Real-robot run was unreadable for two reasons:
1. The panel surfaced ``queued actions: 0`` (always zero — dispatch
pops faster than chunk_hz generates) and gave no signal that
actions were actually reaching the robot. The only sign of life
was the safety-clamp warning lines scrolling past.
2. The text head consistently collapses to ``the`` / ``Ass``
fragments on real-camera input (memorisation wall). The old
gibberish filter caught ``":":":"`` JSON salad but let
single-token fragments through, and the ``[info] subtask gen
produced no text this tick`` line flooded the panel every second.
Changes:
* ``DispatchAction`` bumps ``state["actions_dispatched"]`` each
tick; panel renders it next to queue depth. Operator can see
the policy IS issuing actions even when text is broken.
* ``_looks_like_gibberish`` now also rejects:
- too few unique alphabetic tokens (``the``, ``the the``, ...)
- chat-template marker leakage (``Assistant:``, ``Ass\\n::``)
catching the actual failure mode on real-robot frames.
* Gibberish rejections log only the first occurrence + every 30th
after that, with a count, so the panel stays legible.
* Empty completions no longer log at all (was every tick).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Dry-run REPL had a clean ANSI-clear-+-rich-panel layout via
``_redraw`` showing task / subtask / plan / memory / queued-actions /
pending-tool-calls; autonomous mode just had bare ``> `` plus log
lines scrolling past the user. Same data, two presentations.
Extract ``_make_state_panel_renderer(runtime, mode_label=...)`` and
use it from both ``_run_repl`` (called per user input) and
``_run_autonomous`` (called both on user input *and* on a 0.5s
background timer so subtask / plan / memory refreshes from the
runtime's own loop become visible without the user typing anything).
Title bar shows ``dry-run`` vs ``autonomous`` so it's obvious which
mode you're in.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Training tokenises messages through ``_strip_lerobot_blocks`` (in
``chat_processor_smolvla2.py``), which normalises every variant of
``message['content']`` into the ``[{type:text, text:...}]`` list shape
SmolVLM's chat template expects:
* ``list[block]`` → keep text blocks, drop images
* ``None`` → ``[{type:text, text:""}]``
* ``str`` / other → ``[{type:text, text:str(content)}]``
Inference was doing a partial inline conversion that only handled the
``str`` case — ``None`` and pre-formatted ``list`` content slipped
through unchanged. ``memory_update``'s ``Previous memory: ...``
assistant turn ends up with ``None`` content when there's no prior
memory, which then renders as no-content / role-marker-only and the
model hallucinates ``Assistant:`` fragments. Subtask gen got further
because its prompt always has at least the task string.
Reuse ``_strip_lerobot_blocks`` directly. Now the inference prompt
shape matches the exact tokenisation training did — no more "trained
on shape X, asked to predict shape Y" mismatch.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
SmolVLM's chat template (and many other multimodal templates) declares
``message['content']`` as a list of typed blocks and iterates it
expecting dicts with a ``'type'`` field:
{% for line in message['content'] %}
{% if line['type'] == 'text' %}{{ line['text'] }}
{% elif line['type'] == 'image' %}{{ '<image>' }}
{% endif %}
{% endfor %}
When the caller passes ``content`` as a plain ``str`` (which we did
throughout ``_msgs_for_subtask`` / ``_msgs_for_memory`` etc.), Jinja
silently iterates the string character-by-character. ``'P'['type']``
returns nothing; neither branch fires; *no text tokens get emitted*.
The model receives a prompt containing only role markers
(``User:<end_of_utterance>\nAssistant:``) and predictably continues by
emitting ``Assistant:`` fragments — the gibberish ``subtask: Ass\n::``
on the runtime panel.
Before calling ``apply_chat_template``, walk the messages and rewrite
any string ``content`` into ``[{'type': 'text', 'text': content}]``.
The template's text branch then fires correctly and the model sees
the actual user/assistant text, not just structural tokens.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
``PolicyProcessorPipeline.__call__`` already wraps its input via
``to_transition`` (defaulting to ``batch_to_transition``) before
running the steps, and unwraps via ``to_output`` (defaulting to
``transition_to_batch``) afterwards. The input format is therefore a
*flat batch dict* keyed by ``observation.*`` / ``action`` / etc., not
an ``EnvTransition``.
Previous attempt pre-wrapped the observation into a transition with
``TransitionKey.OBSERVATION`` as the key, then handed *that* to the
pipeline — which fed it to ``batch_to_transition``, which looked for
top-level ``observation.*`` entries, found none (they were nested
inside the enum key), and produced an empty observation. Every step
then bailed with ``ObservationProcessorStep requires an observation
in the transition.``
Pass the flat dict from ``build_inference_frame`` straight to the
preprocessor — it does the wrap/unwrap itself.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
``EnvTransition`` is declared as a ``TypedDict`` keyed by
``TransitionKey.OBSERVATION.value`` (the string ``'observation'``),
but every concrete ``ProcessorStep`` in the pipeline indexes the
transition with the enum *member* (``transition[TransitionKey.
OBSERVATION]`` / ``transition.get(TransitionKey.OBSERVATION)``).
Those are two different keys in a Python dict — string key vs enum
key — so steps couldn't find the observation we'd placed under the
string variant, and bailed every tick with
``ObservationProcessorStep requires an observation in the
transition``.
Build the transition with the enum members directly. Matches how
``BatchProcessor``, ``RelativeActionProcessor``, ``HilProcessor``,
etc. read the dict.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
``robot.get_observation()`` on omx_follower (and most lerobot robots)
returns:
* per-joint scalar floats with ``.pos`` suffix
(``shoulder_pan.pos: 0.123``, ``shoulder_lift.pos: 0.456``, ...)
* per-camera ndarrays keyed by the camera config name (``wrist:
ndarray(H,W,3)``)
But the trained policy expects:
* single ``observation.state: tensor[N_joints]`` vector
* image keys prefixed: ``observation.images.<cam_key>:
tensor[1, 3, H, W]``
``prepare_observation_for_inference`` only handles the tensor /
batch-dim / device step — it crashes on scalar floats with
``expected np.ndarray (got float)``. The right helper is
``build_inference_frame`` which uses the dataset's feature schema
(``ds_meta.features``) to:
1. extract the right raw keys per dataset feature,
2. fold ``shoulder_pan.pos`` / ``shoulder_lift.pos`` / ...
into a single ``observation.state`` ndarray,
3. prefix camera keys with ``observation.images.``,
4. delegate to ``prepare_observation_for_inference`` for the
tensor / batch / device step.
Pass ``ds_meta.features`` into the observation provider and switch
to ``build_inference_frame`` when available; fall back to the bare
``prepare_observation_for_inference`` only when no dataset is
provided (rare — autonomous mode already requires it).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The policy preprocessor pipeline is transition-shaped — its steps
read ``TransitionKey.OBSERVATION`` off an ``EnvTransition`` dict, not
a flat ``RobotObservation`` dict. Passing the raw observation through
made every step bail with
``ObservationProcessorStep requires an observation in the transition``,
which the runtime swallowed at warning level. ``select_message`` then
got called with no ``observation.images.*`` features and crashed
with ``All image features are missing from the batch``.
Mirror ``lerobot-record``'s preamble:
1. ``prepare_observation_for_inference`` → numpy → torch, ``CHW``
image layout, ``[0,1]`` scaling, add batch dim, move to device.
2. Wrap into an ``EnvTransition`` (``{TransitionKey.OBSERVATION.value:
...}`` plus ``COMPLEMENTARY_DATA: {}`` and ``None``s for the rest)
so transition-aware steps see the keys they expect.
3. Run preprocessor.
4. Unwrap the transition's ``OBSERVATION`` slot to get the final
flat dict the policy's ``select_action`` / ``select_message``
consume.
Image features now reach the policy; the autonomous loop produces
real actions instead of swallowing warnings every tick.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
``--robot.cameras`` parses the JSON into ``dict[str, dict]``, but
``RobotConfig`` expects ``dict[str, CameraConfig]`` — each inner
value must be the actual ``CameraConfig`` subclass instance for the
chosen backend (e.g. ``OpenCVCameraConfig``). Passing raw dicts
blew up in ``RobotConfig.__post_init__`` with
``AttributeError: 'dict' object has no attribute 'width'`` when it
iterated cameras and tried to read attributes.
Look up the right subclass per-camera by its ``"type"`` field via
``CameraConfig.get_choice_class(...)`` (mirroring the lazy-import
dance we already do for ``RobotConfig``: eagerly walk
``lerobot.cameras``'s submodules so the registry is populated
before lookup). Construct an instance with the rest of the dict's
fields. On an unknown camera type, raise a clean ``ValueError``
listing the available choices.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
``RobotConfig._choice_registry`` is populated as a side-effect of
each robot's ``@RobotConfig.register_subclass`` decorator running,
and those decorators only fire when the corresponding
``lerobot.robots.<name>`` module is imported. The package's
``__init__.py`` doesn't import them — instead ``make_robot_from_config``
does it lazily in its big if/elif chain.
``_build_robot`` jumped the gun: called ``RobotConfig.get_choice_class
(robot_type)`` before any robot module had been imported, so the
registry was empty and every ``--robot.type=<X>`` produced
``KeyError: 'X'`` (e.g. ``KeyError: 'omx_follower'``).
Walk ``lerobot.robots``'s submodules via ``pkgutil.iter_modules`` and
``importlib.import_module`` each one before the lookup. ~200ms on the
first invocation, negligible for an autonomous run. On a real
``KeyError`` (typo / unsupported robot), raise a clean ``ValueError``
listing the registry's available choices instead of a bare KeyError.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The hand-rolled action-norm safety clip duplicated what every
``RobotConfig`` already exposes — ``max_relative_target`` — and at
the wrong layer (after postprocess but before send_action, instead
of inside the robot driver where every other lerobot entry point
puts it). The norm clip also rejected entire actions instead of
clipping per-motor relative motion, so a single rogue joint would
kill the whole tick.
Replace with ``--robot.max_relative_target``: a string parsed as
either a bare float (uniform per-motor cap) or a JSON object
mapping motor name → cap. Passed through to
``RobotConfig(max_relative_target=...)`` at robot construction;
the driver's ``send_action`` clips each commanded joint position
relative to the current measured one before issuing it on the bus —
same behaviour ``lerobot-record`` ships.
Also bump ``--chunk_hz`` default from ``4.0`` to ``1.0``. One new
chunk per second is what the trained checkpoint can comfortably
keep up with on common hardware and gives smoother motion than
sub-second chunk regenerations (no RTC interpolation between
chunks yet).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* chore(deps): ceiling + cuda
* ci: bump cuda version docker image
* ci: add cpu wheel to release workflow
* chore(deps): update uv.lock
* docs: update installation with cuda note
* docs(omx): adding some examples and scripts
* cleaning up and reviewing the cli args
* adding __init__.py to example folder, adjusting the examples
* adding reference to pretrained act policy
* moving `.send_action` before `dataset.add_frame` for consistency
Co-authored-by: Copilot Autofix powered by AI <175728472+Copilot@users.noreply.github.com>
Signed-off-by: Maxime Ellerbach <maxime@ellerbach.net>
* adjusting docstring
Co-authored-by: Copilot Autofix powered by AI <175728472+Copilot@users.noreply.github.com>
Signed-off-by: Maxime Ellerbach <maxime@ellerbach.net>
* adressing hardcoded dataset fps
* removed init as it worked without
---------
Signed-off-by: Maxime Ellerbach <maxime@ellerbach.net>
If VideoDecoder() raises during initialization, the fsspec file handle
was leaked since it was opened via __enter__() but never closed on the
exception path. Now explicitly closes the handle before re-raising.
* chore(deps): allow torch 2.11/2.12 and fix autocast deprecation
- Bump torch to >=2.7,<2.13 (was <2.11), torchvision to <0.28 (was <0.26),
and torchcodec to <0.13 (was <0.11) to allow installs against the latest
stable torch 2.11 and the upcoming 2.12 line.
- Replace removed torch.get_autocast_gpu_dtype() with torch.get_autocast_dtype("cuda")
in Florence2 and Qwen2.5-VL-MoE FlashAttention paths (the former is removed in 2.11+).
- Refresh uv.lock for the new resolution (torch 2.11.0+cu130, torchvision 0.26.0+cu130,
torchcodec 0.11.1, full CUDA 13 stack).
Verified locally with `uv sync --locked` from a clean .venv and the lerobot
test suite (pytest -n 8 --dist=loadfile --timeout=300). Failure set is
identical to the pre-bump baseline: 18 pre-existing failures
(test_sac_policy*, test_pi0_rtc*, test_pi05_rtc*, test_replay_buffer*),
0 new, 0 fixed.
AI assistance: this change was authored with Claude Code per AI_POLICY.md.
* fix(policies): use device-agnostic autocast dtype lookup
Pass query_states.device.type to torch.get_autocast_dtype() instead of
hardcoding 'cuda', so the cast matches the active autocast context when
running under CPU/MPS/XPU autocast.
---------
Co-authored-by: Steven Palma <imstevenpmwork@ieee.org>
* fix(train): restrict legacy RA-BC migration to JSON checkpoints only
_migrate_legacy_rabc_fields was called for all config files, causing
json.load to raise DecodeError when a YAML/TOML config was passed to
lerobot-train for a new training run. Guard the block with an
.endswith(".json") check so migration only runs when resuming from
a JSON checkpoint.
**#1 Plan-update phase reports correct skip count.**
``_run_plan_update_phase`` only ran ``run_plan_updates`` for episodes
with at least one interjection but hardcoded ``episodes_skipped=0``.
The summary undercounted skipped episodes. Now returns
``len(records) - processed`` so processed + skipped == total.
**#2 ``run_hf_job.py`` installs ``openai``.**
The ``CMD`` block does ``pip install --no-deps lerobot[branch]`` then
explicitly lists transitive deps. ``openai`` was missing — and since
``VlmConfig.backend`` defaults to ``"openai"``, the job would have
``ImportError``'d when ``vlm_client._make_openai_client`` ran.
**#3 Dedupe subtask-span reconstruction.**
Module 1's ``_reconstruct_subtasks_from_rows`` (no ``and spans`` guard)
and Module 2's ``_read_subtask_spans`` (with the guard) had near-
identical logic. Promoted to ``reconstruct_subtask_spans`` in
``reader.py`` using the safer guarded form. Both modules now import
the single helper.
**#5 Atomic staging.py JSONL writes.**
Mirroring the parquet-writer fix from an earlier review round:
``EpisodeStaging.write`` now writes to a sibling ``.tmp`` and
``Path.replace`` atomically. A crash mid-write can no longer leave a
half-written JSONL that ``read()`` would then fail to parse.
**#6 Atomic ``info.json`` write.**
Same pattern in ``executor._ensure_annotation_metadata_in_info`` —
``info.json`` is load-bearing for dataset metadata, so partial writes
brick the dataset.
**#7 Writer's role-key guard.**
``_normalize_persistent_row`` and ``_normalize_event_row`` accessed
``row["role"]`` directly while every other field used ``.get()``.
Pre-validate ``"role" in row`` and raise a friendly ``ValueError``
naming the row, so a future module that accidentally drops ``role``
fails with a triagable message instead of a bare KeyError deep in the
writer.
**#8 Last subtask span's ``end`` extends to episode end.**
``reconstruct_subtask_spans`` (the new shared helper) takes an optional
``episode_end_t``. When provided, the final span's ``end`` is closed
to that timestamp instead of equalling its own ``start`` (zero
duration). Both Module 1's plan-update pass and Module 2's interjection
anchoring pass ``record.frame_timestamps[-1]``, so downstream "current
subtask at refresh_t" lookups no longer miss refreshes that land
inside the final span.
Sweep: 66 passed, 0 failed. Pre-commit clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Both tests were stale relative to design changes that landed earlier on
this branch. Update the tests to match the current production contract.
**``test_module1_attaches_video_block_to_subtask_prompt``**
The test took ``captured[0]`` and asserted on its content blocks, but
Module 1 issues several sub-prompts and the rephrasings call (which is
text-only, no video block) usually lands first. Two fixes:
* The test's intent is "the subtask prompt carries the video block" —
not "the first prompt carries it". Pick the call by content
(``"atomic subtasks"`` keyword in the text block) so the test is
resilient to future reordering of unrelated sub-prompts.
* Set ``n_task_rephrasings=0`` so the rephrasings call is skipped
entirely — keeps the test focused on ``_generate_subtasks``.
**``test_module2_mid_episode_emits_paired_interjection_and_speech``**
Two issues both rooted in design changes on the branch:
1. ``InterjectionsAndSpeechModule._mid_episode_interjections`` now
anchors interjections on subtask boundaries from Module 1's staging
tree, bailing out with zero rows when no spans exist. The production
executor runs Module 1 first; the test ran Module 2 in isolation.
Reproduce the contract by seeding two ``style=subtask`` rows in the
staging before calling Module 2 — gives it the single ``0 → 1``
boundary it needs.
2. The test's stub responder used the marker ``"ONE realistic
interruption"`` to match the interjection prompt, but that string is
from a previous prompt version. The current
``module_2_interjection.txt`` says ``"Write ONE interjection..."`` —
the old prompt asked for counterfactual interjections (e.g. "skip the
wipe"), the new one anchors on the upcoming subtask. Marker updated
to ``"Write ONE interjection"``; canned response wording aligned to
the new design.
Sweep on the language stack: 66 passed, 0 failed (was 64 passed, 2
failed). Pre-commit clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
**Critical: video_for_episode was unreachable dead code.**
``video_for_episode`` was indented inside ``_decode_pyav_direct``, after
its ``return`` statement — Python parsed it as a nested function that
never executed. Module 1's ``_episode_video_block`` calls
``self.frame_provider.video_for_episode(record, target_count)`` on the
``use_video_url=False`` path, which would have AttributeError'd on any
real dataset. Tests passed only because they used ``_StubFrameProvider``
/ ``_NullProvider`` which have the method. Moved it to be a proper
method of ``VideoFrameProvider`` (right after ``frames_at``).
**Thread safety on VideoFrameProvider.**
The executor runs Module 1/2/3 phases under a ``ThreadPoolExecutor``, so
the per-instance ``_cache`` dict and the one-shot ``_warned_decode_fail``
flag were exposed to concurrent reads/writes. Added a ``threading.Lock``
field, wrapped cache reads/writes and the warn-flag check-and-set in
``with self._lock:``. Stub fixtures unaffected.
**episode_clip_path is now a method of VideoFrameProvider.**
Used to be a free function reaching into ``provider._meta.episodes`` and
``provider._meta.get_video_file_path`` from outside the class. As a
method it just uses ``self._meta``. The only caller (Module 1) updated;
no external callers.
**Atomic write in LanguageColumnsWriter.**
``pq.write_table(new_table, path)`` was overwriting the parquet shard
in place — a crash mid-write would corrupt the file. Now writes to a
sibling ``.tmp`` and ``Path.replace`` atomically.
**Smaller items:**
* ``executor.py`` docstring opened with "four phases" but listed six.
Now says "six phases" to match.
* ``[annotations]`` extra in ``pyproject.toml`` now includes
``openai>=1.40,<2.0``. Default ``VlmConfig.backend`` is ``"openai"``,
so without it ``_make_openai_client`` would ImportError on a fresh
``uv sync --extra annotations``.
* ``_snap_to_frame`` was duplicated identically in
``plan_subtasks_memory.py`` and ``interjections_and_speech.py``.
Promoted to ``snap_to_frame`` in ``reader.py`` (next to
``EpisodeRecord``); both modules now import it. Backwards-compat alias
not needed — no external callers.
* ``EpisodeRecord.frames_df()`` was re-reading the full parquet on every
call. Now memoizes via a private dataclass field so repeat calls from
different modules pay the cost once. Method signature unchanged.
* ``_extract_first_json_object`` had a redundant ``and not escape`` guard
that was dead because the prior block already handled and reset
``escape``. Replaced with a comment explaining the invariant.
**Pre-existing lint cleanups surfaced once these files entered
pre-commit's scope:**
* dead local ``client = clients[0]`` in ``_make_openai_client`` (the
real round-robin uses ``clients[rr_counter[...]]``).
* ``cmd = ... if "{port}" in cmd else f"...{port}"`` ternary collapse in
``_spawn_parallel_inference_servers``.
* ``seek_pts = 0 if stream.time_base is None else int(...)`` ternary
collapse in ``_decode_pyav_direct``.
* ``# nosec B310`` on the localhost ``urllib.request.urlopen`` probe in
``_server_is_up`` — the URL is the user-configured local-server endpoint
the CLI itself spawned, not arbitrary user input.
**Test added.**
``tests/annotations/test_frames.py`` pins the regression on
``VideoFrameProvider``: asserts ``video_for_episode`` and
``episode_clip_path`` are callable methods (not nested dead code or
free functions), and that the ``_lock`` field is a real
``threading.Lock``.
Sweep: 64 passed, 2 failed (same pre-existing module-impl bugs as
before this commit). Pre-commit clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Five Module 1 sub-prompts (`_derive_task_from_video`,
`_generate_task_rephrasings`, `_generate_subtasks`, `_generate_plan`,
`_generate_memory`) all repeated the same shape:
result = self.vlm.generate_json([messages])[0]
if isinstance(result, dict) and isinstance(result.get(<field>), <type>):
...
…each spelled with slightly different field names + post-processing.
Three small helpers replace it:
* `_vlm_field(messages, field)` — single VLM call, returns
``result[field]`` or ``None``. Centralizes the
``generate_json([m])[0]`` + ``isinstance(dict)`` dance.
* `_text_message(text)` — wraps a string in the canonical user-message
shape every text-only prompt builds inline.
* `_video_message(record, prompt)` — combines the episode video block
with a prompt; replaces the duplicated video-block construction
inside `_generate_subtasks` (which previously inlined the same
``use_video_url``/``frames_per_second``/``max_video_frames`` branches
that `_episode_video_block` already implements).
Net -35 LOC. Each call site now is 3-5 lines instead of 10-20. The
public method signatures are unchanged so tests don't move.
Drive-by: `_task_seems_bad` collapsed via SIM103 fix; `zip` in
`run_plan_updates` annotated `strict=True` per ruff B905.
Tests: same 2 pre-existing module-impl failures
(`test_module1_attaches_video_block_to_subtask_prompt`,
`test_module2_mid_episode_emits_paired_interjection_and_speech`) —
they were failing on `origin/feat/language-annotation-pipeline` before
this commit and continue to do so for the same reasons. 61/63 in the
language stack pass; pre-commit clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Resolve conflicts and pull in the latest PR 1 fixes.
Conflicts:
- pyproject.toml: PR 1 added `lerobot-rollout` and PR 2 added
`lerobot-annotate` to the same `[project.scripts]` block. Kept both.
- uv.lock: dropped both sides and regenerated against the merged
`pyproject.toml` (PR 2 dropped the `datatrove` dep when distribution
moved to HF Jobs; PR 1's lock didn't have it).
Test follow-up:
- `tests/annotations/test_pipeline_recipe_render.py` — PR 1 deleted
`src/lerobot/configs/recipes/pi05_hirobot.yaml` (review feedback:
remove the canonical-recipe file; recipes are user-supplied). The
cross-PR contract this test guards is "the recipe DSL renders
non-empty messages from pipeline output", which doesn't depend on
any specific YAML, so the test now builds an inline blend recipe
with the same coverage. Passes.
Sweep: 82 passed, 2 failed (pre-existing module-impl bugs:
`test_module1_attaches_video_block_to_subtask_prompt`,
`test_module2_mid_episode_emits_paired_interjection_and_speech`).
The PR 1 carryover (`test_emitted_at_raises_on_ambiguous_per_camera_vqa`)
is now passing — the merge brought in PR 1's tightened `_select_one`
ambiguity check.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The executor previously claimed it would "optionally hand off" to
datatrove's LocalPipelineExecutor or SlurmPipelineExecutor — but it
already runs phases inline in every code path, and HF Jobs (see
``examples/annotation/run_hf_job.py``) is the actual distribution
strategy. Stop pretending we have an executor selector.
* `executor.py`: drop `select_executor_class`, the "kind" log line, and
the references to LocalPipelineExecutor / SlurmPipelineExecutor.
Module docstring now says distribution is delegated to HF Jobs.
* `config.py`: drop `auto_threshold`, `force_local`, `slurm_partition`,
`slurm_gpus`, `slurm_time`, `workers`. `ExecutorConfig` keeps only
`episode_parallelism`. While here, prune the longer "why" docstrings
on every field down to the load-bearing bits — full story moves to
`docs/source/annotation_pipeline.mdx`.
* `pyproject.toml`: drop `datatrove>=0.4.0,<2.0.0` from the
`[annotations]` extra; the dep was only there for the (never used)
cluster executors. Comment block notes the new HF-Jobs delegation.
* `reader.py`, `lerobot_annotate.py`: drop their own datatrove /
flavor-namespace mentions.
* `docs/source/annotation_pipeline.mdx`:
- remove the flavor-namespace / sidecar paragraph (out of scope —
"multiple revisions = multiple copies" is dataset-level policy);
- remove the "writer drops the legacy `subtask_index` column" note
(already covered by PR 1's intentional-break call-out);
- remove the chat-template + `apply_chat_template(messages, tools=...)`
line (covered by Tools doc);
- replace the "executor picks Local vs Slurm" paragraph with
`--executor.episode_parallelism` and a pointer to HF Jobs;
- rewrite the style→recipe section to talk about "recipes" generically
instead of pinning a specific YAML;
- add a "Running on Hugging Face Jobs" section pointing at
`examples/annotation/run_hf_job.py`;
- add a "Running locally" example matching the CLI's docstring
(`uv run lerobot-annotate --root=... --vlm.model_id=...`);
- extend the paper-inspirations list with Pi0.7 and Steerable VLA
Policies (Zhao 2025) for Module 3.
Tests: same 3 pre-existing failures as before this commit (2 module
assertions still in flight; 1 carryover from PR 1). 41/44 pass.
Pre-commit clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* fix(ci): run multi-task benchmark evals 5-at-a-time in parallel
The eval script supports running tasks concurrently via a
ThreadPoolExecutor (env.max_parallel_tasks). Apply it to the four
multi-task benchmark CI jobs (RoboTwin, RoboCasa, RoboMME, LIBERO-plus
— 8-10 tasks/task_ids each) so they finish in ~2 waves of 5 instead of
running sequentially. Single-task jobs (Libero, MetaWorld, RoboCerebra)
are unchanged.
* fix(ci): cap VLABench smoke eval at 50 steps per task
VLABench's default episode_length is 500 steps; with 10 tasks at ~1 it/s
the smoke eval took ~80 minutes of rollouts on top of the image build.
The eval is a pipeline smoke test (running_success_rate stays at 0% on
this short rollout anyway), so we don't need full episodes — cap each
task at 50 steps to bring total rollout time down ~10x.
* fix(ci): run VLABench tasks 5-at-a-time in parallel
The eval script already supports running multiple tasks concurrently via
a ThreadPoolExecutor (env.max_parallel_tasks). Set it to 5 so the 10
VLABench tasks finish in ~2 waves instead of running sequentially.
* feat: add pretrained vision encoder weights for diffusion and vqbet
* fix test by re-generating artifacts
---------
Co-authored-by: Steven Palma <imstevenpmwork@ieee.org>
The robotwin benchmark Dockerfile still installed cuda-nvcc-12-4 and
cuda-cudart-dev-12-4 after #3505 upgraded the base image to CUDA 12.6.3
on Ubuntu 24.04. Those packages aren't available in the ubuntu2404 CUDA
repo, so the build failed at apt-get install. Bumping both to -12-6 to
match the base image.
Reword the two callouts in `tools.mdx` to describe the runtime layer
in present tense ("not part of the catalog layer shipped today",
"those modules don't yet exist in the tree") instead of pointing at a
specific follow-up PR. Keeps the doc honest about what works now
without coupling it to a particular release order.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* **Float tolerance in `emitted_at` for persistent styles.** The
``_timestamp(row) == t`` exact-equality check silently missed any
caller that derived ``t`` arithmetically (e.g. ``frame_idx / fps``)
even though the parquet timestamp would only differ by ULPs. Added
``EMITTED_AT_TOLERANCE_S = 0.1`` and check ``abs(...) <= tolerance``
instead, with a docstring explaining why exact equality wasn't
enough and why 0.1 s is safe at typical 30–100 Hz control rates.
Test asserts the new behavior at half-window (matches) and
double-window (no match) using the constant so it stays in sync.
* **`MessageTurn.stream` is required at construction.** It was typed
``MessageStream | None = None`` so YAML could omit ``stream:`` and
pass the dataclass invariant — but ``_validate_rendered`` rejected
``None`` streams later, surfacing the error at the first sample
instead of at recipe load. Now ``__post_init__`` raises
``ValueError`` if ``stream`` is ``None``, with the list of valid
streams in the message. The redundant late-stage check in
``_validate_rendered`` is replaced with a one-line comment that
cites the upstream invariant. Test pins the new construction-time
rejection.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* **#2 — dedupe `_PLACEHOLDER_RE`.** The same regex was compiled in
`recipe.py` and `language_render.py`. Promote to module-level
`PLACEHOLDER_RE` in `recipe.py` (its primary owner — declares
template syntax) and import from `language_render.py`.
* **#3 — centralize language column names.** `io_utils.py` had
hardcoded `{"language_persistent", "language_events"}` literals at
two sites. Replace with `LANGUAGE_COLUMNS` import so a future column
rename can't silently desync.
* **#4 — defensive collate preserved-keys.** `lerobot_collate_fn`
silently filtered language fields from samples that didn't have
them, which would hand downstream consumers a preserved list
shorter than the tensor batch. Now: if any sample carries a key,
every sample in the batch must carry it; otherwise raise a
`ValueError` so the upstream rendering bug surfaces at the boundary.
* **#5 — `_scalar` rejects non-singleton lists.** Previously a zero-
or multi-element list fell through and triggered confusing
`float([])` errors downstream. Now raises `ValueError` with the
actual length.
* **#6 — refactor `_extract_complementary_data`.** Replace 11 lines
of `key = {... if ... else {}}` plus an 11-line splat dict with a
single `_COMPLEMENTARY_KEYS` tuple iterated once.
* **#7 — document `EXTENDED_STYLES`.** Was an empty `set()` with no
comment. Add a docstring explaining it's an intentional extension
point: downstream modules append project-local styles before
`column_for_style` is called.
* **#9 — `tools.mdx` notes the runtime layer is future work.** The
page referenced `src/lerobot/tools/`, `registry.py`, and
`get_tools(meta)` — none exist in this PR. Added a callout at the
start of "How to add your own tool" plus a note on the
implementations paragraph.
* **#10 — tests for YAML round-trip, malformed rows, blend
validation.** `test_recipe.py` grew from 1 case to 12 covering:
blend-or-messages exclusivity, target-turn requirement, blend
emptiness, weight presence/positivity, nested-blend rejection,
`from_dict` with nested blends, `from_yaml` / `load_recipe`
agreement, top-level non-mapping rejection. Added a malformed-row
test for `_normalize_rows` that asserts non-dict entries raise
`TypeError`.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The runtime CLI was deliberately scoped to dry-run only: it
hard-coded ``robot_executor=None`` and printed a "real-robot
integration is a follow-up" warning even when ``--no_robot`` was
omitted. The runtime *engine* was already structured for real-robot
operation (separate ``LowLevelForward`` chunk-rate generation +
``DispatchAction`` ctrl-rate dispatch with a ``robot_executor``
hook); only the wiring was missing.
Add the wiring:
* ``_load_policy_and_preprocessor`` now also returns the
postprocessor (action denormaliser).
* ``--robot.type`` / ``--robot.port`` / ``--robot.id`` /
``--robot.cameras`` (JSON) build a ``Robot`` via
``make_robot_from_config`` and connect it.
* ``_build_robot_observation_provider`` reads
``robot.get_observation()`` each call, drops the language
columns (runtime drives messages itself), and runs the policy's
preprocessor (rename → batch → device → normalise).
* ``_build_robot_action_executor`` postprocesses the policy's
action tensor (denormalise), converts to the ``{joint: value}``
dict via ``make_robot_action(action, ds_meta.features)``, and
calls ``robot.send_action(...)``. Optional ``--max_action_norm``
safety clip rejects ticks whose action L2 norm exceeds the
threshold (kill-switch when bringing up a new robot).
* ``_run_autonomous`` runs ``runtime.run()`` in a background
thread (the policy must keep generating chunks at chunk_hz and
dispatching at ctrl_hz regardless of stdin) and handles user
interjections / VQA queries from the foreground stdin loop.
Confirmation prompt before start (skip with ``--auto_start``);
Ctrl+C stops the thread and disconnects the robot cleanly.
* Autonomous mode requires ``--dataset.repo_id`` for action stats
/ feature shapes — pass the same dataset the policy was trained
on. The bootstrap path that pulls canonical task / plan / memory
runs in both REPL and autonomous modes so the model's first
prompt matches training distribution.
Dry-run REPL behaviour is unchanged when ``--robot.type`` is not
passed.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* feat(policies): add EO-1 model
* chore(eo1): adjust policy_eo1_README.md to to avoid duplicate with eo1.mdx
* chore(eo1): remove policy_eo1_README.md, link eo1.mdx in policy folder
---------
Co-authored-by: Pepijn <138571049+pkooij@users.noreply.github.com>
* **`meta.tools` actually reads `info.json["tools"]`.** `DatasetInfo`
had no `tools` field, so `from_dict` silently dropped the key (it
warned about unknown fields then discarded them) and the property
always returned `DEFAULT_TOOLS`. Added `tools: list[dict] | None`
to the dataclass; `to_dict()` drops it when unset so existing
datasets keep a clean `info.json`. Fixed the accessor to read
`self.info.tools` (the previous `.get(...)` would have raised
AttributeError on the dataclass anyway). Added regression tests:
fallback when absent, round-trip from disk, and round-trip
through `DatasetInfo.from_dict` / `to_dict`.
* **`motion` is not view-dependent — fix the docs.** The mdx claimed
rows of style `motion` must carry `camera`, but `VIEW_DEPENDENT_STYLES
= {"vqa", "trace"}` and the validator agrees: motion primitives are
joint/Cartesian-frame, not pixel-space. Updated both call-out
paragraphs in `language_and_recipes.mdx`.
* **Conditional `collate_fn` swap.** Added `meta.has_language_columns`
and gate the `lerobot_collate_fn` swap in `lerobot_train.py` on it,
so non-language datasets keep PyTorch's `default_collate`. Also
added a pass-through test in `test_collate.py` that asserts on a
plain tensor batch the custom collate matches `default_collate`
key-for-key, plus a test for the `None`-sample drop path.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
`lerobot.processor` re-exported `RenderMessagesStep` at the package
level, so importing anything from `lerobot.processor` pulled in
`lerobot.datasets.language` → `lerobot.datasets/__init__.py` →
`require_package("datasets")`, which fails in the Tier 1 base install
that intentionally omits the `[dataset]` extra. The chain bricked
collection for unrelated suites (`tests/policies/pi0_pi05/...`,
`tests/envs/...`, etc.).
* Stop re-exporting `RenderMessagesStep` from `lerobot.processor`. The
only consumer (the test) already imports from the submodule.
Document the deliberate omission in the module docstring.
* Add `pytest.importorskip("datasets", ...)` (and `pandas` where
needed) at the top of the four PR-added tests that exercise the
language stack:
- tests/datasets/test_language.py
- tests/datasets/test_language_render.py
- tests/processor/test_render_messages_processor.py
- tests/utils/test_collate.py
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* `ruff format` on CI (newer version) wants the short `camera=None`
ValueError on a single line.
* `uv.lock` was stale relative to `pyproject.toml`'s `datasets>=4.7.0`
pin (and picked up upstream `s390x` marker fixes for cuda packages).
CI runs `uv sync --locked` which rejected the divergence.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
`_select_one` previously skipped its ambiguity check whenever any of
`role`/`tool_name`/`camera` was set, on the assumption that the caller
had already pinned down a unique row. That left a real ambiguity hole
for VQA: with two cameras emitting `(vqa, assistant)` at the same
frame, `emitted_at(..., role="assistant")` silently picked the first
sorted row instead of telling the recipe to add `camera=...`. The
existing `test_emitted_at_raises_on_ambiguous_per_camera_vqa` test
already encoded the desired behavior.
Tighten the check: any time `len(rows) > 1` we now raise with the
selectors echoed back, so users see exactly which fields they passed
and that more is needed to disambiguate.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* Drop the unused `events` kwarg from `active_at`/`nth_prev`/`nth_next`;
only `emitted_at` actually consults events. The dispatcher in
`_resolve_spec` now passes events conditionally.
* Replace the dual `_persistent_sort_key`/`_event_sort_key` pair with a
single `_row_sort_key` and drop the `sort_key` parameter from
`_select_one`. Event rows lack `timestamp` (it is implicit in the
frame) and now default to `0.0` for sort purposes — the
`(style, role)` tiebreaker is unchanged.
* Inline `_select_latest` into `active_at` (its only caller).
* Collapse `emitted_at`'s dual-branch into one `_select_one` call.
* Tighten `_validate_persistent_resolver` to a single
`column_for_style(style) != LANGUAGE_PERSISTENT` check.
* Parameterize `test_per_camera_blend_renders_both_views` over the two
cameras and factor the sub-recipe builder into `_vqa_subrecipe` so
the test no longer hand-rolls two near-identical recipe blocks.
Net -98 LOC; behavior, public resolver names, and test expectations
unchanged.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Two bugs combining to make the brand-new ``_tool3`` dataset
unloadable:
1. ``lerobot_annotate.py:_push_to_hub`` uploads the annotated
dataset folder but never creates a codebase-version tag, so
``api/datasets/<repo>/refs`` returns ``"tags": []``. Then
``LeRobotDatasetMetadata`` → ``get_safe_version`` →
``get_repo_versions`` returns empty and the loader raises
``RevisionNotFoundError``.
2. ``RevisionNotFoundError`` itself was unconstructible: its
``HfHubHTTPError.__init__`` indexes ``response.headers``
unconditionally on current ``huggingface_hub`` versions, so
constructing it without a real ``Response`` blew up with
``AttributeError: 'NoneType' object has no attribute 'headers'``,
masking the real "no tag" message.
Fix#1: after upload, read ``meta/info.json["codebase_version"]`` and
``HfApi.create_tag(..., tag=<v3.x>, repo_type='dataset',
exist_ok=True)`` so the dataset is loadable straight from the Hub on
the next ``LeRobotDataset(repo_id)`` call. Falls back to the in-tree
``CODEBASE_VERSION`` if info.json is missing/malformed; on tag
creation failure, prints the manual one-liner the user needs.
Fix#2: stop trying to instantiate ``RevisionNotFoundError`` (which
inherits HfHubHTTPError) for what is really a config issue, not an
HTTP failure. Raise plain ``RuntimeError`` with the same message —
the caller actually sees what's wrong instead of an upstream
attribute error.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
``RevisionNotFoundError`` inherits from
``huggingface_hub.HfHubHTTPError`` which made ``response`` a required
keyword-only argument on recent versions. Constructing it with just a
message string blew up with
``TypeError: HfHubHTTPError.__init__() missing 1 required keyword-only
argument: 'response'`` instead of surfacing the actual problem (the
dataset/checkpoint repo doesn't exist on the Hub yet).
Pass ``response=None`` explicitly. Fall back to the bare-message form
for older ``huggingface_hub`` versions that don't accept the kwarg.
Also clarify the message to call out the most common cause: typing a
hub repo id that hasn't been pushed yet (instead of just "needs a
version tag").
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Last bump combined ``module_3.K=3`` with ``vqa_emission_hz=2.0`` and
``executor.episode_parallelism=32``. With 2 cameras per dataset that
produced ~12× the original VQA call volume, all submitted concurrently.
Module 3 latency went from ~30s/phase to ~490s per episode, vLLM's
KV cache pegged at 94% with 800+ in-flight requests, and the
multimodal cache corrupted with ``AssertionError: Expected a cached
item for mm_hash='...'`` (a known vLLM bug under image-heavy
concurrency). Module 1 and 2 ran fine; Module 3 was the bottleneck.
Pull back the multipliers to land in a sustainable spot:
* module_3.K: 3 (kept) — three diverse questions per emission,
where the diversity actually helps the LM head.
* module_3.vqa_emission_hz: 2.0 → 1.0 — back to the original
emission rate. Net VQA volume is now ~3× original (K alone) on
a single camera, ~6× across both cameras — manageable.
* module_2.max_interjections_per_episode: 9 → 6 — still 2× the
default, fewer than the prior 3× to keep total request volume
in check.
* vlm.client_concurrency: 256 → 128 — gives vLLM headroom on the
multimodal request path so the mm_cache doesn't desync.
* executor.episode_parallelism: 32 → 16 — half the episodes
in flight at once, so peak vLLM load is ~half.
n_task_rephrasings stays at 30 (text-only, doesn't load the image
path) and vlm.temperature stays at 0.7. The diversity gains are
preserved; only the throughput knobs come down.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Following Pi0.7 §V (prompt expansion / diverse context conditioning),
push more atom variants per episode and higher VLM sampling
temperature so the training distribution has enough wording diversity
that the LM head is forced to use its parameters rather than memorise
specific (prompt, target) pairs.
Changes vs prior annotation pass:
* vlm.temperature: 0.2 (default) → 0.7 — every Module-1/2/3 call
now produces diverse phrasings; same prompt yields different
completions across emissions.
* module_1.n_task_rephrasings: 10 → 30 — three times as many
``task_aug`` rows in language_persistent. ``${task}`` already
rotates through them deterministically per sample_idx (see
``_resolve_task`` in language_render.py).
* module_2.max_interjections_per_episode: 3 (default) → 9 — more
``user_interjection_response`` training samples + more plan
refresh events.
* module_3.K: 1 → 3 — three VQA pairs per emission tick instead of
one. Combined with the hz bump below, ~6× more VQA samples.
* module_3.vqa_emission_hz: 1.0 → 2.0 — double the VQA emission
rate within each subtask span.
Pushes to a new hub repo (``_tool3``) so the working ``_tool2``
dataset stays intact for comparison. ``${task}`` already wired to
rotate through ``task_aug`` rows, so no renderer change needed.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Memorised models can collapse to dominant-mode outputs (the
JSON-token salad ``":":":":...`` from VQA training) when the prompt
drifts even slightly from training distribution. Without a guard,
that gibberish lands in ``current_subtask`` / ``current_plan`` /
``current_memory``, which feeds the next tick's prompt and cascades
into worse outputs. The user observed exactly this: a clean run
followed by a tick that wrote ``" " "`` into plan and memory, then
slow recovery several ticks later.
Add ``_looks_like_gibberish`` heuristic (alpha density, repeating
chars, JSON-prefix sniff) and apply it before mutating state in
``HighLevelSubtaskFwd`` / ``MemoryUpdateFwd`` / ``UserInterjectionFwd``.
Bad generations are logged inline (``[info] subtask gen rejected
(gibberish): "":":":..."``) so the user can see what was dropped, but
the state stays at its last-known-good value (typically the dataset
bootstrap) instead of being polluted.
VQA path is intentionally exempt — its training targets *are*
JSON-shaped, so the heuristic would false-positive on them.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>