# Copyright (c) Microsoft. All rights reserved. import asyncio from random import randint from typing import TYPE_CHECKING, Annotated from agent_framework import Message, tool from agent_framework.observability import get_tracer from agent_framework.openai import OpenAIResponsesClient from opentelemetry.trace import SpanKind from opentelemetry.trace.span import format_trace_id from pydantic import Field if TYPE_CHECKING: from agent_framework import SupportsChatGetResponse """ This sample shows how you can configure observability of an application with zero code changes. It relies on the OpenTelemetry auto-instrumentation capabilities, and the observability setup is done via environment variables. Follow the install guidance from https://opentelemetry.io/docs/zero-code/python/ to install the OpenTelemetry CLI tool, when using `uv` there are some additional steps, so follow the instructions carefully. And setup a local OpenTelemetry Collector instance to receive the traces and metrics (and update the endpoint below). Then you can run: ```bash opentelemetry-instrument \ --traces_exporter otlp \ --metrics_exporter otlp \ --service_name agent_framework \ --exporter_otlp_endpoint http://localhost:4317 \ python python/samples/02-agents/observability/advanced_zero_code.py ``` (or use uv run in front when you've done the install within your uv virtual environment) You can also set the environment variables instead of passing them as CLI arguments. """ # NOTE: approval_mode="never_require" is for sample brevity. # Use "always_require" in production; see samples/02-agents/tools/function_tool_with_approval.py # and samples/02-agents/tools/function_tool_with_approval_and_sessions.py. @tool(approval_mode="never_require") async def get_weather( location: Annotated[str, Field(description="The location to get the weather for.")], ) -> str: """Get the weather for a given location.""" await asyncio.sleep(randint(0, 10) / 10.0) # Simulate a network call conditions = ["sunny", "cloudy", "rainy", "stormy"] return f"The weather in {location} is {conditions[randint(0, 3)]} with a high of {randint(10, 30)}°C." async def run_chat_client(client: "SupportsChatGetResponse", stream: bool = False) -> None: """Run an AI service. This function runs an AI service and prints the output. Telemetry will be collected for the service execution behind the scenes, and the traces will be sent to the configured telemetry backend. The telemetry will include information about the AI service execution. Args: stream: Whether to use streaming for the plugin Remarks: When function calling is outside the open telemetry loop each of the call to the model is handled as a separate span, while when the open telemetry is put last, a single span is shown, which might include one or more rounds of function calling. So for the scenario below, you should see the following: 2 spans with gen_ai.operation.name=chat The first has finish_reason "tool_calls" The second has finish_reason "stop" 2 spans with gen_ai.operation.name=execute_tool """ message = "What's the weather in Amsterdam and in Paris?" print(f"User: {message}") if stream: print("Assistant: ", end="") async for chunk in client.get_response([Message(role="user", text=message)], tools=get_weather, stream=True): if chunk.text: print(chunk.text, end="") print("") else: response = await client.get_response([Message(role="user", text=message)], tools=get_weather) print(f"Assistant: {response}") async def main() -> None: with get_tracer().start_as_current_span("Zero Code", kind=SpanKind.CLIENT) as current_span: print(f"Trace ID: {format_trace_id(current_span.get_span_context().trace_id)}") client = OpenAIResponsesClient() await run_chat_client(client, stream=True) await run_chat_client(client, stream=False) if __name__ == "__main__": asyncio.run(main())