Composes durable text onto a user-provided system instruction (alongside the
turn-completion and async-tool-cancellation addons) so it is prepended on every
inference and survives context-message resets. The user's base prompt is now
snapshotted once and the effective instruction is always rebuilt from it,
replacing the prior lazy capture/restore logic with a single invariant.
The old name overlapped semantically with `UserStoppedSpeakingFrame`:
both could be read as "the user's turn is done." They're at different
layers — `UserStoppedSpeakingFrame` is the acoustic stop signal,
while this frame is the post-judgment "inference about the turn is
now complete (turn is semantically final)" signal emitted by the LLM
mixin (on ✓), an end-of-turn classifier, or a custom producer.
The new name pairs naturally with the existing
`on_user_turn_inference_triggered` event vocabulary and removes the
ambiguity with `UserStoppedSpeakingFrame`.
Add an `LLMMarkerFrame(DataFrame)` for sideband LLM markers that need
to be persisted to context but should not flow through the standard
text path (TTS, transcript). The frame carries an
`append_to_context_immediately` flag so the assistant aggregator can
either commit the marker as a stand-alone message (○ / ◐) or merge it
with the upcoming aggregation as a prefix on the response (✓).
`UserTurnCompletionLLMServiceMixin` now emits `LLMMarkerFrame` instead
of pushing the marker as `LLMTextFrame(skip_tts=True)`, which fixes
the case where an incomplete-turn marker (○ / ◐) was aggregated by
the assistant aggregator but never committed to the context because
the assistant turn lifecycle didn't run to completion (no spoken
response, no `LLMFullResponseEndFrame`-driven `push_aggregation`).
The frame is intentionally generic so other components — STT services
with built-in turn signals, end-of-turn classifiers, custom
annotations — can use the same mechanism to inject sideband signals
into the assistant context.
Fixes a real bug: with `filter_incomplete_user_turns` enabled, the
smart-turn detector's tentative stop was firing `on_user_turn_stopped`
before the LLM had a chance to veto it. Observers, transcript
appenders and UI indicators received an early — and sometimes
duplicated — signal.
Decomposes the single stop concern into two events:
- `on_user_turn_inference_triggered` fires when a stop strategy has
enough signal to start LLM inference. The aggregator pushes the
context here, kicking off the LLM call.
- `on_user_turn_stopped` fires only when the user turn is semantically
final. Built-in strategies fire both events at the same call site,
preserving today's behavior for the common case.
Adds `LLMTurnCompletionUserTurnStopStrategy`, which gates
finalization on a `UserTurnCompletedFrame` (a fieldless system frame
emitted by any component judging turn completeness — currently the
`UserTurnCompletionLLMServiceMixin` on `✓`).
Adds `deferred(strategy)` / `DeferredUserTurnStopStrategy`, a thin
wrapper that forwards an inner strategy's events except
`on_user_turn_stopped`. Use this to install a stop strategy as an
inference trigger only, leaving finalization to a peer (e.g. the LLM
completion strategy).
Adds `llm_completion_user_turn_stop_strategies()` for the common
case:
UserTurnStrategies(
stop=llm_completion_user_turn_stop_strategies(),
)
Deprecates `LLMUserAggregatorParams.filter_incomplete_user_turns`.
The aggregator emits a `DeprecationWarning`, wraps existing stop
strategies with `deferred(...)`, and appends
`LLMTurnCompletionUserTurnStopStrategy` automatically.
Turn completion instructions were being injected as a system message in
the LLM context, which caused warning spam when system_instruction was
also set, did not persist across full context updates, and broke LLMs
that do not support consecutive system messages.
Instead, compose the turn completion instructions into the LLM service
system_instruction field. This is managed via _base_system_instruction
which stores the original value for restoration when turn completion is
disabled.