Commit Graph

12 Commits

Author SHA1 Message Date
Aleix Conchillo Flaqué
8867426a97 Document sensor-controller example in the multi-task README
Add a Local-section entry with the running instructions, example
questions, and architecture diagram for the new sensor-controller
example.
2026-05-21 10:13:21 -07:00
Aleix Conchillo Flaqué
d984393213 Make local-handoff builder functions public
Rename ``_build_greeter`` / ``_build_support`` to ``build_greeter`` /
``build_support`` to match the convention used by other multi-task
examples (e.g. ``build_sensor_controller``). They're public factories
the example exposes; the leading underscore was misleading.
2026-05-21 10:13:21 -07:00
Aleix Conchillo Flaqué
410190dabb Add sensor-controller multi-task example
A voice agent talking to a worker that owns a simulated temperature
sensor. Demonstrates two ``PipelineTask`` instances side by side
communicating purely via ``BusJobRequestMessage`` /
``BusJobResponseMessage`` — the worker is a plain ``PipelineTask``
(no ``LLMTask`` subclassing, not bridged) whose pipeline runs both an
autonomous sensor tick loop and its own tool-calling LLM:

    SensorReader -> SensorStats -> user_agg -> llm -> assistant_agg

The voice agent's LLM has a single tool, ``ask_controller(question)``,
that forwards the user's request verbatim to the worker and speaks
back the controller's reply. The worker LLM has direct tools to read
the current temperature, inspect rolling stats, set the target, or
change the response rate; the sensor simulation drifts toward the
target with a first-order lag plus Gaussian noise.

Job responses are paired with completed LLM turns via the assistant
aggregator's ``on_assistant_turn_stopped`` event, skipping empty
turn-stopped events that fire between a tool call and its result.
2026-05-21 10:13:21 -07:00
Aleix Conchillo Flaqué
f22350ce2f Use symmetric spawn-then-run() pattern in multi-task examples
Switch every example to ``await runner.spawn(task)`` followed by
``await runner.run()`` (no task argument), and ``await runner.cancel()``
on client-disconnected instead of ``await task.cancel()``. This makes
the main pipeline task look the same as the worker / proxy tasks
spawned alongside it, and lets ``runner.cancel()`` drive a uniform
shutdown across every root task on the bus.
2026-05-21 10:13:21 -07:00
Aleix Conchillo Flaqué
de1bd7cb7e code-assistant: work around CancelledError swallow in ClaudeSDKClient
claude_agent_sdk's _AsyncioTaskHandle.wait() uses
`with suppress(asyncio.CancelledError)` to silence the inner read
task's expected cancellation, but it also swallows the outer task's
cancellation if it lands on the same await — causing cancel_task to
time out.

Bypass `async with ClaudeSDKClient` and drive connect/disconnect
ourselves so disconnect() runs in a finally where the outer
CancelledError has already been raised and suspended by Python's
exception machinery, out of reach of the SDK's suppress.
2026-05-21 10:13:21 -07:00
Aleix Conchillo Flaqué
a63abc41b6 Add README and env.example for multi-task examples
Adapts the pipecat-subagents `examples/README.md` to the new
layout (`multi-task/` umbrella, `local-handoff/`, `distributed-handoff/`,
`remote-proxy-assistant/`, `parallel-debate/`, `code-assistant/`),
updates the agent→task / job-RPC vocabulary, drops the
single-agent and llm-and-flows examples (gone in the port), and
adds a new section for the PGMQ handoff transport.
2026-05-21 10:13:21 -07:00
Aleix Conchillo Flaqué
4fbeb5fbcb Add remote-proxy-assistant example
Demonstrates the WebSocket proxy tasks: a local `main.py` voice
bot uses `WebSocketProxyClientTask` to forward bus messages
(including `BusFrameMessage`s) to a remote `assistant.py`
FastAPI server. Each incoming connection spawns a
`WebSocketProxyServerTask` plus an `LLMTask` assistant on a
per-session `PipelineRunner`.
2026-05-21 10:12:51 -07:00
Aleix Conchillo Flaqué
4509caa724 Add distributed-handoff examples (redis and pgmq)
Two transports of the same shape: a main task that hosts the
voice pipeline plus a network-backed `TaskBus` (`RedisBus` or
`PgmqBus`), and a standalone `llm.py` worker process for the
greeter / support LLM. Workers connect to the same bus channel,
register on the shared `TaskRegistry`, and the main task waits
on `runner.registry.watch("greeter", ...)` before sending the
welcome activation so it doesn't fire before the worker is up.
2026-05-21 10:12:51 -07:00
Aleix Conchillo Flaqué
0f7211d072 Add parallel-debate example
A voice moderator that fans out a debate topic to three worker
tasks (advocate, critic, analyst) via `task.job_group(...)`,
then synthesizes their replies. Workers are `LLMContextTask`s
that keep their own conversation context across rounds and use
the assistant-aggregator's `on_assistant_turn_stopped` event
to ship the completed turn back as a job response.
2026-05-21 10:12:51 -07:00
Aleix Conchillo Flaqué
7c4294b7f6 Add local-handoff-two-agents-tts example
Variant of the local handoff example with per-task TTS voices.
Each child task wraps the LLM with its own `CartesiaTTSService`
in a custom pipeline override, so the main task has no TTS and
audio comes from whichever child is active over the bus.
2026-05-21 10:12:51 -07:00
Aleix Conchillo Flaqué
6964686808 Add code-assistant example
Voice code assistant that dispatches questions to a Claude Agent
SDK worker. The main task runs the voice pipeline (STT + LLM + TTS)
and an `ask_code` direct function. `CodeWorker` is a bus-only
`BaseTask` spawned on the runner: it accepts `@job`-style
requests through the bus, queues them onto an asyncio queue, and
runs them sequentially through a persistent Claude SDK session so
follow-ups share context. The example shows the job-RPC surface
(`task.job("code_worker", ...)`), bus-only tasks (no pipeline),
and the `pipeline_task` field on `FunctionCallParams`.
2026-05-21 10:12:51 -07:00
Aleix Conchillo Flaqué
f364c088cf Add local-handoff-two-agents example
Two LLM tasks (greeter and support) handing off to each other over
the local `AsyncQueueBus`. The main task owns the transport
pipeline (STT, TTS, transport I/O) and the child tasks each run
their own LLM behind a `BusBridgeProcessor`. Each child uses
`bridged=()` so `PipelineTask` auto-wraps its pipeline with
the bus edge processors, and `transfer_to_agent` / `end_conversation`
tools demonstrate `handoff_to(...)` and `end(...)`.
2026-05-21 10:12:51 -07:00