preserve_all"`` keeps the historical behavior of converting ``new_items`` into a full plain-item history. ``mode="normalized"`` prefers the canonical continuation input when handoff filtering rewrote model history, while remaining identical for ordinary runs. """ original_items: list[TResponseInputItem] = ItemHelpers.input_to_new_input_list(self.input) reasoning_item_id_policy = getattr(self, "_reasoning_item_id_policy", None) replay_items = _input_items_for_result( self, mode=mode, reasoning_item_id_policy=reasoning_item_id_policy, ) return original_items + replay_items @property def agent_tool_invocation(self) -> AgentToolInvocation | None: """Immutable metadata for results produced by `Agent.as_tool()`. Returns `None` for ordinary top-level runs. """ from .tool_context import ToolContext if not isinstance(self.context_wrapper, ToolContext): return None return AgentToolInvocation( tool_name=self.context_wrapper.tool_name, tool_call_id=self.context_wrapper.tool_call_id, tool_arguments=self.context_wrapper.tool_arguments, ) @property def last_response_id(self) -> str | None: """Convenience method to get the response ID of the last model response.""" if not self.raw_responses: return None return self.raw_responses[-1].response_id @dataclass class RunResult(RunResultBase): _last_agent: Agent[Any] _last_agent_ref: weakref.ReferenceType[Agent[Any]] | None = field( init=False, repr=False, default=None, ) _last_processed_response: ProcessedResponse | None = field(default=None, repr=False) """The last processed model response. This is needed for resuming from interruptions.""" _tool_use_tracker_snapshot: dict[str, list[str]] = field(default_factory=dict, repr=False) _current_turn_persisted_item_count: int = 0 """Number of items from new_items already persisted to session for the current turn.""" _current_turn: int = 0 """The current turn number. This is preserved when converting to RunState.""" _model_input_items: list[RunItem] = field(default_factory=list, repr=False) """Filtered items used to build model input when resuming runs.""" _original_input: str | list[TResponseInputItem] | None = field(default=None, repr=False) """The original input for the current run segment. This is updated when handoffs or resume logic replace the input history, and used by to_state() to preserve the correct originalInput when serializing state.""" _conversation_id: str | None = field(default=None, repr=False) """Conversation identifier for server-managed runs.""" _previous_response_id: str | None = field(default=None, repr=False) """Response identifier returned by the server for the last turn.""" _auto_previous_response_id: bool = field(default=False, repr=False) """Whether automatic previous response tracking was enabled.""" _reasoning_item_id_policy: Literal["preserve", "omit"] | None = field( default=None, init=False, repr=False ) """How reasoning IDs should be represented when converting to input history.""" max_turns: int | None = 10 """The maximum number of turns allowed for this run, or ``None`` for no limit.""" interruptions: list[ToolApprovalItem] = field(default_factory=list) """Pending tool approval requests (interruptions) for this run.""" def __post_init__(self) -> None: self._last_agent_ref = weakref.ref(self._last_agent) @property def last_agent(self) -> Agent[Any]: """The last agent that was run.""" agent = cast("Agent[Any] | None", self.__dict__.get("_last_agent")) if agent is not None: return agent if self._last_agent_ref: agent = self._last_agent_ref() if agent is not None: return agent raise AgentsException("Last agent reference is no longer available.") def _release_last_agent_reference(self) -> None: agent = cast("Agent[Any] | None", self.__dict__.get("_last_agent")) if agent is None: return self._last_agent_ref = weakref.ref(agent) # Preserve dataclass field so repr/asdict continue to succeed. self.__dict__["_last_agent"] = None def to_state(self) -> RunState[Any]: """Create a RunState from this result to resume execution. This is useful when the run was interrupted (e.g., for tool approval). You can approve or reject the tool calls on the returned state, then pass it back to `Runner.run()` to continue execution. Returns: A RunState that can be used to resume the run. Example: ```python # Run agent until it needs approval result = await Runner.run(agent, "Use the delete_file tool") if result.interruptions: # Approve the tool call state = result.to_state() state.approve(result.interruptions[0]) # Resume the run result = await Runner.run(agent, state) ``` """ # Create a RunState from the current result original_input_for_state = getattr(self, "_original_input", None) state = RunState( context=self.context_wrapper, original_input=original_input_for_state if original_input_for_state is not None else self.input, starting_agent=_starting_agent_for_state(self), max_turns=self.max_turns, ) return _populate_state_from_result( state, self, current_turn=self._current_turn, last_processed_response=self._last_processed_response, current_turn_persisted_item_count=self._current_turn_persisted_item_count, tool_use_tracker_snapshot=self._tool_use_tracker_snapshot, conversation_id=self._conversation_id, previous_response_id=self._previous_response_id, auto_previous_response_id=self._auto_previous_response_id, ) def __str__(self) -> str: return pretty_print_result(self) @dataclass class RunResultStreaming(RunResultBase): """The result of an agent run in streaming mode. You can use the `stream_events` method to receive semantic events as they are generated. The streaming method will raise: - A MaxTurnsExceeded exception if the agent exceeds the max_turns limit. - A GuardrailTripwireTriggered exception if a guardrail is tripped. """ current_agent: Agent[Any] """The current agent that is running.""" current_turn: int """The current turn number.""" max_turns: int | None """The maximum number of turns the agent can run for, or ``None`` for no limit.""" final_output: Any """The final output of the agent. This is None until the agent has finished running.""" _current_agent_output_schema: AgentOutputSchemaBase | None = field(repr=False) trace: Trace | None = field(repr=False) is_complete: bool = False """Whether the agent has finished running.""" _current_agent_ref: weakref.ReferenceType[Agent[Any]] | None = field( init=False, repr=False, default=None, ) _model_input_items: list[RunItem] = field(default_factory=list, repr=False) """Filtered items used to build model input between streaming turns.""" # Queues that the background run_loop writes to _event_queue: asyncio.Queue[StreamEvent | QueueCompleteSentinel] = field( default_factory=asyncio.Queue, repr=False ) _input_guardrail_queue: asyncio.Queue[InputGuardrailResult] = field( default_factory=asyncio.Queue, repr=False ) # Store the asyncio tasks that we're waiting on run_loop_task: asyncio.Task[Any] | None = field(default=None, repr=False) _input_guardrails_task: asyncio.Task[Any] | None = field(default=None, repr=False) _triggered_input_guardrail_result: InputGuardrailResult | None = field(default=None, repr=False) _output_guardrails_task: asyncio.Task[Any] | None = field(default=None, repr=False) _stored_exception: Exception | None = field(default=None, repr=False) _cancel_mode: Literal["none", "immediate", "after_turn"] = field(default="none", repr=False) _last_processed_response: ProcessedResponse | None = field(default=None, repr=False) """The last processed model response. This is needed for resuming from interruptions.""" interruptions: list[ToolApprovalItem] = field(default_factory=list) """Pending tool approval requests (interruptions) for this run.""" _waiting_on_event_queue: bool = field(default=False, repr=False) _current_turn_persisted_item_count: int = 0 """Number of items from new_items already persisted to session for the current turn.""" _stream_input_persisted: bool = False """Whether the input has been persisted to the session. Prevents double-saving.""" _original_input_for_persistence: list[TResponseInputItem] | None = None """Original turn input before session history was merged, used for persistence (matches JS sessionInputOriginalSnapshot).""" _max_turns_handled: bool = field(default=False, repr=False) _original_input: str | list[TResponseInputItem] | None = field(default=None, repr=False) """The original input from the first turn. Unlike `input`, this is never updated during the run. Used by to_state() to preserve the correct originalInput when serializing state.""" _tool_use_tracker_snapshot: dict[str, list[str]] = field(default_factory=dict, repr=False) _state: Any = field(default=None, repr=False) """Internal reference to the RunState for streaming results.""" _conversation_id: str | None = field(default=None, repr=False) """Conversation identifier for server-managed runs.""" _previous_response_id: str | None = field(default=None, repr=False) """Response identifier returned by the server for the last turn.""" _auto_previous_response_id: bool = field(default=False, repr=False) """Whether automatic previous response tracking was enabled.""" _reasoning_item_id_policy: Literal["preserve", "omit"] | None = field( default=None, init=False, repr=False ) """How reasoning IDs should be represented when converting to input history.""" _run_impl_task: InitVar[asyncio.Task[Any] | None] = None _sandbox_cleanup: Callable[[], Awaitable[None]] | None = field( default=None, init=False, repr=False, ) _sandbox_cleanup_task: asyncio.Task[None] | None = field(default=None, init=False, repr=False) _sandbox_cleanup_callback_registered: bool = field(default=False, init=False, repr=False) def __post_init__(self, _run_impl_task: asyncio.Task[Any] | None) -> None: self._current_agent_ref = weakref.ref(self.current_agent) # Store the original input at creation time (it will be set via input field) if self._original_input is None: self._original_input = self.input # Compatibility shim: accept legacy `_run_impl_task` constructor keyword. if self.run_loop_task is None and _run_impl_task is not None: self.run_loop_task = _run_impl_task @property def last_agent(self) -> Agent[Any]: """The last agent that was run. Updates as the agent run progresses, so the true last agent is only available after the agent run is complete. """ agent = cast("Agent[Any] | None", self.__dict__.get("current_agent")) if agent is not None: return agent if self._current_agent_ref: agent = self._current_agent_ref() if agent is not None: return agent raise AgentsException("Last agent reference is no longer available.") def _release_last_agent_reference(self) -> None: agent = cast("Agent[Any] | None", self.__dict__.get("current_agent")) if agent is None: return self._current_agent_ref = weakref.ref(agent) # Preserve dataclass field so repr/asdict continue to succeed. self.__dict__["current_agent"] = None async def _run_sandbox_cleanup(self) -> None: sandbox_cleanup = self._sandbox_cleanup if sandbox_cleanup is None: return task = self._sandbox_cleanup_task if task is None: async def _cleanup_once() -> None: try: await sandbox_cleanup() except Exception as error: logger.warning( "Failed to clean up sandbox resources after streamed run: %s", error ) task = asyncio.create_task(_cleanup_once()) self._sandbox_cleanup_task = task await task def ensure_sandbox_cleanup_on_completion(self) -> None: if ( self._sandbox_cleanup is None or self.run_loop_task is None or self._sandbox_cleanup_callback_registered ): return original_task = self.run_loop_task self._sandbox_cleanup_callback_registered = True original_task.add_done_callback( lambda _task: asyncio.create_task(self._run_sandbox_cleanup()) ) async def _await_run_and_cleanup() -> Any: try: result = await original_task except asyncio.CancelledError: if not original_task.done(): original_task.cancel() raise except Exception: await self._run_sandbox_cleanup() raise await self._run_sandbox_cleanup() return result self.run_loop_task = asyncio.create_task(_await_run_and_cleanup()) @property def run_loop_exception(self) -> BaseException | None: """The exception raised by the background run loop, if any. When the run loop fails before producing stream events (for example during early sandbox initialisation), the exception may not be re-raised through :meth:`stream_events`. This property gives callers a reliable way to check for silent failures after consuming the stream: .. code-block:: python result = Runner.run_streamed(agent, "hello") async for event in result.stream_events(): pass if result.run_loop_exception: raise result.run_loop_exception Returns ``None`` if the run loop completed without error, has not yet finished, or was cancelled. """ task = self.run_loop_task if task is None or not task.done() or task.cancelled(): return None return task.exception() def cancel(self, mode: Literal["immediate", "after_turn"] = "immediate") -> None: """Cancel the streaming run. Args: mode: Cancellation strategy: - "immediate": Stop immediately, cancel all tasks, clear queues (default) - "after_turn": Complete current turn gracefully before stopping * Allows LLM response to finish * Executes pending tool calls * Saves session state properly * Tracks usage accurately * Stops before next turn begins Example: ```python result = Runner.run_streamed(agent, "Task", session=session) async for event in result.stream_events(): if user_interrupted(): result.cancel(mode="after_turn") # Graceful # result.cancel() # Immediate (default) ``` Note: After calling cancel(), you should continue consuming stream_events() to allow the cancellation to complete properly. """ # Store the cancel mode for the background task to check self._cancel_mode = mode if mode == "immediate": # Existing behavior - immediate shutdown self._cleanup_tasks() # Cancel all running tasks self.is_complete = True # Mark the run as complete to stop event streaming while not self._input_guardrail_queue.empty(): self._input_guardrail_queue.get_nowait() # Unblock any streamers waiting on the event queue. self._event_queue.put_nowait(QueueCompleteSentinel()) if not self._waiting_on_event_queue: self._drain_event_queue() elif mode == "after_turn": # Soft cancel - just set the flag # The streaming loop will check this and stop gracefully # Don't call _cleanup_tasks() or clear queues yet pass async def stream_events(self) -> AsyncIterator[StreamEvent]: """Stream deltas for new items as they are generated. We're using the types from the OpenAI Responses API, so these are semantic events: each event has a `type` field that describes the type of the event, along with the data for that event. This will raise: - A MaxTurnsExceeded exception if the agent exceeds the max_turns limit. - A GuardrailTripwireTriggered exception if a guardrail is tripped. """ cancelled = False try: while True: self._check_errors() should_drain_queued_events = isinstance( self._stored_exception, MaxTurnsExceeded ) or ( self._stored_exception is not None and _should_drain_stream_events_before_raising(self._stored_exception) ) if self._stored_exception and ( not should_drain_queued_events or self._event_queue.empty() ): logger.debug("Breaking due to stored exception") self.is_complete = True break if self.is_complete and self._event_queue.empty(): break try: self._waiting_on_event_queue = True item = await self._event_queue.get() except asyncio.CancelledError: cancelled = True self.cancel() raise finally: self._waiting_on_event_queue = False if isinstance(item, QueueCompleteSentinel): # Await input guardrails if they are still running, so late # exceptions are captured. await self._await_task_safely(self._input_guardrails_task) self._event_queue.task_done() # Check for errors, in case the queue was completed # due to an exception self._check_errors() break yield item self._event_queue.task_done() finally: try: if cancelled: # Cancellation should return promptly, so avoid waiting on long-running tasks. # Tasks have already been cancelled above. self._cleanup_tasks() else: # Ensure main execution completes before cleanup to avoid race conditions # with session operations. await self._await_task_safely(self.run_loop_task) # Re-check for exceptions now that the run loop has fully settled. # _await_task_safely swallows exceptions; without this call, a run-loop # failure that races past the sentinel (e.g. early sandbox failures) would # be silently lost instead of surfaced via _stored_exception. self._check_errors() # Safely terminate all background tasks after main execution has finished. self._cleanup_tasks() if not cancelled: await self._run_sandbox_cleanup() finally: # Allow any pending callbacks (e.g., cancellation handlers) to enqueue their # completion sentinels before we clear the queues for observability. await asyncio.sleep(0) # Drain queues so callers observing internal state see them empty after completion. self._drain_event_queue() self._drain_input_guardrail_queue() if self._stored_exception: raise self._stored_exception def _create_error_details(self) -> RunErrorDetails: """Return a `RunErrorDetails` object considering the current attributes of the class.""" return RunErrorDetails( input=self.input, new_items=self.new_items, raw_responses=self.raw_responses, last_agent=self.current_agent, context_wrapper=self.context_wrapper, input_guardrail_results=self.input_guardrail_results, output_guardrail_results=self.output_guardrail_results, ) def _check_errors(self): if ( self.max_turns is not None and self.current_turn > self.max_turns and not self._max_turns_handled ): max_turns_exc = MaxTurnsExceeded(f"Max turns ({self.max_turns}) exceeded") max_turns_exc.run_data = self._create_error_details() self._stored_exception = max_turns_exc # Fetch all the completed guardrail results from the queue and raise if needed while not self._input_guardrail_queue.empty(): guardrail_result = self._input_guardrail_queue.get_nowait() if guardrail_result.output.tripwire_triggered: tripwire_exc = InputGuardrailTripwireTriggered(guardrail_result) tripwire_exc.run_data = self._create_error_details() self._stored_exception = tripwire_exc # Check the tasks for any exceptions if self.run_loop_task and self.run_loop_task.done(): if not self.run_loop_task.cancelled(): run_impl_exc = self.run_loop_task.exception() if run_impl_exc and isinstance(run_impl_exc, Exception): if isinstance(run_impl_exc, AgentsException) and run_impl_exc.run_data is None: run_impl_exc.run_data = self._create_error_details() self._stored_exception = run_impl_exc if self._input_guardrails_task and self._input_guardrails_task.done(): if not self._input_guardrails_task.cancelled(): in_guard_exc = self._input_guardrails_task.exception() if in_guard_exc and isinstance(in_guard_exc, Exception): if isinstance(in_guard_exc, AgentsException) and in_guard_exc.run_data is None: in_guard_exc.run_data = self._create_error_details() self._stored_exception = in_guard_exc if self._output_guardrails_task and self._output_guardrails_task.done(): if not self._output_guardrails_task.cancelled(): out_guard_exc = self._output_guardrails_task.exception() if out_guard_exc and isinstance(out_guard_exc, Exception): if ( isinstance(out_guard_exc, AgentsException) and out_guard_exc.run_data is None ): out_guard_exc.run_data = self._create_error_details() self._stored_exception = out_guard_exc def _cleanup_tasks(self): if self.run_loop_task and not self.run_loop_task.done(): self.run_loop_task.cancel() if self._input_guardrails_task and not self._input_guardrails_task.done(): self._input_guardrails_task.cancel() if self._output_guardrails_task and not self._output_guardrails_task.done(): self._output_guardrails_task.cancel() def __str__(self) -> str: return pretty_print_run_result_streaming(self) async def _await_task_safely(self, task: asyncio.Task[Any] | None) -> None: """Await a task if present, ignoring cancellation and storing exceptions elsewhere. This ensures we do not lose late guardrail exceptions while not surfacing CancelledError to callers of stream_events. """ if task and not task.done(): try: await task except asyncio.CancelledError: # Task was cancelled (e.g., due to result.cancel()). Nothing to do here. pass except Exception: # The exception will be surfaced via _check_errors() if needed. pass def _drain_event_queue(self) -> None: """Remove any pending items from the event queue and mark them done.""" while not self._event_queue.empty(): try: self._event_queue.get_nowait() self._event_queue.task_done() except asyncio.QueueEmpty: break except ValueError: # task_done called too many times; nothing more to drain. break def _drain_input_guardrail_queue(self) -> None: """Remove any pending items from the input guardrail queue.""" while not self._input_guardrail_queue.empty(): try: self._input_guardrail_queue.get_nowait() except asyncio.QueueEmpty: break def to_state(self) -> RunState[Any]: """Create a RunState from this streaming result to resume execution. This is useful when the run was interrupted (e.g., for tool approval). You can approve or reject the tool calls on the returned state, then pass it back to `Runner.run_streamed()` to continue execution. Returns: A RunState that can be used to resume the run. Example: ```python # Run agent until it needs approval result = Runner.run_streamed(agent, "Use the delete_file tool") async for event in result.stream_events(): pass if result.interruptions: # Approve the tool call state = result.to_state() state.approve(result.interruptions[0]) # Resume the run result = Runner.run_streamed(agent, state) async for event in result.stream_events(): pass ``` """ # Create a RunState from the current result # Use _original_input (updated on handoffs/resume when input history changes). # This avoids serializing a mutated view of input history. state = RunState( context=self.context_wrapper, original_input=self._original_input if self._original_input is not None else self.input, starting_agent=_starting_agent_for_state(self), max_turns=self.max_turns, ) return _populate_state_from_result( state, self, current_turn=self.current_turn, last_processed_response=self._last_processed_response, current_turn_persisted_item_count=self._current_turn_persisted_item_count, tool_use_tracker_snapshot=self._tool_use_tracker_snapshot, conversation_id=self._conversation_id, previous_response_id=self._previous_response_id, auto_previous_response_id=self._auto_previous_response_id, )