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microsoft--semantic-kernel/python/semantic_kernel/processes/local_runtime/local_step.py
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chore: import upstream snapshot with attribution
2026-07-13 13:21:23 +08:00

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Python

# Copyright (c) Microsoft. All rights reserved.
import asyncio
import logging
import uuid
from collections.abc import Callable
from inspect import isawaitable
from queue import Queue
from typing import Any
from pydantic import Field, model_validator
from semantic_kernel import Kernel
from semantic_kernel.exceptions import KernelException
from semantic_kernel.exceptions.process_exceptions import (
ProcessFunctionNotFoundException,
ProcessTargetFunctionNameMismatchException,
)
from semantic_kernel.functions import KernelFunction
from semantic_kernel.kernel_pydantic import KernelBaseModel
from semantic_kernel.processes.kernel_process.kernel_process_edge import KernelProcessEdge
from semantic_kernel.processes.kernel_process.kernel_process_event import KernelProcessEvent
from semantic_kernel.processes.kernel_process.kernel_process_message_channel import KernelProcessMessageChannel
from semantic_kernel.processes.kernel_process.kernel_process_step_info import KernelProcessStepInfo
from semantic_kernel.processes.kernel_process.kernel_process_step_state import KernelProcessStepState
from semantic_kernel.processes.local_runtime.local_event import LocalEvent
from semantic_kernel.processes.local_runtime.local_message import LocalMessage
from semantic_kernel.processes.process_types import get_generic_state_type
from semantic_kernel.processes.step_utils import find_input_channels, get_fully_qualified_name
from semantic_kernel.utils.feature_stage_decorator import experimental
logger: logging.Logger = logging.getLogger(__name__)
@experimental
class LocalStep(KernelProcessMessageChannel, KernelBaseModel):
"""A local step that is part of a local process."""
kernel: "Kernel"
step_info: "KernelProcessStepInfo"
outgoing_event_queue: Queue[LocalEvent] = Field(default_factory=Queue)
initialize_task: bool | None = False
event_namespace: str
step_state: KernelProcessStepState
inputs: dict[str, dict[str, Any | None]] = Field(default_factory=dict)
initial_inputs: dict[str, dict[str, Any | None]] = Field(default_factory=dict)
functions: dict[str, KernelFunction] = Field(default_factory=dict)
output_edges: dict[str, list[KernelProcessEdge]] = Field(default_factory=dict)
parent_process_id: str | None = None
init_lock: asyncio.Lock = Field(default_factory=asyncio.Lock, exclude=True)
factories: dict[str, Callable]
@model_validator(mode="before")
@classmethod
def parse_initial_configuration(cls, data: Any) -> Any:
"""Parses the initial configuration of the step."""
if isinstance(data, dict):
from semantic_kernel.processes.kernel_process.kernel_process import KernelProcess
step_info = data.get("step_info")
assert step_info is not None # nosec
if step_info and isinstance(step_info, KernelProcess) and step_info.state.id is None:
step_info.state.id = str(uuid.uuid4().hex)
data["step_state"] = step_info.state
data["output_edges"] = {k: v for k, v in step_info.edges.items()}
data["event_namespace"] = f"{step_info.state.name}_{step_info.state.id}"
return data
@property
def name(self) -> str:
"""Gets the name of the step."""
return self.step_info.state.name
@property
def id(self) -> str:
"""Gets the ID of the step."""
return self.step_info.state.id if self.step_info.state.id else ""
async def handle_message(self, message: LocalMessage):
"""Handles a LocalMessage that has been sent to the step."""
if message is None:
raise ValueError("The message is None.")
if not self.initialize_task:
async with self.init_lock:
# Second check to ensure that initialization happens only once
# This avoids a race condition where multiple coroutines might
# reach the first check at the same time before any of them acquire the lock.
if not self.initialize_task:
await self.initialize_step()
self.initialize_task = True
if self.functions is None or self.inputs is None or self.initial_inputs is None:
raise ValueError("The step has not been initialized.")
message_log_parameters = ", ".join(f"{k}: {v}" for k, v in message.values.items())
logger.info(
f"Received message from `{message.source_id}` targeting function "
f"`{message.function_name}` and parameters `{message_log_parameters}`."
)
# Add the message values to the inputs for the function
for k, v in message.values.items():
if self.inputs.get(message.function_name) and self.inputs[message.function_name].get(k):
logger.info(
f"Step {self.name} already has input for `{message.function_name}.{k}`, "
f"it is being overwritten with a message from Step named `{message.source_id}`."
)
if message.function_name not in self.inputs:
self.inputs[message.function_name] = {}
self.inputs[message.function_name][k] = v
invocable_functions = [
k
for k, v in self.inputs.items()
if v is not None and (v == {} or all(val is not None for val in v.values()))
]
missing_keys = [
f"{outer_key}.{inner_key}"
for outer_key, outer_value in self.inputs.items()
for inner_key, inner_value in outer_value.items()
if inner_value is None
]
if not invocable_functions:
logger.info(f"No invocable functions, missing keys: {', '.join(missing_keys)}")
return
target_function = next((name for name in invocable_functions if name == message.function_name), None)
if not target_function:
raise ProcessTargetFunctionNameMismatchException(
f"A message targeting function `{message.function_name}` has resulted in a different function "
f"`{invocable_functions[0]}` becoming invocable. Check the function names."
)
logger.info(
f"Step with Id '{self.id}' received all required input for function [{target_function}] and is executing."
)
# Concatenate all inputs and run the function
arguments = self.inputs[target_function]
function = self.functions.get(target_function)
if function is None:
raise ProcessFunctionNotFoundException(f"Function {target_function} not found in plugin {self.name}")
invoke_result = None
event_name: str = ""
event_value = None
try:
logger.info(
f"Invoking plugin `{function.plugin_name}` and function `{function.name}` with arguments: {arguments}"
)
invoke_result = await self.invoke_function(function, self.kernel, arguments)
if invoke_result is None:
raise KernelException(f"Function {target_function} returned None.")
event_name = f"{target_function}.OnResult"
event_value = invoke_result.value
except Exception as ex:
logger.error(f"Error in Step {self.name}: {ex!s}")
event_name = f"{target_function}.OnError"
event_value = str(ex)
finally:
await self.emit_event(KernelProcessEvent(id=event_name, data=event_value))
# Reset the inputs for the function that was just executed
self.inputs[target_function] = self.initial_inputs.get(target_function, {}).copy()
async def invoke_function(self, function: "KernelFunction", kernel: "Kernel", arguments: dict[str, Any]):
"""Invokes the function."""
return await kernel.invoke(function, **arguments)
async def emit_event(self, process_event: KernelProcessEvent):
"""Emits an event from the step."""
await self.emit_local_event(LocalEvent.from_kernel_process_event(process_event, self.event_namespace))
async def emit_local_event(self, local_event: "LocalEvent"):
"""Emits an event from the step."""
scoped_event = self.scoped_event(local_event)
self.outgoing_event_queue.put(scoped_event)
async def initialize_step(self):
"""Initializes the step."""
# Instantiate an instance of the inner step object
step_cls = self.step_info.inner_step_type
factory = (
self.factories.get(get_fully_qualified_name(self.step_info.inner_step_type)) if self.factories else None
)
if factory:
step_instance = factory()
if isawaitable(step_instance):
step_instance = await step_instance
step_cls = type(step_instance)
else:
step_instance = step_cls() # type: ignore
kernel_plugin = self.kernel.add_plugin(
step_instance, self.step_info.state.name if self.step_info.state else "default_name"
)
# Load the kernel functions
for name, f in kernel_plugin.functions.items():
self.functions[name] = f
# Initialize the input channels
self.initial_inputs = find_input_channels(channel=self, functions=self.functions)
self.inputs = {k: {kk: vv for kk, vv in v.items()} if v else {} for k, v in self.initial_inputs.items()}
# Use the existing state or create a new one if not provided
state_object = self.step_info.state
# Extract TState from inner_step_type
t_state = get_generic_state_type(step_cls)
if t_state is not None:
# Create state_type as KernelProcessStepState[TState]
state_type = KernelProcessStepState[t_state]
if state_object is None:
state_object = state_type(
name=step_cls.__name__,
id=step_cls.__name__,
state=None,
)
else:
# Make sure state_object is an instance of state_type
if not isinstance(state_object, KernelProcessStepState):
error_message = "State object is not of the expected type."
raise KernelException(error_message)
# Make sure that state_object.state is not None
if state_object.state is None:
try:
state_object.state = t_state()
except Exception as e:
error_message = f"Cannot instantiate state of type {t_state}: {e}"
raise KernelException(error_message)
else:
# The step has no user-defined state; use the base KernelProcessStepState
state_type = KernelProcessStepState
if state_object is None:
state_object = state_type(
name=step_cls.__name__,
id=step_cls.__name__,
state=None,
)
if state_object is None:
error_message = "The state object for the KernelProcessStep could not be created."
raise KernelException(error_message)
# Set the step state and activate the step with the state object
self.step_state = state_object
await step_instance.activate(state_object)
def get_all_events(self) -> list["LocalEvent"]:
"""Retrieves all events that have been emitted by this step in the previous superstep."""
all_events = []
while not self.outgoing_event_queue.empty():
all_events.append(self.outgoing_event_queue.get())
return all_events
def get_edge_for_event(self, event_id: str) -> list["KernelProcessEdge"]:
"""Retrieves all edges that are associated with the provided event Id."""
if not self.output_edges:
return []
return self.output_edges.get(event_id, [])
async def to_kernel_process_step_info(self) -> "KernelProcessStepInfo":
"""Extracts the current state of the step and returns it as a KernelProcessStepInfo."""
if not self.initialize_task:
async with self.init_lock:
# Second check to ensure that initialization happens only once
# This avoids a race condition where multiple coroutines might
# reach the first check at the same time before any of them acquire the lock.
if not self.initialize_task:
await self.initialize_step()
self.initialize_task = True
return KernelProcessStepInfo(
inner_step_type=self.step_info.inner_step_type, state=self.step_state, output_edges=self.output_edges
)
def scoped_event(self, local_event: "LocalEvent") -> "LocalEvent":
"""Generates a scoped event for the step."""
if local_event is None:
raise ValueError("The local event must be specified.")
local_event.namespace = f"{self.name}_{self.id}"
return local_event
def scoped_event_from_kernel_process(self, process_event: "KernelProcessEvent") -> "LocalEvent":
"""Generates a scoped event for the step from a KernelProcessEvent."""
if process_event is None:
raise ValueError("The process event must be specified.")
return LocalEvent.from_kernel_process_event(process_event, f"{self.name}_{self.id}")