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hangX:main hangX:lerobot-xh hangX:realman-dual-arm hangX:realman-single-arm hangX:recovered-commit hangX:realman-dual hangX:depth hangX:realman hangX:smolvla_doc hangX:user/aliberts/2025_02_25_refactor_robots hangX:user/michel-aractingi/2025-05-20-hil-rebase-robots hangX:user/fracapuano/async-inf hangX:my-fix-based-on-pr-1175 hangX:pre-commit-ci-update-config hangX:user/aliberts/2025_04_03_add_hope_jr hangX:user/michel-aractingi/2025-06-02-docs-for-hil-serl hangX:user/aliberts/2025_06_02_cap_pymunk hangX:hf-papers hangX:user/fracapuano/2025_05_29_dataset_streaming_delta_timesteps hangX:user/rcadene/2025_04_11_dataset_v3 hangX:user/fracapuano/2025_05_21_dataset_streaming hangX:origin/fix/record_policy_action_dict hangX:revert-1160-mshukor-patch-1 hangX:refactor/updated_api_docs_rebased hangX:user/adil-zouitine/2025-1-7-port-hil-serl-new hangX:test/robot_refactor_experiments hangX:user/aliberts/2025_04_19_refactor_cameras hangX:user/pepijn/2025_05_05_lekiwi_dual_teleop hangX:user/azouitine/2025-04-24-hot-fix-ci hangX:user/fracapuano/2024-04-24-mocking-robots hangX:user/fracapuano/2025-04-23-fixing-mock-robot hangX:user/fracapuano/2025-04-23-predicting-chunks hangX:user/michel-aractingi/tmp-hil-serl-rebase hangX:user/michel-aractingi/tmp-port-hil-serl-new hangX:test/add_cameras_di_tests_no_tmp_connect hangX:test/add_cameras_di_tests hangX:test/add_cameras_patch_tests_no_tmp_connect hangX:test/add_cameras_patch_tests hangX:user/mrussi/2025_01_09_hope_junior hangX:2025_04_11_vla_eval hangX:user/mrussi/2025_04_12_hopejr hangX:user/azouitine/2025-4-8-softmax-grasp-critic hangX:user/michel_aractingi/2024-04-04-grasp-critic hangX:user/aliberts/2025_04_08_fix_install_instruction hangX:user/rcadene/2025_02_19_port_openx hangX:feat/add_rerun hangX:user/michel_adil/dump_hil_serl hangX:user/pepijn/2025_03_18_fix_rotation_so100_docs hangX:user/pepijn/2025_03_11_weighted_sampling hangX:user/pepijn/2025_01_27_steps_assembly_intructions hangX:user/pepijn/2025_03_20_dana_workshop hangX:torchcodec-cpu hangX:user/pepijn/2025_03_11_focal_loss hangX:user/aliberts/2025_03_10_new_feetech_calibration hangX:user/aliberts/2025_03_08_register_configs hangX:fix/lint_warnings hangX:feat/autopolicy hangX:chore/bump_pythonversion_precommit hangX:qgallouedec-patch-1 hangX:user/aliberts/2025_02_27_fix_pr_style_bot hangX:user/mshukor/2025_02_25_accelerate hangX:user/michel-aractingi/2024-02-21-hilserl-threading-to-mp hangX:user/rcadene/2025_02_17_visualize_inference hangX:user/michel-aractingi/2024-02-18-hilserl-cache-embedding hangX:user/rcadene/2025_02_17_streaming hangX:user/rcadene/2025_02_07_improve_pi0 hangX:user/rcadene/2025_01_28_aloha_hdf5 hangX:user/pepijn/2025_01_24_save_autocorrect_calibration_to_json hangX:user/michel-aractingi/2025-01-21-server-client-arch hangX:user/michel-aractingi/2025-01-18-port-rlds-example hangX:user/adil-zouitine/2025-1-7-port-hil-serl hangX:user/michel-aractingi/2024-11-27-port-hil-serl hangX:user/michel-aractingi/2024-11-26-Maniskill-support hangX:user/rcadene/2024_11_26_hope_junior hangX:user/rcadene/2024_12_03_manage_dataset hangX:temp_branch_hil_serl hangX:user/michel-aractingi/2024-12-07-soft-actor-critic hangX:user/michel-aractingi/2024-12-06-sac-implementation hangX:user/rcadene/2024_11_27_reachy2_viz_inference hangX:tdmpc23 hangX:user/michel-aractingi/2024-11-20-new-tdmpc2-impl hangX:user/michel-aractingi/2024-10-15-control-sim hangX:user/rcadene/2024_10_24_feetech_dataset_v2 hangX:user/rcadene/2024_09_18_async_inference hangX:user/rcadene/2024_09_10_train_aloha_debug hangX:user/aliberts/2024_09_10_fix_docker_dev hangX:user/michel-aractingi/2024-09-02/move-make-optimizer-to-policy hangX:user/michel-aractingi/2024-08-26-tdmpc2-implementation hangX:user/jmoss/2024_08_19_add_hiwonder_motors hangX:user/rcadene/2024_08_24_edit_dataset_remove_episodes hangX:user/rcadene/2024_08_22_control_aloha hangX:Cadene-patch-1 hangX:user/rcadene/2024_08_06_improve_visualize_dataset_inference hangX:user/rcadene/2024_07_16_control_robot_v2_aloha hangX:user/aliberts/2024_07_26_remove_dataset_artifacts hangX:user/rcadene/2024_07_26_control_robot_v2_train hangX:user/rcadene/2024_07_29_control_robot_linux hangX:user/rcadene/2024_07_27_nightly hangX:user/rcadene/2024_07_09_bill_of_materials hangX:user/rcadene/2024_07_16_vqbet_multi_images hangX:user/youliang/2024_06_20_oxe_data_format_to_hg hangX:user/rcadene/2024_06_22_control_robot_other hangX:thomwolf_2024_06_18_fix_normalization hangX:thomwolf_2024_06_12_deep_dive_ACT hangX:user/rcadene/2024_06_01_custom_visualize_dataset hangX:thomwolf_2024_06_04_simple_gym hangX:user/marinabar/2024_06_10_evaluation_stats hangX:user/rcadene/2024_06_07_faster_act hangX:user/rcadene/2024_06_08_add_data_augmentation hangX:user/rcadene/2024_06_03_reachy2 hangX:user/rcadene/2024_06_03_fix_delta_timestamps hangX:thomwolf_2024_06_04_nans hangX:thomwolf_2024_06_04_nan_fixes hangX:user/aliberts/2024_05_06_add_coverage hangX:fix_aloha_conversion_nan hangX:user/rcadene/2024_05_20_dora_parquet_format_viz hangX:thom_arm hangX:thom-act hangX:alexander-soare/add_drop_last_keyframes hangX:user/aliberts/2024_05_20_add_gym_dora hangX:user/aliberts/2024_05_14_compare_policies hangX:user/aliberts/2024_05_12_add_metrics_logging_config hangX:thom-fixes hangX:user/rcadene/2024_05_08_test hangX:user/aliberts/2024_05_07_dev_docker hangX:origin/user/rcadene/2024_04_30_refactor_push_dataset_to_hub_video hangX:user/rcadene/2024_04_30_refactor_push_dataset_to_hub_video hangX:qgallouedec/macos_ci hangX:qgallouedec/use_pretrainedconfig hangX:qgallouedec/move_update_optim_schedul_outside_policy hangX:user/rcadene/2024_04_20_mobile_aloha_rerun hangX:thom-proposals hangX:user/aliberts/2024_03_31_fix_simxarm_render hangX:user/rcadene/2024_03_31_pretrained_models_aloha_simxarm hangX:user/aliberts/2024_03_28_package_envs hangX:user/aliberts/2024_03_26_add_ci_tests 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compare: hangX:feat/add_rerun
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hangX:lerobot-xh hangX:realman-dual-arm hangX:realman-single-arm hangX:recovered-commit hangX:realman-dual hangX:depth hangX:realman hangX:smolvla_doc hangX:user/aliberts/2025_02_25_refactor_robots hangX:user/michel-aractingi/2025-05-20-hil-rebase-robots hangX:user/fracapuano/async-inf hangX:main hangX:my-fix-based-on-pr-1175 hangX:pre-commit-ci-update-config hangX:user/aliberts/2025_04_03_add_hope_jr hangX:user/michel-aractingi/2025-06-02-docs-for-hil-serl hangX:user/aliberts/2025_06_02_cap_pymunk hangX:hf-papers hangX:user/fracapuano/2025_05_29_dataset_streaming_delta_timesteps hangX:user/rcadene/2025_04_11_dataset_v3 hangX:user/fracapuano/2025_05_21_dataset_streaming hangX:origin/fix/record_policy_action_dict hangX:revert-1160-mshukor-patch-1 hangX:refactor/updated_api_docs_rebased hangX:user/adil-zouitine/2025-1-7-port-hil-serl-new hangX:test/robot_refactor_experiments hangX:user/aliberts/2025_04_19_refactor_cameras hangX:user/pepijn/2025_05_05_lekiwi_dual_teleop hangX:user/azouitine/2025-04-24-hot-fix-ci hangX:user/fracapuano/2024-04-24-mocking-robots hangX:user/fracapuano/2025-04-23-fixing-mock-robot hangX:user/fracapuano/2025-04-23-predicting-chunks hangX:user/michel-aractingi/tmp-hil-serl-rebase hangX:user/michel-aractingi/tmp-port-hil-serl-new hangX:test/add_cameras_di_tests_no_tmp_connect hangX:test/add_cameras_di_tests hangX:test/add_cameras_patch_tests_no_tmp_connect hangX:test/add_cameras_patch_tests hangX:user/mrussi/2025_01_09_hope_junior hangX:2025_04_11_vla_eval hangX:user/mrussi/2025_04_12_hopejr hangX:user/azouitine/2025-4-8-softmax-grasp-critic hangX:user/michel_aractingi/2024-04-04-grasp-critic hangX:user/aliberts/2025_04_08_fix_install_instruction hangX:user/rcadene/2025_02_19_port_openx hangX:feat/add_rerun hangX:user/michel_adil/dump_hil_serl hangX:user/pepijn/2025_03_18_fix_rotation_so100_docs hangX:user/pepijn/2025_03_11_weighted_sampling hangX:user/pepijn/2025_01_27_steps_assembly_intructions 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2 Commits
test/add_c ... feat/add_r

Author SHA1 Message Date
Steven Palma
374d4351fd chore(dummy): add comments + better visualization 2025-03-25 13:02:11 +01:00
Steven Palma
4f3eaff2bd [skip ci] feat: implement rerun v0.1 2025-03-24 17:11:59 +01:00
140 changed files with 8161 additions and 8021 deletions
Expand all files Collapse all files

2
.github/workflows/test-docker-build.yml vendored
View File

@@ -41,7 +41,7 @@ jobs:
- name: Get changed files
id: changed-files
uses: tj-actions/changed-files@3f54ebb830831fc121d3263c1857cfbdc310cdb9 #v42
uses: tj-actions/changed-files@v44
with:
files: docker/**
json: "true"

2
.github/workflows/test.yml vendored
View File

@@ -126,7 +126,7 @@ jobs:
# portaudio19-dev is needed to install pyaudio
run: |
sudo apt-get update && \
sudo apt-get install -y libegl1-mesa-dev ffmpeg portaudio19-dev
sudo apt-get install -y libegl1-mesa-dev portaudio19-dev
- name: Install uv and python
uses: astral-sh/setup-uv@v5

2
.gitignore vendored
View File

@@ -11,7 +11,7 @@
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
.dev
# Logging
logs
tmp

10
.pre-commit-config.yaml
View File

@@ -36,8 +36,8 @@ repos:
- id: end-of-file-fixer
- id: trailing-whitespace
- repo: https://github.com/adhtruong/mirrors-typos
rev: v1.31.1
- repo: https://github.com/crate-ci/typos
rev: v1.30.2
hooks:
- id: typos
args: [--force-exclude]
@@ -48,7 +48,7 @@ repos:
- id: pyupgrade
- repo: https://github.com/astral-sh/ruff-pre-commit
rev: v0.11.4
rev: v0.9.10
hooks:
- id: ruff
args: [--fix]
@@ -57,12 +57,12 @@ repos:
##### Security #####
- repo: https://github.com/gitleaks/gitleaks
rev: v8.24.2
rev: v8.24.0
hooks:
- id: gitleaks
- repo: https://github.com/woodruffw/zizmor-pre-commit
rev: v1.5.2
rev: v1.4.1
hooks:
- id: zizmor

10
README.md
View File

@@ -98,18 +98,14 @@ conda create -y -n lerobot python=3.10
conda activate lerobot
```
When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
Install 🤗 LeRobot:
```bash
pip install -e .
```
> **NOTE:** If you encounter build errors, you may need to install additional dependencies (`cmake`, `build-essential`, and `ffmpeg libs`). On Linux, run:
`sudo apt-get install cmake build-essential python-dev pkg-config libavformat-dev libavcodec-dev libavdevice-dev libavutil-dev libswscale-dev libswresample-dev libavfilter-dev pkg-config`. For other systems, see: [Compiling PyAV](https://pyav.org/docs/develop/overview/installation.html#bring-your-own-ffmpeg)
> **NOTE:** Depending on your platform, If you encounter any build errors during this step
you may need to install `cmake` and `build-essential` for building some of our dependencies.
On linux: `sudo apt-get install cmake build-essential`
For simulations, 🤗 LeRobot comes with gymnasium environments that can be installed as extras:
- [aloha](https://github.com/huggingface/gym-aloha)

2
benchmarks/video/README.md
View File

@@ -51,7 +51,7 @@ For a comprehensive list and documentation of these parameters, see the ffmpeg d
### Decoding parameters
**Decoder**
We tested two video decoding backends from torchvision:
- `pyav`
- `pyav` (default)
- `video_reader` (requires to build torchvision from source)
**Requested timestamps**

32
benchmarks/video/capture_camera_feed.py
View File

@@ -17,21 +17,12 @@
import argparse
import datetime as dt
import os
import time
from pathlib import Path
import cv2
import rerun as rr
# see https://rerun.io/docs/howto/visualization/limit-ram
RERUN_MEMORY_LIMIT = os.getenv("LEROBOT_RERUN_MEMORY_LIMIT", "5%")
def display_and_save_video_stream(output_dir: Path, fps: int, width: int, height: int, duration: int):
rr.init("lerobot_capture_camera_feed")
rr.spawn(memory_limit=RERUN_MEMORY_LIMIT)
def display_and_save_video_stream(output_dir: Path, fps: int, width: int, height: int):
now = dt.datetime.now()
capture_dir = output_dir / f"{now:%Y-%m-%d}" / f"{now:%H-%M-%S}"
if not capture_dir.exists():
@@ -48,21 +39,24 @@ def display_and_save_video_stream(output_dir: Path, fps: int, width: int, height
cap.set(cv2.CAP_PROP_FRAME_HEIGHT, height)
frame_index = 0
start_time = time.time()
while time.time() - start_time < duration:
while True:
ret, frame = cap.read()
if not ret:
print("Error: Could not read frame.")
break
rr.log("video/stream", rr.Image(frame.numpy()), static=True)
cv2.imshow("Video Stream", frame)
cv2.imwrite(str(capture_dir / f"frame_{frame_index:06d}.png"), frame)
frame_index += 1
# Release the capture
cap.release()
# Break the loop on 'q' key press
if cv2.waitKey(1) & 0xFF == ord("q"):
break
# TODO(Steven): Add a graceful shutdown via a close() method for the Viewer context, though not currently supported in the Rerun API.
# Release the capture and destroy all windows
cap.release()
cv2.destroyAllWindows()
if __name__ == "__main__":
@@ -92,11 +86,5 @@ if __name__ == "__main__":
default=720,
help="Height of the captured images.",
)
parser.add_argument(
"--duration",
type=int,
default=20,
help="Duration in seconds for which the video stream should be captured.",
)
args = parser.parse_args()
display_and_save_video_stream(**vars(args))

2
benchmarks/video/run_video_benchmark.py
View File

@@ -67,7 +67,7 @@ def parse_int_or_none(value) -> int | None:
def check_datasets_formats(repo_ids: list) -> None:
for repo_id in repo_ids:
dataset = LeRobotDataset(repo_id)
if len(dataset.meta.video_keys) > 0:
if dataset.video:
raise ValueError(
f"Use only image dataset for running this benchmark. Video dataset provided: {repo_id}"
)

4
examples/1_load_lerobot_dataset.py
View File

@@ -119,7 +119,7 @@ print(dataset.features[camera_key]["shape"])
delta_timestamps = {
# loads 4 images: 1 second before current frame, 500 ms before, 200 ms before, and current frame
camera_key: [-1, -0.5, -0.20, 0],
# loads 6 state vectors: 1.5 seconds before, 1 second before, ... 200 ms, 100 ms, and current frame
# loads 8 state vectors: 1.5 seconds before, 1 second before, ... 200 ms, 100 ms, and current frame
"observation.state": [-1.5, -1, -0.5, -0.20, -0.10, 0],
# loads 64 action vectors: current frame, 1 frame in the future, 2 frames, ... 63 frames in the future
"action": [t / dataset.fps for t in range(64)],
@@ -143,6 +143,6 @@ dataloader = torch.utils.data.DataLoader(
for batch in dataloader:
print(f"{batch[camera_key].shape=}") # (32, 4, c, h, w)
print(f"{batch['observation.state'].shape=}") # (32, 6, c)
print(f"{batch['observation.state'].shape=}") # (32, 5, c)
print(f"{batch['action'].shape=}") # (32, 64, c)
break

2
examples/2_evaluate_pretrained_policy.py
View File

@@ -18,7 +18,7 @@ training outputs directory. In the latter case, you might want to run examples/3
It requires the installation of the 'gym_pusht' simulation environment. Install it by running:
```bash
pip install -e ".[pusht]"
pip install -e ".[pusht]"`
```
"""

32
examples/7_get_started_with_real_robot.md
View File

@@ -46,6 +46,13 @@ Using `uv`:
uv sync --extra "dynamixel"
```
/!\ For Linux only, ffmpeg and opencv requires conda install for now. Run this exact sequence of commands:
```bash
conda install -c conda-forge ffmpeg
pip uninstall opencv-python
conda install -c conda-forge "opencv>=4.10.0"
```
You are now ready to plug the 5V power supply to the motor bus of the leader arm (the smaller one) since all its motors only require 5V.
Then plug the 12V power supply to the motor bus of the follower arm. It has two motors that need 12V, and the rest will be powered with 5V through the voltage convertor.
@@ -55,9 +62,6 @@ Finally, connect both arms to your computer via USB. Note that the USB doesn't p
Now you are ready to configure your motors for the first time, as detailed in the sections below. In the upcoming sections, you'll learn about our classes and functions by running some python code in an interactive session, or by copy-pasting it in a python file.
If you have already configured your motors the first time, you can streamline the process by directly running the teleoperate script (which is detailed further in the tutorial):
> **NOTE:** To visualize the data, enable `--control.display_data=true`. This streams the data using `rerun`.
```bash
python lerobot/scripts/control_robot.py \
--robot.type=koch \
@@ -83,7 +87,7 @@ python lerobot/scripts/configure_motor.py \
--brand dynamixel \
--model xl330-m288 \
--baudrate 1000000 \
--id 1
--ID 1
```
Then unplug your first motor and plug the second motor and set its ID to 2.
@@ -93,7 +97,7 @@ python lerobot/scripts/configure_motor.py \
--brand dynamixel \
--model xl330-m288 \
--baudrate 1000000 \
--id 2
--ID 2
```
Redo the process for all your motors until ID 6.
@@ -288,11 +292,6 @@ Steps:
- Scan for devices. All 12 motors should appear.
- Select the motors one by one and move the arm. Check that the graphical indicator near the top right shows the movement.
** There is a common issue with the Dynamixel XL430-W250 motors where the motors become undiscoverable after upgrading their firmware from Mac and Windows Dynamixel Wizard2 applications. When this occurs, it is required to do a firmware recovery (Select `DYNAMIXEL Firmware Recovery` and follow the prompts). There are two known workarounds to conduct this firmware reset:
1) Install the Dynamixel Wizard on a linux machine and complete the firmware recovery
2) Use the Dynamixel U2D2 in order to perform the reset with Windows or Mac. This U2D2 can be purchased [here](https://www.robotis.us/u2d2/).
For either solution, open DYNAMIXEL Wizard 2.0 and select the appropriate port. You will likely be unable to see the motor in the GUI at this time. Select `Firmware Recovery`, carefully choose the correct model, and wait for the process to complete. Finally, re-scan to confirm the firmware recovery was successful.
**Read and Write with DynamixelMotorsBus**
To get familiar with how `DynamixelMotorsBus` communicates with the motors, you can start by reading data from them. Copy past this code in the same interactive python session:
@@ -830,11 +829,16 @@ It contains:
- `dtRphone:33.84 (29.5hz)` which is the delta time of capturing an image from the phone camera in the thread running asynchronously.
Troubleshooting:
- On Linux, if you encounter a hanging issue when using cameras, uninstall opencv and re-install it with conda:
```bash
pip uninstall opencv-python
conda install -c conda-forge opencv=4.10.0
```
- On Linux, if you encounter any issue during video encoding with `ffmpeg: unknown encoder libsvtav1`, you can:
- install with conda-forge by running `conda install -c conda-forge ffmpeg` (it should be compiled with `libsvtav1`),
> **NOTE:** This usually installs `ffmpeg 7.X` for your platform (check the version installed with `ffmpeg -encoders | grep libsvtav1`). If it isn't `ffmpeg 7.X` or lacks `libsvtav1` support, you can explicitly install `ffmpeg 7.X` using: `conda install ffmpeg=7.1.1 -c conda-forge`
- or, install [ffmpeg build dependencies](https://trac.ffmpeg.org/wiki/CompilationGuide/Ubuntu#GettheDependencies) and [compile ffmpeg from source with libsvtav1](https://trac.ffmpeg.org/wiki/CompilationGuide/Ubuntu#libsvtav1),
- and, make sure you use the corresponding ffmpeg binary to your install with `which ffmpeg`.
- install with conda-forge by running `conda install -c conda-forge ffmpeg` (it should be compiled with `libsvtav1`),
- or, install [Homebrew](https://brew.sh) and run `brew install ffmpeg` (it should be compiled with `libsvtav1`),
- or, install [ffmpeg build dependencies](https://trac.ffmpeg.org/wiki/CompilationGuide/Ubuntu#GettheDependencies) and [compile ffmpeg from source with libsvtav1](https://trac.ffmpeg.org/wiki/CompilationGuide/Ubuntu#libsvtav1),
- and, make sure you use the corresponding ffmpeg binary to your install with `which ffmpeg`.
- On Linux, if the left and right arrow keys and escape key don't have any effect during data recording, make sure you've set the `$DISPLAY` environment variable. See [pynput limitations](https://pynput.readthedocs.io/en/latest/limitations.html#linux).
At the end of data recording, your dataset will be uploaded on your Hugging Face page (e.g. https://huggingface.co/datasets/cadene/koch_test) that you can obtain by running:

243
examples/port_datasets/pusht_zarr.py Normal file
View File

@@ -0,0 +1,243 @@
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import shutil
from pathlib import Path
import numpy as np
from huggingface_hub import HfApi
from lerobot.common.constants import HF_LEROBOT_HOME
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION, LeRobotDataset
from lerobot.common.datasets.push_dataset_to_hub._download_raw import download_raw
PUSHT_TASK = "Push the T-shaped blue block onto the T-shaped green target surface."
PUSHT_FEATURES = {
"observation.state": {
"dtype": "float32",
"shape": (2,),
"names": {
"axes": ["x", "y"],
},
},
"action": {
"dtype": "float32",
"shape": (2,),
"names": {
"axes": ["x", "y"],
},
},
"next.reward": {
"dtype": "float32",
"shape": (1,),
"names": None,
},
"next.success": {
"dtype": "bool",
"shape": (1,),
"names": None,
},
"observation.environment_state": {
"dtype": "float32",
"shape": (16,),
"names": [
"keypoints",
],
},
"observation.image": {
"dtype": None,
"shape": (3, 96, 96),
"names": [
"channels",
"height",
"width",
],
},
}
def build_features(mode: str) -> dict:
features = PUSHT_FEATURES
if mode == "keypoints":
features.pop("observation.image")
else:
features.pop("observation.environment_state")
features["observation.image"]["dtype"] = mode
return features
def load_raw_dataset(zarr_path: Path):
try:
from lerobot.common.datasets.push_dataset_to_hub._diffusion_policy_replay_buffer import (
ReplayBuffer as DiffusionPolicyReplayBuffer,
)
except ModuleNotFoundError as e:
print("`gym_pusht` is not installed. Please install it with `pip install 'lerobot[gym_pusht]'`")
raise e
zarr_data = DiffusionPolicyReplayBuffer.copy_from_path(zarr_path)
return zarr_data
def calculate_coverage(zarr_data):
try:
import pymunk
from gym_pusht.envs.pusht import PushTEnv, pymunk_to_shapely
except ModuleNotFoundError as e:
print("`gym_pusht` is not installed. Please install it with `pip install 'lerobot[gym_pusht]'`")
raise e
block_pos = zarr_data["state"][:, 2:4]
block_angle = zarr_data["state"][:, 4]
num_frames = len(block_pos)
coverage = np.zeros((num_frames,), dtype=np.float32)
# 8 keypoints with 2 coords each
keypoints = np.zeros((num_frames, 16), dtype=np.float32)
# Set x, y, theta (in radians)
goal_pos_angle = np.array([256, 256, np.pi / 4])
goal_body = PushTEnv.get_goal_pose_body(goal_pos_angle)
for i in range(num_frames):
space = pymunk.Space()
space.gravity = 0, 0
space.damping = 0
# Add walls.
walls = [
PushTEnv.add_segment(space, (5, 506), (5, 5), 2),
PushTEnv.add_segment(space, (5, 5), (506, 5), 2),
PushTEnv.add_segment(space, (506, 5), (506, 506), 2),
PushTEnv.add_segment(space, (5, 506), (506, 506), 2),
]
space.add(*walls)
block_body, block_shapes = PushTEnv.add_tee(space, block_pos[i].tolist(), block_angle[i].item())
goal_geom = pymunk_to_shapely(goal_body, block_body.shapes)
block_geom = pymunk_to_shapely(block_body, block_body.shapes)
intersection_area = goal_geom.intersection(block_geom).area
goal_area = goal_geom.area
coverage[i] = intersection_area / goal_area
keypoints[i] = PushTEnv.get_keypoints(block_shapes).flatten()
return coverage, keypoints
def calculate_success(coverage: float, success_threshold: float):
return coverage > success_threshold
def calculate_reward(coverage: float, success_threshold: float):
return np.clip(coverage / success_threshold, 0, 1)
def main(raw_dir: Path, repo_id: str, mode: str = "video", push_to_hub: bool = True):
if mode not in ["video", "image", "keypoints"]:
raise ValueError(mode)
if (HF_LEROBOT_HOME / repo_id).exists():
shutil.rmtree(HF_LEROBOT_HOME / repo_id)
if not raw_dir.exists():
download_raw(raw_dir, repo_id="lerobot-raw/pusht_raw")
zarr_data = load_raw_dataset(zarr_path=raw_dir / "pusht_cchi_v7_replay.zarr")
env_state = zarr_data["state"][:]
agent_pos = env_state[:, :2]
action = zarr_data["action"][:]
image = zarr_data["img"] # (b, h, w, c)
if image.dtype == np.float32 and image.max() == np.float32(255):
# HACK: images are loaded as float32 but they actually encode uint8 data
image = image.astype(np.uint8)
episode_data_index = {
"from": np.concatenate(([0], zarr_data.meta["episode_ends"][:-1])),
"to": zarr_data.meta["episode_ends"],
}
# Calculate success and reward based on the overlapping area
# of the T-object and the T-area.
coverage, keypoints = calculate_coverage(zarr_data)
success = calculate_success(coverage, success_threshold=0.95)
reward = calculate_reward(coverage, success_threshold=0.95)
features = build_features(mode)
dataset = LeRobotDataset.create(
repo_id=repo_id,
fps=10,
robot_type="2d pointer",
features=features,
image_writer_threads=4,
)
episodes = range(len(episode_data_index["from"]))
for ep_idx in episodes:
from_idx = episode_data_index["from"][ep_idx]
to_idx = episode_data_index["to"][ep_idx]
num_frames = to_idx - from_idx
for frame_idx in range(num_frames):
i = from_idx + frame_idx
idx = i + (frame_idx < num_frames - 1)
frame = {
"action": action[i],
# Shift reward and success by +1 until the last item of the episode
"next.reward": reward[idx : idx + 1],
"next.success": success[idx : idx + 1],
"task": PUSHT_TASK,
}
frame["observation.state"] = agent_pos[i]
if mode == "keypoints":
frame["observation.environment_state"] = keypoints[i]
else:
frame["observation.image"] = image[i]
dataset.add_frame(frame)
dataset.save_episode()
if push_to_hub:
dataset.push_to_hub()
hub_api = HfApi()
hub_api.create_tag(repo_id, tag=CODEBASE_VERSION, repo_type="dataset")
if __name__ == "__main__":
# To try this script, modify the repo id with your own HuggingFace user (e.g cadene/pusht)
repo_id = "lerobot/pusht"
modes = ["video", "image", "keypoints"]
# Uncomment if you want to try with a specific mode
# modes = ["video"]
# modes = ["image"]
# modes = ["keypoints"]
raw_dir = Path("data/lerobot-raw/pusht_raw")
for mode in modes:
if mode in ["image", "keypoints"]:
repo_id += f"_{mode}"
# download and load raw dataset, create LeRobotDataset, populate it, push to hub
main(raw_dir, repo_id=repo_id, mode=mode)
# Uncomment if you want to load the local dataset and explore it
# dataset = LeRobotDataset(repo_id=repo_id)
# breakpoint()

2
lerobot/common/cameras/camera.py
View File

@@ -9,7 +9,7 @@ class Camera(abc.ABC):
pass
@abc.abstractmethod
def read(self, temporary_color_mode: str | None = None) -> np.ndarray:
def read(self, temporary_color: str | None = None) -> np.ndarray:
pass
@abc.abstractmethod

305
lerobot/common/cameras/interface_camera_sdk.py
View File

@@ -1,305 +0,0 @@
# ruff: noqa: N802,N803
import abc
from typing import Optional, Tuple
import numpy as np
# --- Interface Definition ---
class IVideoCapture(abc.ABC):
"""Interface for the cv2.VideoCapture class."""
@abc.abstractmethod
def __init__(self, index: int | str, backend: Optional[int] = None):
pass
@abc.abstractmethod
def isOpened(self) -> bool:
pass
@abc.abstractmethod
def release(self) -> None:
pass
@abc.abstractmethod
def set(self, propId: int, value: float) -> bool:
pass
@abc.abstractmethod
def get(self, propId: int) -> float:
pass
@abc.abstractmethod
def read(self) -> Tuple[bool, Optional[np.ndarray]]:
pass
class IOpenCVSDK(abc.ABC):
"""Interface defining the contract for OpenCV SDK interactions."""
# --- Constants ---
CAP_PROP_FPS: int
CAP_PROP_FRAME_WIDTH: int
CAP_PROP_FRAME_HEIGHT: int
COLOR_BGR2RGB: int
ROTATE_90_COUNTERCLOCKWISE: int
ROTATE_90_CLOCKWISE: int
ROTATE_180: int
CAP_V4L2: int
CAP_DSHOW: int
CAP_AVFOUNDATION: int
CAP_ANY: int
# --- Inner Class Type Hint ---
VideoCapture: type[IVideoCapture]
# --- Methods ---
@abc.abstractmethod
def setNumThreads(self, nthreads: int) -> None:
pass
@abc.abstractmethod
def cvtColor(self, src: np.ndarray, code: int) -> np.ndarray:
pass
@abc.abstractmethod
def rotate(self, src: np.ndarray, rotateCode: int) -> np.ndarray:
pass
# --- Real SDK Adapter ---
class OpenCVSDKAdapter(IOpenCVSDK):
"""Adapts the real cv2 library to the IOpenCVSDK interface."""
_cv2 = None
def __init__(self):
try:
import cv2
OpenCVSDKAdapter._cv2 = cv2
except ImportError as e:
raise ImportError(
"OpenCV (cv2) is not installed. Please install it to use the real camera."
) from e
# --- Constants ---
self.CAP_PROP_FPS = self._cv2.CAP_PROP_FPS
self.CAP_PROP_FRAME_WIDTH = self._cv2.CAP_PROP_FRAME_WIDTH
self.CAP_PROP_FRAME_HEIGHT = self._cv2.CAP_PROP_FRAME_HEIGHT
self.COLOR_BGR2RGB = self._cv2.COLOR_BGR2RGB
self.ROTATE_90_COUNTERCLOCKWISE = self._cv2.ROTATE_90_COUNTERCLOCKWISE
self.ROTATE_90_CLOCKWISE = self._cv2.ROTATE_90_CLOCKWISE
self.ROTATE_180 = self._cv2.ROTATE_180
self.CAP_V4L2 = self._cv2.CAP_V4L2
self.CAP_DSHOW = self._cv2.CAP_DSHOW
self.CAP_AVFOUNDATION = self._cv2.CAP_AVFOUNDATION
self.CAP_ANY = self._cv2.CAP_ANY
# --- Inner Class Implementation ---
class RealVideoCapture(IVideoCapture):
def __init__(self, index: int | str, backend: Optional[int] = None):
self._cap = OpenCVSDKAdapter._cv2.VideoCapture(index, backend)
def isOpened(self) -> bool:
return self._cap.isOpened()
def release(self) -> None:
self._cap.release()
def set(self, propId: int, value: float) -> bool:
return self._cap.set(propId, value)
def get(self, propId: int) -> float:
return self._cap.get(propId)
def read(self) -> Tuple[bool, Optional[np.ndarray]]:
return self._cap.read()
def __del__(self):
if hasattr(self, "_cap") and self._cap and self._cap.isOpened():
self._cap.release()
self.VideoCapture = RealVideoCapture
# --- Methods ---
def setNumThreads(self, nthreads: int) -> None:
self._cv2.setNumThreads(nthreads)
def cvtColor(self, src: np.ndarray, code: int) -> np.ndarray:
return self._cv2.cvtColor(src, code)
def rotate(self, src: np.ndarray, rotateCode: int) -> np.ndarray:
return self._cv2.rotate(src, rotateCode)
# Emulates the cheap USB camera
VALID_INDICES = {0, 1, 2, "/dev/video0", "/dev/video1", "/dev/video2"}
DEFAULT_FPS = 30.0
DEFAULT_WIDTH = 1280
DEFAULT_HEIGHT = 720
# --- Fake SDK Adapter ---
class FakeOpenCVSDKAdapter(IOpenCVSDK):
"""Implements the IOpenCVSDK interface with fake behavior for testing."""
# --- Constants ---
CAP_PROP_FPS = DEFAULT_FPS
CAP_PROP_FRAME_WIDTH = DEFAULT_WIDTH
CAP_PROP_FRAME_HEIGHT = DEFAULT_HEIGHT
COLOR_BGR2RGB = 99
ROTATE_90_COUNTERCLOCKWISE = -90
ROTATE_90_CLOCKWISE = 90
ROTATE_180 = 180
CAP_V4L2 = 91
CAP_DSHOW = 92
CAP_AVFOUNDATION = 93
CAP_ANY = 90
_cameras_opened: dict[int | str, bool] = {}
_camera_properties: dict[tuple[int | str, int], float] = {}
_simulated_image: np.ndarray = np.random.randint(
0, 256, (DEFAULT_HEIGHT, DEFAULT_WIDTH, 3), dtype=np.uint8
)
_simulated_fps: float = DEFAULT_FPS
_image_read_count: int = 0
_fail_read_after: Optional[int] = None # Simulate read failure
@classmethod
def init_configure_fake(
cls,
simulated_image: Optional[np.ndarray] = None,
simulated_fps: Optional[float] = None,
fail_read_after: Optional[int] = None,
):
if simulated_image is not None:
cls._simulated_image = simulated_image
if simulated_fps is not None:
cls._simulated_fps = simulated_fps
cls._fail_read_after = fail_read_after
cls._image_read_count = 0
cls._cameras_opened = {}
cls._camera_properties = {}
@classmethod
def configure_fake_simulated_image(cls, simulated_image: Optional[np.ndarray] = None):
if simulated_image is not None:
cls._simulated_image = simulated_image
@classmethod
def configure_fail_read_after(cls, fail_read_after: Optional[int] = None):
cls._fail_read_after = fail_read_after
@classmethod
def configure_fake_simulated_fps(cls, simulated_fps: Optional[float] = None):
if simulated_fps is not None:
cls._simulated_fps = simulated_fps
# --- Inner Class Implementation ---
class FakeVideoCapture(IVideoCapture):
def __init__(self, index: int | str, backend: Optional[int] = None):
self.index = index
self.backend = backend
valid_indices = VALID_INDICES
if self.index in valid_indices:
FakeOpenCVSDKAdapter._cameras_opened[self.index] = True
print(f"[FAKE SDK] Opened camera {self.index}")
# Set some default fake properties
FakeOpenCVSDKAdapter._camera_properties[(self.index, FakeOpenCVSDKAdapter.CAP_PROP_FPS)] = (
DEFAULT_FPS
)
FakeOpenCVSDKAdapter._camera_properties[
(self.index, FakeOpenCVSDKAdapter.CAP_PROP_FRAME_WIDTH)
] = float(FakeOpenCVSDKAdapter._simulated_image.shape[1])
FakeOpenCVSDKAdapter._camera_properties[
(self.index, FakeOpenCVSDKAdapter.CAP_PROP_FRAME_HEIGHT)
] = float(FakeOpenCVSDKAdapter._simulated_image.shape[0])
else:
FakeOpenCVSDKAdapter._cameras_opened[self.index] = False
print(f"[FAKE SDK] Failed to open camera {self.index}")
def isOpened(self) -> bool:
return FakeOpenCVSDKAdapter._cameras_opened.get(self.index, False)
def release(self) -> None:
if self.index in FakeOpenCVSDKAdapter._cameras_opened:
FakeOpenCVSDKAdapter._cameras_opened[self.index] = False
print(f"[FAKE SDK] Released camera {self.index}")
# Clear properties on release
props_to_remove = [k for k in FakeOpenCVSDKAdapter._camera_properties if k[0] == self.index]
for k in props_to_remove:
del FakeOpenCVSDKAdapter._camera_properties[k]
def set(self, propId: int, value: float) -> bool:
if not self.isOpened():
return False
print(
f"[FAKE SDK] Ignoring set property {propId} = {value} for camera {self.index} to preserve state."
)
# FakeOpenCVSDKAdapter._camera_properties[(self.index, propId)] = value
# Simulate failure for specific unrealistic settings if needed
return True
def get(self, propId: int) -> float:
if not self.isOpened():
return 0.0 # Or raise error? Mimic cv2 behavior
val = FakeOpenCVSDKAdapter._camera_properties.get((self.index, propId))
print(f"[FAKE SDK] Get property {propId} for camera {self.index} -> {val}")
return val
def read(self) -> Tuple[bool, Optional[np.ndarray]]:
if not self.isOpened():
print(f"[FAKE SDK] Read failed: Camera {self.index} not open.")
return False, None
FakeOpenCVSDKAdapter._image_read_count += 1
if (
FakeOpenCVSDKAdapter._fail_read_after is not None
and FakeOpenCVSDKAdapter._image_read_count > FakeOpenCVSDKAdapter._fail_read_after
):
print(
f"[FAKE SDK] Simulated read failure for camera {self.index} after {FakeOpenCVSDKAdapter._fail_read_after} reads."
)
return False, None
print(
f"[FAKE SDK] Read image from camera {self.index} (read #{FakeOpenCVSDKAdapter._image_read_count})"
)
# Return a copy to prevent modification issues if the caller changes it
return True, FakeOpenCVSDKAdapter._simulated_image.copy()
def __del__(self):
# Ensure cleanup if garbage collected
self.release()
VideoCapture = FakeVideoCapture # Assign inner class
# --- Methods ---
def setNumThreads(self, nthreads: int) -> None:
print(f"[FAKE SDK] setNumThreads({nthreads}) called.")
# No actual behavior needed in fake
def cvtColor(self, src: np.ndarray, code: int) -> np.ndarray:
print(f"[FAKE SDK] cvtColor called with code {code}.")
# Just return the source image, or simulate channel swap if needed
if code == self.COLOR_BGR2RGB and src.shape[2] == 3:
print("[FAKE SDK] Simulating BGR -> RGB conversion.")
return src[..., ::-1]
return src.copy()
def rotate(self, src: np.ndarray, rotateCode: int) -> np.ndarray:
print(f"[FAKE SDK] rotate called with code {rotateCode}.")
if rotateCode == self.ROTATE_90_COUNTERCLOCKWISE:
print("[FAKE SDK] Simulating 90 degree counter-clockwise rotation.")
rotated_img = np.rot90(np.rot90(np.rot90(src.copy())))
return rotated_img
elif rotateCode == self.ROTATE_90_CLOCKWISE:
print("[FAKE SDK] Simulating 90 degree clockwise rotation.")
rotated_img = np.rot90(src.copy())
return rotated_img
elif rotateCode == self.ROTATE_180:
print("[FAKE SDK] Simulating 180 degree rotation.")
rotated_img = np.rot90(np.rot90(src.copy()))
return rotated_img
return src.copy()

124
lerobot/common/cameras/opencv/camera_opencv.py
View File

@@ -24,6 +24,7 @@ import shutil
import threading
import time
from pathlib import Path
from threading import Thread
import numpy as np
from PIL import Image
@@ -35,7 +36,6 @@ from lerobot.common.utils.robot_utils import (
from lerobot.common.utils.utils import capture_timestamp_utc
from ..camera import Camera
from ..interface_camera_sdk import IOpenCVSDK, OpenCVSDKAdapter
from .configuration_opencv import OpenCVCameraConfig
# The maximum opencv device index depends on your operating system. For instance,
@@ -46,17 +46,12 @@ from .configuration_opencv import OpenCVCameraConfig
MAX_OPENCV_INDEX = 60
def find_cameras(
raise_when_empty=False, max_index_search_range=MAX_OPENCV_INDEX, cv2_sdk: IOpenCVSDK = None
) -> list[dict]:
if cv2_sdk is None:
cv2_sdk = OpenCVSDKAdapter()
def find_cameras(raise_when_empty=False, max_index_search_range=MAX_OPENCV_INDEX, mock=False) -> list[dict]:
cameras = []
if platform.system() == "Linux":
print("Linux detected. Finding available camera indices through scanning '/dev/video*' ports")
possible_ports = [str(port) for port in Path("/dev").glob("video*")]
ports = _find_cameras(possible_ports, cv2_sdk=cv2_sdk)
ports = _find_cameras(possible_ports, mock=mock)
for port in ports:
cameras.append(
{
@@ -70,7 +65,7 @@ def find_cameras(
f"scanning all indices from 0 to {MAX_OPENCV_INDEX}"
)
possible_indices = range(max_index_search_range)
indices = _find_cameras(possible_indices, cv2_sdk=cv2_sdk)
indices = _find_cameras(possible_indices, mock=mock)
for index in indices:
cameras.append(
{
@@ -83,14 +78,16 @@ def find_cameras(
def _find_cameras(
possible_camera_ids: list[int | str], raise_when_empty=False, cv2_sdk: IOpenCVSDK = None
possible_camera_ids: list[int | str], raise_when_empty=False, mock=False
) -> list[int | str]:
if cv2_sdk is None:
cv2_sdk = OpenCVSDKAdapter()
if mock:
import tests.cameras.mock_cv2 as cv2
else:
import cv2
camera_ids = []
for camera_idx in possible_camera_ids:
camera = cv2_sdk.VideoCapture(camera_idx)
camera = cv2.VideoCapture(camera_idx)
is_open = camera.isOpened()
camera.release()
@@ -131,24 +128,21 @@ def save_images_from_cameras(
width=None,
height=None,
record_time_s=2,
cv2_sdk: IOpenCVSDK = None,
mock=False,
):
"""
Initializes all the cameras and saves images to the directory. Useful to visually identify the camera
associated to a given camera index.
"""
if cv2_sdk is None:
cv2_sdk = OpenCVSDKAdapter()
if camera_ids is None or len(camera_ids) == 0:
camera_infos = find_cameras(cv2_sdk=cv2_sdk)
camera_infos = find_cameras(mock=mock)
camera_ids = [cam["index"] for cam in camera_infos]
print("Connecting cameras")
cameras = []
for cam_idx in camera_ids:
config = OpenCVCameraConfig(camera_index=cam_idx, fps=fps, width=width, height=height)
camera = OpenCVCamera(config, cv2_sdk=cv2_sdk)
config = OpenCVCameraConfig(camera_index=cam_idx, fps=fps, width=width, height=height, mock=mock)
camera = OpenCVCamera(config)
camera.connect()
print(
f"OpenCVCamera({camera.camera_index}, fps={camera.fps}, width={camera.capture_width}, "
@@ -235,16 +229,11 @@ class OpenCVCamera(Camera):
```
"""
def __init__(self, config: OpenCVCameraConfig, cv2_sdk: IOpenCVSDK = None):
def __init__(self, config: OpenCVCameraConfig):
self.config = config
self.camera_index = config.camera_index
self.port = None
if cv2_sdk is None:
cv2_sdk = OpenCVSDKAdapter()
self.cv2_sdk = cv2_sdk
# Linux uses ports for connecting to cameras
if platform.system() == "Linux":
if isinstance(self.camera_index, int):
@@ -271,6 +260,7 @@ class OpenCVCamera(Camera):
self.fps = config.fps
self.channels = config.channels
self.color_mode = config.color_mode
self.mock = config.mock
self.camera = None
self.is_connected = False
@@ -279,42 +269,56 @@ class OpenCVCamera(Camera):
self.color_image = None
self.logs = {}
if self.mock:
import tests.cameras.mock_cv2 as cv2
else:
import cv2
self.rotation = None
if config.rotation == -90:
self.rotation = cv2_sdk.ROTATE_90_COUNTERCLOCKWISE
self.rotation = cv2.ROTATE_90_COUNTERCLOCKWISE
elif config.rotation == 90:
self.rotation = cv2_sdk.ROTATE_90_CLOCKWISE
self.rotation = cv2.ROTATE_90_CLOCKWISE
elif config.rotation == 180:
self.rotation = cv2_sdk.ROTATE_180
self.rotation = cv2.ROTATE_180
def connect(self):
if self.is_connected:
raise DeviceAlreadyConnectedError(f"OpenCVCamera({self.camera_index}) is already connected.")
cv2_sdk = self.cv2_sdk
if self.mock:
import tests.cameras.mock_cv2 as cv2
else:
import cv2
# Use 1 thread to avoid blocking the main thread. Especially useful during data collection
# when other threads are used to save the images.
cv2_sdk.setNumThreads(1)
# Use 1 thread to avoid blocking the main thread. Especially useful during data collection
# when other threads are used to save the images.
cv2.setNumThreads(1)
backend = (
cv2_sdk.CAP_V4L2
cv2.CAP_V4L2
if platform.system() == "Linux"
else cv2_sdk.CAP_DSHOW
else cv2.CAP_DSHOW
if platform.system() == "Windows"
else cv2_sdk.CAP_AVFOUNDATION
else cv2.CAP_AVFOUNDATION
if platform.system() == "Darwin"
else cv2_sdk.CAP_ANY
else cv2.CAP_ANY
)
camera_idx = f"/dev/video{self.camera_index}" if platform.system() == "Linux" else self.camera_index
# First create a temporary camera trying to access `camera_index`,
# and verify it is a valid camera by calling `isOpened`.
tmp_camera = cv2.VideoCapture(camera_idx, backend)
is_camera_open = tmp_camera.isOpened()
# Release camera to make it accessible for `find_camera_indices`
tmp_camera.release()
del tmp_camera
self.camera = cv2_sdk.VideoCapture(camera_idx, backend)
if not self.camera.isOpened():
self.camera.release() # Release the failed attempt
# If the camera doesn't work, display the camera indices corresponding to
# valid cameras.
if not is_camera_open:
# Verify that the provided `camera_index` is valid before printing the traceback
cameras_info = find_cameras(cv2_sdk=cv2_sdk)
cameras_info = find_cameras()
available_cam_ids = [cam["index"] for cam in cameras_info]
if self.camera_index not in available_cam_ids:
raise ValueError(
@@ -324,16 +328,21 @@ class OpenCVCamera(Camera):
raise OSError(f"Can't access OpenCVCamera({camera_idx}).")
if self.fps is not None:
self.camera.set(cv2_sdk.CAP_PROP_FPS, self.fps)
if self.capture_width is not None:
self.camera.set(cv2_sdk.CAP_PROP_FRAME_WIDTH, self.capture_width)
if self.capture_height is not None:
self.camera.set(cv2_sdk.CAP_PROP_FRAME_HEIGHT, self.capture_height)
# Secondly, create the camera that will be used downstream.
# Note: For some unknown reason, calling `isOpened` blocks the camera which then
# needs to be re-created.
self.camera = cv2.VideoCapture(camera_idx, backend)
actual_fps = self.camera.get(cv2_sdk.CAP_PROP_FPS)
actual_width = self.camera.get(cv2_sdk.CAP_PROP_FRAME_WIDTH)
actual_height = self.camera.get(cv2_sdk.CAP_PROP_FRAME_HEIGHT)
if self.fps is not None:
self.camera.set(cv2.CAP_PROP_FPS, self.fps)
if self.capture_width is not None:
self.camera.set(cv2.CAP_PROP_FRAME_WIDTH, self.capture_width)
if self.capture_height is not None:
self.camera.set(cv2.CAP_PROP_FRAME_HEIGHT, self.capture_height)
actual_fps = self.camera.get(cv2.CAP_PROP_FPS)
actual_width = self.camera.get(cv2.CAP_PROP_FRAME_WIDTH)
actual_height = self.camera.get(cv2.CAP_PROP_FRAME_HEIGHT)
# Using `math.isclose` since actual fps can be a float (e.g. 29.9 instead of 30)
if self.fps is not None and not math.isclose(self.fps, actual_fps, rel_tol=1e-3):
@@ -371,8 +380,6 @@ class OpenCVCamera(Camera):
f"OpenCVCamera({self.camera_index}) is not connected. Try running `camera.connect()` first."
)
cv2_sdk = self.cv2_sdk
start_time = time.perf_counter()
ret, color_image = self.camera.read()
@@ -391,7 +398,12 @@ class OpenCVCamera(Camera):
# However, Deep Learning framework such as LeRobot uses RGB format as default to train neural networks,
# so we convert the image color from BGR to RGB.
if requested_color_mode == "rgb":
color_image = cv2_sdk.cvtColor(color_image, cv2_sdk.COLOR_BGR2RGB)
if self.mock:
import tests.cameras.mock_cv2 as cv2
else:
import cv2
color_image = cv2.cvtColor(color_image, cv2.COLOR_BGR2RGB)
h, w, _ = color_image.shape
if h != self.capture_height or w != self.capture_width:
@@ -400,7 +412,7 @@ class OpenCVCamera(Camera):
)
if self.rotation is not None:
color_image = cv2_sdk.rotate(color_image, self.rotation)
color_image = cv2.rotate(color_image, self.rotation)
# log the number of seconds it took to read the image
self.logs["delta_timestamp_s"] = time.perf_counter() - start_time
@@ -427,7 +439,7 @@ class OpenCVCamera(Camera):
if self.thread is None:
self.stop_event = threading.Event()
self.thread = threading.Thread(target=self.read_loop, args=())
self.thread = Thread(target=self.read_loop, args=())
self.thread.daemon = True
self.thread.start()

1
lerobot/common/cameras/opencv/configuration_opencv.py
View File

@@ -24,6 +24,7 @@ class OpenCVCameraConfig(CameraConfig):
color_mode: str = "rgb"
channels: int | None = None
rotation: int | None = None
mock: bool = False
def __post_init__(self):
if self.color_mode not in ["rgb", "bgr"]:

17
lerobot/common/datasets/lerobot_dataset.py
View File

@@ -67,9 +67,8 @@ from lerobot.common.datasets.utils import (
)
from lerobot.common.datasets.video_utils import (
VideoFrame,
decode_video_frames,
decode_video_frames_torchvision,
encode_video_frames,
get_safe_default_codec,
get_video_info,
)
from lerobot.common.robots.utils import Robot
@@ -463,8 +462,8 @@ class LeRobotDataset(torch.utils.data.Dataset):
download_videos (bool, optional): Flag to download the videos. Note that when set to True but the
video files are already present on local disk, they won't be downloaded again. Defaults to
True.
video_backend (str | None, optional): Video backend to use for decoding videos. Defaults to torchcodec when available int the platform; otherwise, defaults to 'pyav'.
You can also use the 'pyav' decoder used by Torchvision, which used to be the default option, or 'video_reader' which is another decoder of Torchvision.
video_backend (str | None, optional): Video backend to use for decoding videos. There is currently
a single option which is the pyav decoder used by Torchvision. Defaults to pyav.
"""
super().__init__()
self.repo_id = repo_id
@@ -474,7 +473,7 @@ class LeRobotDataset(torch.utils.data.Dataset):
self.episodes = episodes
self.tolerance_s = tolerance_s
self.revision = revision if revision else CODEBASE_VERSION
self.video_backend = video_backend if video_backend else get_safe_default_codec()
self.video_backend = video_backend if video_backend else "pyav"
self.delta_indices = None
# Unused attributes
@@ -708,7 +707,9 @@ class LeRobotDataset(torch.utils.data.Dataset):
item = {}
for vid_key, query_ts in query_timestamps.items():
video_path = self.root / self.meta.get_video_file_path(ep_idx, vid_key)
frames = decode_video_frames(video_path, query_ts, self.tolerance_s, self.video_backend)
frames = decode_video_frames_torchvision(
video_path, query_ts, self.tolerance_s, self.video_backend
)
item[vid_key] = frames.squeeze(0)
return item
@@ -1028,7 +1029,7 @@ class LeRobotDataset(torch.utils.data.Dataset):
obj.delta_timestamps = None
obj.delta_indices = None
obj.episode_data_index = None
obj.video_backend = video_backend if video_backend is not None else get_safe_default_codec()
obj.video_backend = video_backend if video_backend is not None else "pyav"
return obj
@@ -1053,7 +1054,7 @@ class MultiLeRobotDataset(torch.utils.data.Dataset):
super().__init__()
self.repo_ids = repo_ids
self.root = Path(root) if root else HF_LEROBOT_HOME
self.tolerances_s = tolerances_s if tolerances_s else dict.fromkeys(repo_ids, 0.0001)
self.tolerances_s = tolerances_s if tolerances_s else {repo_id: 1e-4 for repo_id in repo_ids}
# Construct the underlying datasets passing everything but `transform` and `delta_timestamps` which
# are handled by this class.
self._datasets = [

85
lerobot/common/datasets/push_dataset_to_hub/_aloha_raw_urls/mobile_cabinet.txt Normal file
View File

@@ -0,0 +1,85 @@
https://drive.google.com/file/d/1_SOJkgfP5yZyVjMhTt3nwhvyUjcnlI51/view?usp=drive_link
https://drive.google.com/file/d/1rmgN8UUzph1qwJnzG1d-uOafodn-gLvb/view?usp=drive_link
https://drive.google.com/file/d/1NYQ-XxsBVinB6dUoZmVWweT83367P3i2/view?usp=drive_link
https://drive.google.com/file/d/1oAv_j74zxxCJieMG7r5Vl2BeHK1__3s3/view?usp=drive_link
https://drive.google.com/file/d/1wFUJQROsrTJt64YRuIeExhFjr2wnK5uu/view?usp=drive_link
https://drive.google.com/file/d/1KzL3Tt0Le7jVl58XVRUcmigmXjyiuhbK/view?usp=drive_link
https://drive.google.com/file/d/1qy_YBladeHtianSSGtgAPSHtMin7msvf/view?usp=drive_link
https://drive.google.com/file/d/1rA_F0V_qL_nyuC_0aBKCisF4-0TIkF2Y/view?usp=drive_link
https://drive.google.com/file/d/1hw-8qMpz9VgSt62XoASqNRuPECpCwJQP/view?usp=drive_link
https://drive.google.com/file/d/1BpHOl9rKMzdvNGka6js7C0s40hH6vnDA/view?usp=drive_link
https://drive.google.com/file/d/1PazhkhiDnJ-OUMyDVDFxEZNKQQqHiNWS/view?usp=drive_link
https://drive.google.com/file/d/1lZ665R6ATl57dypxH4dGJ2NSt6XYnbuz/view?usp=drive_link
https://drive.google.com/file/d/1V9HzLaf-tlG15wUzT7KrTDCS_z1vi5NV/view?usp=drive_link
https://drive.google.com/file/d/1aKauWiXoKqbNwn_2xs4MrmLlaNYlVNmO/view?usp=drive_link
https://drive.google.com/file/d/1WVD5DFhriO1YmmOgiVHhacR6HWoTPxav/view?usp=drive_link
https://drive.google.com/file/d/1_X43WgeBAsfkhH9EmpyPki8U9joMeAGC/view?usp=drive_link
https://drive.google.com/file/d/1t8x0GqWoNKWtnBsB7_D40Z34nL9ak4kf/view?usp=drive_link
https://drive.google.com/file/d/15V_f26WaKOXjKnq2T3HRWAmtQUi4lbu2/view?usp=drive_link
https://drive.google.com/file/d/11VFIAsiSDsMOBANgrOcZBpKB9AFWnLy7/view?usp=drive_link
https://drive.google.com/file/d/1M0NS7vVaxJv3FHnuRYtdwTFYF7We4LxP/view?usp=drive_link
https://drive.google.com/file/d/1mR0OItTNqFnVLoczcyKYlm6drAy778lO/view?usp=drive_link
https://drive.google.com/file/d/1NbVFWDQAh-z4JJ4D-Zw6Lps9kdvpqh2j/view?usp=drive_link
https://drive.google.com/file/d/1JQoZGBzl4W3QG26-n39tefcGN0fDRMbB/view?usp=drive_link
https://drive.google.com/file/d/1VBjHl-TvZpncopvasIP5G9gecbB2a5f6/view?usp=drive_link
https://drive.google.com/file/d/1VzSf6zaB21nahm7MsPwroXbJ84NIwq0b/view?usp=drive_link
https://drive.google.com/file/d/1OtNnfMEydNtZOcivs4k6E_uJSpf8PkGy/view?usp=drive_link
https://drive.google.com/file/d/14nVvpvsrFr_03Pa_N7MKzwnRwibOUYM6/view?usp=drive_link
https://drive.google.com/file/d/1M8li6duiO2r3lv_9HhF_XJn0oZUIEK5F/view?usp=drive_link
https://drive.google.com/file/d/1Cpzea6fO14lxAaNfSBifqoa4ekhCiLD1/view?usp=drive_link
https://drive.google.com/file/d/1mbxRTm5vlbsY9UJ0jfjM6j9D7kPJjBpG/view?usp=drive_link
https://drive.google.com/file/d/1RXD1i6IfWsHRlCxVmG04h2h5Ycm_WwZN/view?usp=drive_link
https://drive.google.com/file/d/1QFqFSwDGOk1BkgGmqgCcc2BRWnJ6R3MA/view?usp=drive_link
https://drive.google.com/file/d/1bFqWR8DQM0ZUxxtS2bl-RANQvukeFLzp/view?usp=drive_link
https://drive.google.com/file/d/1pR-rH3yNGoyPdD4hJ6-3lXQ-PstBx9du/view?usp=drive_link
https://drive.google.com/file/d/107OAwLY-hva9HeQLIK7VCh-ytdDabVjr/view?usp=drive_link
https://drive.google.com/file/d/1Tpl08QOaSZ37GTO4awFWSdD8wBR9xdlT/view?usp=drive_link
https://drive.google.com/file/d/1MR164AOM-0S1T6RX8xKTV2IHyaCvpqAW/view?usp=drive_link
https://drive.google.com/file/d/1_wknJfVnStIhJ82lU_QtcrwahsqYIsr8/view?usp=drive_link
https://drive.google.com/file/d/1ZuEktWrbYkTx0l5pj3WiZ2CJrfbDOHNo/view?usp=drive_link
https://drive.google.com/file/d/15G_10hkkkq6yxvyI5NGZirlF-RzduR2F/view?usp=drive_link
https://drive.google.com/file/d/1DBKxg3ONqh7dhLuX6oh1Yyo2x383V1Hp/view?usp=drive_link
https://drive.google.com/file/d/1B5iDBkTUr5vopDddV_fHud18SqAHhauS/view?usp=drive_link
https://drive.google.com/file/d/1acwFV0eenRkki1QcjSKH5xqOtys-P3Pr/view?usp=drive_link
https://drive.google.com/file/d/1S47BI83xyrh-FKXsvAQqer98Biu_p8XK/view?usp=drive_link
https://drive.google.com/file/d/1JL6DmBZl3uyq9dyLfgSqtGF06e7E9JwM/view?usp=drive_link
https://drive.google.com/file/d/16WvRS4Kjog8Pxgr0E3sGGnI01YwL9Uql/view?usp=drive_link
https://drive.google.com/file/d/12ttGqL33IPWg0-s1SD44rr22M6LiSQBr/view?usp=drive_link
https://drive.google.com/file/d/1OyZqqnldTU_DliRbr6x0C4a_iWPwIN7j/view?usp=drive_link
https://drive.google.com/file/d/1oYk00IpLnR9fesLfD15Ebe7nVBffEbcS/view?usp=drive_link
https://drive.google.com/file/d/1eyE2-MQduCEqCd-5_kl5zsoOEERAzpZD/view?usp=drive_link
https://drive.google.com/file/d/1ir1Ya-vO0d97pfvbePlUeuKTTRc0qIMU/view?usp=drive_link
https://drive.google.com/file/d/1hOi-JnqlMt47gVnLZHMTqeojyYVErohl/view?usp=drive_link
https://drive.google.com/file/d/1NFFw5_PqigQ7xGqsL-MNq2B1r5yAscCf/view?usp=drive_link
https://drive.google.com/file/d/1uftq1-Zlh8d2sNLWrlVcKYQUwZTD7o24/view?usp=drive_link
https://drive.google.com/file/d/1-ax19dSLPacVgk000T-m3l4flPcg07pM/view?usp=drive_link
https://drive.google.com/file/d/126y-lgn86-ZmCz8hooF1THKJGGObw3OB/view?usp=drive_link
https://drive.google.com/file/d/1JiDniK0VmDIkk92AbBILb8J2Ba59PWML/view?usp=drive_link
https://drive.google.com/file/d/1kr8nPIRljiU0R4J9SMgj80o1FPQxzu9z/view?usp=drive_link
https://drive.google.com/file/d/1bbThWRij1pKBh_kFgV8FwK0sXtTHBoLX/view?usp=drive_link
https://drive.google.com/file/d/1WenzDW6lxk1xkOFm-OiGFfc0ROskAuKU/view?usp=drive_link
https://drive.google.com/file/d/1MiKRzuzUn1yN-k_6kPJJzIGy7dT-nnsD/view?usp=drive_link
https://drive.google.com/file/d/17rRg2tcmB-gNhQ0KoZJQmNfyFeoij1jH/view?usp=drive_link
https://drive.google.com/file/d/11mokBpvrY3ld6sY5WztREtJ1jgqfQV70/view?usp=drive_link
https://drive.google.com/file/d/1Il_6IOx9NDp1bX_KHizJfBwzTufTmn86/view?usp=drive_link
https://drive.google.com/file/d/1KswtJGsxJ7eeBDAmNA_aeLjOxcH6MIxa/view?usp=drive_link
https://drive.google.com/file/d/1gzMhi5uWu4C3Y6WbQ3L-08V96GxTZrRR/view?usp=drive_link
https://drive.google.com/file/d/1nRQFtaBxfUCYc2W90Qibh0kHCt6YQCfc/view?usp=drive_link
https://drive.google.com/file/d/1vs-gyW-KheqHbUATwAhA2mmR9GOGw7f_/view?usp=drive_link
https://drive.google.com/file/d/1MuxzGOA2fgLaHryq82KkQumtuRJGcUOC/view?usp=drive_link
https://drive.google.com/file/d/1IIwxZnGlqrXLUXqG6yMO0r7uhCvhpk9e/view?usp=drive_link
https://drive.google.com/file/d/1vE7XPyaFcXP4DtTY5Y9WKIt7zWgmX-Cr/view?usp=drive_link
https://drive.google.com/file/d/1j-bIV09gr21RC3-x1N_pK4RPLV3fmWKz/view?usp=drive_link
https://drive.google.com/file/d/1t3nW1rD3S-EL0Oymb5U7ZAj5UMkydkln/view?usp=drive_link
https://drive.google.com/file/d/14hbfHCdMKtJZ41F9CQReMec2jeRFTOqR/view?usp=drive_link
https://drive.google.com/file/d/1x-hUyOSne5BW0AzQ3W6_Pf4g5yXQWi9M/view?usp=drive_link
https://drive.google.com/file/d/1sw9JqRg6E-3P84I3ZhzTrJMu0vuiaMmP/view?usp=drive_link
https://drive.google.com/file/d/1LuqhQlL4MGZhB_6THmkovRxrlP26BbdC/view?usp=drive_link
https://drive.google.com/file/d/15C5K6v_lkjnMSmUvVyqHQKwh2N166e7K/view?usp=drive_link
https://drive.google.com/file/d/1ns_9eSsQeeoZ10nlbkLy8tu0GmJFSnkt/view?usp=drive_link
https://drive.google.com/file/d/1NpzWJeK6CqjxzjIMYe6aYdX8xGsQwD4o/view?usp=drive_link
https://drive.google.com/file/d/1NMLezwufKJ9_8xTc9KQThSzVVD71B9Ui/view?usp=drive_link
https://drive.google.com/file/d/1aa71DCUqs6oXlIxX35jgsmsgm-NlDxPV/view?usp=drive_link
https://drive.google.com/file/d/1UJzkIZzAL0j-D5YQBnoq7mHvttASy12O/view?usp=drive_link
https://drive.google.com/file/d/1nPgx36HIJFb7oI94VbRzWjpPP2GANxzG/view?usp=drive_link
https://drive.google.com/file/d/1NovAP-KVJjqcuvWy3d6G4ptGGAIDqcCx/view?usp=drive_link

55
lerobot/common/datasets/push_dataset_to_hub/_aloha_raw_urls/mobile_chair.txt Normal file
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@@ -0,0 +1,55 @@
https://drive.google.com/file/d/11M3Ye0r5agMaaicPbVGD0q2Hb3rGklbb/view?usp=drive_link
https://drive.google.com/file/d/1-tx7SvYYgSvXCvnf_EI2OVdwK-CkFY6S/view?usp=drive_link
https://drive.google.com/file/d/1EWJunmOpMHaU1hE106wwpbkGYcjQXYAF/view?usp=drive_link
https://drive.google.com/file/d/1IDn95Z7FSiCckrSENtGV4u3RyFHNQSDY/view?usp=drive_link
https://drive.google.com/file/d/1CwzvWj1i7QOtqrZvsCZ6BdZaKNDfpN32/view?usp=drive_link
https://drive.google.com/file/d/1HvAvlhm77nAD3Td24QPSeq8lw-Rl_aOh/view?usp=drive_link
https://drive.google.com/file/d/1t-suKYOPhXH666RpAYNRp2QU_DOy3AeM/view?usp=drive_link
https://drive.google.com/file/d/18xpKgWh7RWyjMN5PkLTOo-AxsAadAuRw/view?usp=drive_link
https://drive.google.com/file/d/1oci5Eto-ztv-AQNz8EnwZveBIhxvk-xJ/view?usp=drive_link
https://drive.google.com/file/d/1Y-t_4vxdE6NpHO0DLJR8f3mD0Q-Wj5-c/view?usp=drive_link
https://drive.google.com/file/d/1lylRqbbbB8bgtpsBWMPACmHJreuKmllv/view?usp=drive_link
https://drive.google.com/file/d/1yliSyMig_NXShWfQx6qyW7Ijf2Y5lFK6/view?usp=drive_link
https://drive.google.com/file/d/1XXhwJsJbeb7KXAooGvJapnm9bjnGUmxS/view?usp=drive_link
https://drive.google.com/file/d/1_xs1f3hW2JArKyvfF7UWubWjyROGTLs6/view?usp=drive_link
https://drive.google.com/file/d/1WVEHpr6EqKCZbkHapQSTXJq4xE4SWFT-/view?usp=drive_link
https://drive.google.com/file/d/1RqOHv9pEQGvW8NUA7ynffFmG999TL_Az/view?usp=drive_link
https://drive.google.com/file/d/1cu5AgD2gh-uA3PFJmzxxzNaF3qOSlYY1/view?usp=drive_link
https://drive.google.com/file/d/1SsrXqiPclNrnYToPZ9Uq-k3y0C4qdHT1/view?usp=drive_link
https://drive.google.com/file/d/1-J7EXf0vjkLIfSqT8ICEsP6CTjzSLBop/view?usp=drive_link
https://drive.google.com/file/d/11O7ewUmoZXfyyKjy_6B5RW4DpjICxqBT/view?usp=drive_link
https://drive.google.com/file/d/1iic44kZoCsjNsfAz2cMstZ9-WQvAhblF/view?usp=drive_link
https://drive.google.com/file/d/1yLV1lVX-2WnWQldGlnQZ0x7QBuDiVkL3/view?usp=drive_link
https://drive.google.com/file/d/1Tybp9ru98TTbGn4eyROpUQwDFuALWXmk/view?usp=drive_link
https://drive.google.com/file/d/13E9OTMiipVJByDs5-J19oWwAz7l94LTN/view?usp=drive_link
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https://drive.google.com/drive/folders/1_4DHf2cma0xsChLQFghwigX6Ukti5-zQ
https://drive.google.com/file/d/1_8vS4hDNDgUQY-SmekrNaa7dF67QJYU-/view?usp=drive_link

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lerobot/common/datasets/push_dataset_to_hub/_aloha_raw_urls/static_towel.txt Normal file
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https://drive.google.com/drive/folders/1fAD7vkyTGTFB_nGXIKofCU1U05oE3MFv
https://drive.google.com/file/d/1XzyQ2B6LLvcurIonOpEu4nij2qwNWshH/view?usp=drive_link

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lerobot/common/datasets/push_dataset_to_hub/_aloha_raw_urls/static_vinh_cup.txt Normal file
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https://drive.google.com/drive/folders/13EQsVsnxT86K20QAoyE_YpsFbQ7fZQdu
https://drive.google.com/file/d/1-W_JHghZG65FNTVhw1SXhtQrazdLL3Ue/view?usp=drive_link
https://drive.google.com/file/d/1VwRJgdWUo-2nQaNM7Bs77-fsm8iwUxEo/view?usp=drive_link
https://drive.google.com/file/d/1wFzGRo5iYA13WLi6IV1ry64RyahQBFio/view?usp=drive_link
https://drive.google.com/file/d/1IKtQzQ-n-UTv64hYpReu2R4cqUvmNQqD/view?usp=drive_link
https://drive.google.com/file/d/1GicVci9OiuuZZH79i5Mg7AtWod94MzwT/view?usp=drive_link
https://drive.google.com/file/d/1JVnIoR7EIQp70T4eAf9RX65JcTrzsjQc/view?usp=drive_link
https://drive.google.com/file/d/1W2xr4h23ucjPrc-mBEeqnACsfaImpc0p/view?usp=drive_link
https://drive.google.com/file/d/10xj_0V7A07o3uCa7v5omUrTC0YlPW8H3/view?usp=drive_link
https://drive.google.com/file/d/1FOc3EMaCy8Mb0_a7PuXLAwKwvxkbKmwU/view?usp=drive_link
https://drive.google.com/file/d/143PgDXBcf2GQ0Q07ZPMVMfBgZDd5sLJG/view?usp=drive_link
https://drive.google.com/file/d/1pE5Tyj0LlGbGWvUzuhixp86Ibu55Ez3I/view?usp=drive_link
https://drive.google.com/file/d/141668b1VzX80ncrVJPzhkoAeIFB4MEK9/view?usp=drive_link
https://drive.google.com/file/d/1bw12lo37p1ZvRvErHsll7cEYi2OxscvZ/view?usp=drive_link
https://drive.google.com/file/d/1zfnMFvbgBjl6SzYhksbaOzfbwLrCN6tb/view?usp=drive_link
https://drive.google.com/file/d/1-GIszA6mUJMaNB-tdh9r9skc77SWA0VX/view?usp=drive_link
https://drive.google.com/file/d/1fTB0zWFYU6zh4IIUFT2zX_OkwYqmElwY/view?usp=drive_link
https://drive.google.com/file/d/1gPIPNKGmrO9c7gKF7SP0SuUYbIBBq8z1/view?usp=drive_link
https://drive.google.com/file/d/12JeJ-dQd5lYyn6PlDOGdE-ChVeiZ-Uv0/view?usp=drive_link
https://drive.google.com/file/d/100_20cgCqerU6qoh3TfTbwLy9mlDAFEG/view?usp=drive_link
https://drive.google.com/file/d/111oAGJ76ku_pYgbBoIdZAC1_XEQcPI__/view?usp=drive_link
https://drive.google.com/file/d/1UhC8L-354ZQ2gblPFGI35EMsVwfpuKa0/view?usp=drive_link
https://drive.google.com/file/d/1sIXQSgUR_xdrNtGrL6QGBnkLMKErsIp1/view?usp=drive_link
https://drive.google.com/file/d/16Ax77bDSIXnsn4GFL8XYKKT1P6bPpfMd/view?usp=drive_link
https://drive.google.com/file/d/1pgRVYwwVIsWq_qsWqZpe1UBzZfF5Fa9D/view?usp=drive_link
https://drive.google.com/file/d/1jtimaZkWsY1P5gC2bbS64H_WCUU7HXN2/view?usp=drive_link
https://drive.google.com/file/d/1N6Bh02P-RiTEgtx1YH1Db_X3TGpP-X_r/view?usp=drive_link
https://drive.google.com/file/d/14Fy8EwJ8d9Vh97Yt1VOvUChSCrfIjBij/view?usp=drive_link
https://drive.google.com/file/d/1IRuv42dvIMPuKhcMZmuXaBjJ-lPFOmQd/view?usp=drive_link
https://drive.google.com/file/d/16XWzNY2D8ucVVn5geBgsVdhm3ppO4que/view?usp=drive_link
https://drive.google.com/file/d/1xsVOoQgthK_L_SDrmq_JvQgUpAvPEAY8/view?usp=drive_link
https://drive.google.com/file/d/1bZbw66DyEMvnJnzkdUUNbKjvNKg8KFYM/view?usp=drive_link
https://drive.google.com/file/d/1CyTVkdrNGGpouCXr4CfhKbMzE6Ah3oo3/view?usp=drive_link
https://drive.google.com/file/d/1hDRyeM-XEDpHXpptbT8LvNnlQUR3PWOh/view?usp=drive_link
https://drive.google.com/file/d/1XhHWxbra8Iy5irQZ83IvxwaJqHq9x4s1/view?usp=drive_link
https://drive.google.com/file/d/1haZcn6aM1o4JlmP9tJj3x2enrxiPaDSD/view?usp=drive_link
https://drive.google.com/file/d/1ypDyuUTbljaBZ34f-t7lj3O_0bRmyX2n/view?usp=drive_link
https://drive.google.com/file/d/1ILEEZo_tA9_ChIAprr2mPaNVKZi5vXsO/view?usp=drive_link
https://drive.google.com/file/d/1U7nVYFaGE8vVTfLCW33D74xOjDcqfgyJ/view?usp=drive_link
https://drive.google.com/file/d/1rZ93_rmCov5SMDxPkfM3qthcRELZrQX6/view?usp=drive_link
https://drive.google.com/file/d/1mYO1b_csddtyE3qT6cwLiw-m2w2_1Lxh/view?usp=drive_link
https://drive.google.com/file/d/1xz7Q5x2jikY8wJQjMRQpRws6AnfWlHm5/view?usp=drive_link
https://drive.google.com/file/d/1OO8GaO-0FrSZRd1kxMYwBmubyiLOWnbl/view?usp=drive_link
https://drive.google.com/file/d/1EXn4NVDmf-4_HCy34mYwT-vwK2CFI9ev/view?usp=drive_link
https://drive.google.com/file/d/10hH70XhXRL9C5SnAG4toHtfHqfJUJo4H/view?usp=drive_link
https://drive.google.com/file/d/18tiBcxea0guUai4lwsXQvt0q2LZ8ZnnJ/view?usp=drive_link
https://drive.google.com/file/d/1Q8R8qv37vk5PQ5kQ2ibx6BFLOySD0VpX/view?usp=drive_link
https://drive.google.com/file/d/17aNriHzjhdibCyuUjQoMFZqjybJZtggG/view?usp=drive_link
https://drive.google.com/file/d/1LVjEYHSdeKm6CotU1QguIeNEPaIaFl_1/view?usp=drive_link
https://drive.google.com/file/d/1ufAhE_EkgJ85slg2EW8aW_grOzE_Lmxd/view?usp=drive_link
https://drive.google.com/file/d/1wtzLtXrkw9eXRGESTPIOlpl1tInu-b2m/view?usp=drive_link
https://drive.google.com/file/d/1Mk5qvVtD_QHwGOUApRq76TUw2T5THu6f/view?usp=drive_link
https://drive.google.com/file/d/1y1WQ3hboWVJ68KEYQQ3OhreGuaUpSgwc/view?usp=drive_link

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lerobot/common/datasets/push_dataset_to_hub/_aloha_raw_urls/static_vinh_cup_left.txt Normal file
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https://drive.google.com/drive/folders/1dxWh6YFZUDt6qXIoxgD9bla3CiFjZ11C
https://drive.google.com/file/d/1hNBJN00SCAlOl0ZEgm7RRGbAGDjyBs0p/view?usp=drive_link
https://drive.google.com/file/d/17He0CVwXGeoMmXg4SHKo-osNn7YPKVL7/view?usp=drive_link
https://drive.google.com/file/d/1laNKUVID1x2CV6a2O2WQjwFewKu4lidL/view?usp=drive_link
https://drive.google.com/file/d/1pNf36xbZJGRArYLmNAvRj5y6CoqdC6kB/view?usp=drive_link
https://drive.google.com/file/d/1_4E1-y3JXk5I0ebycLYM70YDPK9g52gZ/view?usp=drive_link
https://drive.google.com/file/d/1PHfzhGPdbolKyOpS3FnR2w7Q8zUlJXSk/view?usp=drive_link
https://drive.google.com/file/d/17ls2PPN-Pi3tEuK059cwV2_iDT8aGhOO/view?usp=drive_link
https://drive.google.com/file/d/1LWsg6PmCT00Kv_N_slrmcwKmQPGoBT3k/view?usp=drive_link
https://drive.google.com/file/d/12LckrchoHTUVH7rxi8J7zD9dA19GXvoW/view?usp=drive_link
https://drive.google.com/file/d/1VqrJKjAIkj5gtFXL69grdSeu9CyaqnSw/view?usp=drive_link
https://drive.google.com/file/d/1g5rQYDBZvW-kUtYPeyF3qmd53v6k7kXu/view?usp=drive_link
https://drive.google.com/file/d/10kUgaSJ0TS7teaG83G3Rf_DG4XGrBt6A/view?usp=drive_link
https://drive.google.com/file/d/1je9XmneZQZvTma5adMJICUPDovW3ppei/view?usp=drive_link
https://drive.google.com/file/d/1v28r6bedwZGbUPVVTVImXhK-42XdtGfj/view?usp=drive_link
https://drive.google.com/file/d/1-TEEx9sGVvzMMaNXYfQMtY2JJ6cvl0dT/view?usp=drive_link
https://drive.google.com/file/d/1YdBKdJFP9rJWBUX7qrOYL_gfUA8o6J9M/view?usp=drive_link
https://drive.google.com/file/d/1X9vffwQHNUSKLXr2RlYNtbWDIFCIDfdF/view?usp=drive_link
https://drive.google.com/file/d/11hqesqa5kvEe5FABUnZRcvmOhR373cYM/view?usp=drive_link
https://drive.google.com/file/d/1ltTTECjEcbQPgS3UPRgMzaE2x9n6H7dC/view?usp=drive_link
https://drive.google.com/file/d/1Zxqfa29JdwT-bfMpivi6IG2vz34d21dD/view?usp=drive_link
https://drive.google.com/file/d/11LQlVxS5hz494dYUJ_PNRPx2NHIJbQns/view?usp=drive_link
https://drive.google.com/file/d/1i1JhNtnZpO_E8rAv8gxBP3ZTZRvcvsZi/view?usp=drive_link
https://drive.google.com/file/d/11jOXAr2EULUO4Qkm748634lg4UUFho5U/view?usp=drive_link
https://drive.google.com/file/d/1rj67wur8DdB_Pipwx24bY43xu4X1eQ5e/view?usp=drive_link
https://drive.google.com/file/d/15ZTm6lO6f_JQy_4SNfrOu3iPYn1Ro8mh/view?usp=drive_link
https://drive.google.com/file/d/1q4gBtqWPJtCwXEvknGgN0WHGp7Vfn1b9/view?usp=drive_link
https://drive.google.com/file/d/1t17keyre47AYqm8GgXiQ7EcvcUkeSiDQ/view?usp=drive_link
https://drive.google.com/file/d/1OYUPGxtZgOF86Ng_BEOTXm_XOYpuQPsO/view?usp=drive_link
https://drive.google.com/file/d/1cBjbGHi3dwWHtx6r9EQJi0JT_CE3LuHt/view?usp=drive_link
https://drive.google.com/file/d/14qaMyF0mcbCB-fCYKNyo5_2NahSC6D5u/view?usp=drive_link
https://drive.google.com/file/d/12FgX86eA7Y5co9ULBVK80XMsiKQSs-Ri/view?usp=drive_link
https://drive.google.com/file/d/1yvoHWidf-jdBVw6qCCXOFfkVwKj_2hPk/view?usp=drive_link
https://drive.google.com/file/d/1a2SugsSDlC8UtUrFzp-_KAwyZckQOvdQ/view?usp=drive_link
https://drive.google.com/file/d/1l8pILBFSAosypWJMza2K09Vm7rug9axm/view?usp=drive_link
https://drive.google.com/file/d/1hfPQ8dBCk97PnOhq6_MIISm3IEzcOxJG/view?usp=drive_link
https://drive.google.com/file/d/1PPAUwlJCFKpms8cqF_k1v2_fCgDBOc3S/view?usp=drive_link
https://drive.google.com/file/d/1lVKQZeqFfK3amEmLuFhYLUFQ2eyE8rOW/view?usp=drive_link
https://drive.google.com/file/d/1K9iPMLfDowcIFoyzpvgn88dQ6x6kVwNG/view?usp=drive_link
https://drive.google.com/file/d/1PNvMqG9tL7QxeLaYBGHiWYR6SYb5iIct/view?usp=drive_link
https://drive.google.com/file/d/1xkRtzbvIkUsylx9hrFLGQsJn0h1EYu-5/view?usp=drive_link
https://drive.google.com/file/d/1nxMRrJlSayjDIfr5CmHO1NzAw3COhsLi/view?usp=drive_link
https://drive.google.com/file/d/1Qs3WEyMGrmagiHIkkFEueWNnJhkUeR1s/view?usp=drive_link
https://drive.google.com/file/d/1D-G2_Q0SS3M8zyJbg_XzkF2ANPw1HTuX/view?usp=drive_link
https://drive.google.com/file/d/1mdmJsDGO-YtJAOF_yPKl6lq4PJOIbQhT/view?usp=drive_link
https://drive.google.com/file/d/11m9bwfop_sPmnQr_8amB6EEsrbAeG_z5/view?usp=drive_link
https://drive.google.com/file/d/19tyYt5FMn5kru0g9o2nMJhKPnsDqkIZv/view?usp=drive_link
https://drive.google.com/file/d/1XvTpUdsVTZ-vydvdYYmynbma--HfUGSl/view?usp=drive_link
https://drive.google.com/file/d/1MO3hFu68J6NohTzr9aB_fY02VA6QSOqj/view?usp=drive_link
https://drive.google.com/file/d/1Lh-UjwAk__04YOTWINF_QGVU8SjetVaY/view?usp=drive_link
https://drive.google.com/file/d/1jkSOUwZV5GJ7rZlVeErjcu0DBQs8Np0d/view?usp=drive_link
https://drive.google.com/file/d/1VIN1eLI-93WrVQwCjsv6XQr353DqqBYA/view?usp=drive_link

8
lerobot/common/datasets/push_dataset_to_hub/_aloha_raw_urls/static_ziploc_slide.txt Normal file
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https://drive.google.com/drive/folders/1EgKar7rWBmTIRmeJYZciSwjZx3uP2mHO
https://drive.google.com/file/d/12eYWQO15atK2hBjXhynPJd9MKAj_42pz/view?usp=drive_link
https://drive.google.com/file/d/1Ul4oEeICJDjgfYTl4H1uaisTzVYIM6wd/view?usp=drive_link
https://drive.google.com/file/d/1WSF-OG8lKSe2wVYCv5D1aJNipxpgddk-/view?usp=drive_link
https://drive.google.com/file/d/1_ppD5j5sFh26aWW0JmhLzJMeNB-lCArk/view?usp=drive_link
https://drive.google.com/file/d/1WUp846dgWXYhu4oJfhHxiU6YL_7N6s4W/view?usp=drive_link
https://drive.google.com/file/d/1HRZNAIoAQw_uYiPwnBvtBioQoqiqoXdA/view?usp=drive_link
https://drive.google.com/file/d/1hedGq-QDMnIn8GlXXBC3GiEJ_Y-LTxyt/view?usp=drive_link

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lerobot/common/datasets/push_dataset_to_hub/_diffusion_policy_replay_buffer.py Normal file
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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Helper code for loading PushT dataset from Diffusion Policy (https://diffusion-policy.cs.columbia.edu/)
Copied from the original Diffusion Policy repository and used in our `download_and_upload_dataset.py` script.
"""
from __future__ import annotations
import math
import numbers
import os
from functools import cached_property
import numcodecs
import numpy as np
import zarr
def check_chunks_compatible(chunks: tuple, shape: tuple):
assert len(shape) == len(chunks)
for c in chunks:
assert isinstance(c, numbers.Integral)
assert c > 0
def rechunk_recompress_array(group, name, chunks=None, chunk_length=None, compressor=None, tmp_key="_temp"):
old_arr = group[name]
if chunks is None:
chunks = (chunk_length,) + old_arr.chunks[1:] if chunk_length is not None else old_arr.chunks
check_chunks_compatible(chunks, old_arr.shape)
if compressor is None:
compressor = old_arr.compressor
if (chunks == old_arr.chunks) and (compressor == old_arr.compressor):
# no change
return old_arr
# rechunk recompress
group.move(name, tmp_key)
old_arr = group[tmp_key]
n_copied, n_skipped, n_bytes_copied = zarr.copy(
source=old_arr,
dest=group,
name=name,
chunks=chunks,
compressor=compressor,
)
del group[tmp_key]
arr = group[name]
return arr
def get_optimal_chunks(shape, dtype, target_chunk_bytes=2e6, max_chunk_length=None):
"""
Common shapes
T,D
T,N,D
T,H,W,C
T,N,H,W,C
"""
itemsize = np.dtype(dtype).itemsize
# reversed
rshape = list(shape[::-1])
if max_chunk_length is not None:
rshape[-1] = int(max_chunk_length)
split_idx = len(shape) - 1
for i in range(len(shape) - 1):
this_chunk_bytes = itemsize * np.prod(rshape[:i])
next_chunk_bytes = itemsize * np.prod(rshape[: i + 1])
if this_chunk_bytes <= target_chunk_bytes and next_chunk_bytes > target_chunk_bytes:
split_idx = i
rchunks = rshape[:split_idx]
item_chunk_bytes = itemsize * np.prod(rshape[:split_idx])
this_max_chunk_length = rshape[split_idx]
next_chunk_length = min(this_max_chunk_length, math.ceil(target_chunk_bytes / item_chunk_bytes))
rchunks.append(next_chunk_length)
len_diff = len(shape) - len(rchunks)
rchunks.extend([1] * len_diff)
chunks = tuple(rchunks[::-1])
# print(np.prod(chunks) * itemsize / target_chunk_bytes)
return chunks
class ReplayBuffer:
"""
Zarr-based temporal datastructure.
Assumes first dimension to be time. Only chunk in time dimension.
"""
def __init__(self, root: zarr.Group | dict[str, dict]):
"""
Dummy constructor. Use copy_from* and create_from* class methods instead.
"""
assert "data" in root
assert "meta" in root
assert "episode_ends" in root["meta"]
for value in root["data"].values():
assert value.shape[0] == root["meta"]["episode_ends"][-1]
self.root = root
# ============= create constructors ===============
@classmethod
def create_empty_zarr(cls, storage=None, root=None):
if root is None:
if storage is None:
storage = zarr.MemoryStore()
root = zarr.group(store=storage)
root.require_group("data", overwrite=False)
meta = root.require_group("meta", overwrite=False)
if "episode_ends" not in meta:
meta.zeros("episode_ends", shape=(0,), dtype=np.int64, compressor=None, overwrite=False)
return cls(root=root)
@classmethod
def create_empty_numpy(cls):
root = {"data": {}, "meta": {"episode_ends": np.zeros((0,), dtype=np.int64)}}
return cls(root=root)
@classmethod
def create_from_group(cls, group, **kwargs):
if "data" not in group:
# create from stratch
buffer = cls.create_empty_zarr(root=group, **kwargs)
else:
# already exist
buffer = cls(root=group, **kwargs)
return buffer
@classmethod
def create_from_path(cls, zarr_path, mode="r", **kwargs):
"""
Open a on-disk zarr directly (for dataset larger than memory).
Slower.
"""
group = zarr.open(os.path.expanduser(zarr_path), mode)
return cls.create_from_group(group, **kwargs)
# ============= copy constructors ===============
@classmethod
def copy_from_store(
cls,
src_store,
store=None,
keys=None,
chunks: dict[str, tuple] | None = None,
compressors: dict | str | numcodecs.abc.Codec | None = None,
if_exists="replace",
**kwargs,
):
"""
Load to memory.
"""
src_root = zarr.group(src_store)
if chunks is None:
chunks = {}
if compressors is None:
compressors = {}
root = None
if store is None:
# numpy backend
meta = {}
for key, value in src_root["meta"].items():
if len(value.shape) == 0:
meta[key] = np.array(value)
else:
meta[key] = value[:]
if keys is None:
keys = src_root["data"].keys()
data = {}
for key in keys:
arr = src_root["data"][key]
data[key] = arr[:]
root = {"meta": meta, "data": data}
else:
root = zarr.group(store=store)
# copy without recompression
n_copied, n_skipped, n_bytes_copied = zarr.copy_store(
source=src_store, dest=store, source_path="/meta", dest_path="/meta", if_exists=if_exists
)
data_group = root.create_group("data", overwrite=True)
if keys is None:
keys = src_root["data"].keys()
for key in keys:
value = src_root["data"][key]
cks = cls._resolve_array_chunks(chunks=chunks, key=key, array=value)
cpr = cls._resolve_array_compressor(compressors=compressors, key=key, array=value)
if cks == value.chunks and cpr == value.compressor:
# copy without recompression
this_path = "/data/" + key
n_copied, n_skipped, n_bytes_copied = zarr.copy_store(
source=src_store,
dest=store,
source_path=this_path,
dest_path=this_path,
if_exists=if_exists,
)
else:
# copy with recompression
n_copied, n_skipped, n_bytes_copied = zarr.copy(
source=value,
dest=data_group,
name=key,
chunks=cks,
compressor=cpr,
if_exists=if_exists,
)
buffer = cls(root=root)
return buffer
@classmethod
def copy_from_path(
cls,
zarr_path,
backend=None,
store=None,
keys=None,
chunks: dict[str, tuple] | None = None,
compressors: dict | str | numcodecs.abc.Codec | None = None,
if_exists="replace",
**kwargs,
):
"""
Copy a on-disk zarr to in-memory compressed.
Recommended
"""
if chunks is None:
chunks = {}
if compressors is None:
compressors = {}
if backend == "numpy":
print("backend argument is deprecated!")
store = None
group = zarr.open(os.path.expanduser(zarr_path), "r")
return cls.copy_from_store(
src_store=group.store,
store=store,
keys=keys,
chunks=chunks,
compressors=compressors,
if_exists=if_exists,
**kwargs,
)
# ============= save methods ===============
def save_to_store(
self,
store,
chunks: dict[str, tuple] | None = None,
compressors: str | numcodecs.abc.Codec | dict | None = None,
if_exists="replace",
**kwargs,
):
root = zarr.group(store)
if chunks is None:
chunks = {}
if compressors is None:
compressors = {}
if self.backend == "zarr":
# recompression free copy
n_copied, n_skipped, n_bytes_copied = zarr.copy_store(
source=self.root.store,
dest=store,
source_path="/meta",
dest_path="/meta",
if_exists=if_exists,
)
else:
meta_group = root.create_group("meta", overwrite=True)
# save meta, no chunking
for key, value in self.root["meta"].items():
_ = meta_group.array(name=key, data=value, shape=value.shape, chunks=value.shape)
# save data, chunk
data_group = root.create_group("data", overwrite=True)
for key, value in self.root["data"].items():
cks = self._resolve_array_chunks(chunks=chunks, key=key, array=value)
cpr = self._resolve_array_compressor(compressors=compressors, key=key, array=value)
if isinstance(value, zarr.Array):
if cks == value.chunks and cpr == value.compressor:
# copy without recompression
this_path = "/data/" + key
n_copied, n_skipped, n_bytes_copied = zarr.copy_store(
source=self.root.store,
dest=store,
source_path=this_path,
dest_path=this_path,
if_exists=if_exists,
)
else:
# copy with recompression
n_copied, n_skipped, n_bytes_copied = zarr.copy(
source=value,
dest=data_group,
name=key,
chunks=cks,
compressor=cpr,
if_exists=if_exists,
)
else:
# numpy
_ = data_group.array(name=key, data=value, chunks=cks, compressor=cpr)
return store
def save_to_path(
self,
zarr_path,
chunks: dict[str, tuple] | None = None,
compressors: str | numcodecs.abc.Codec | dict | None = None,
if_exists="replace",
**kwargs,
):
if chunks is None:
chunks = {}
if compressors is None:
compressors = {}
store = zarr.DirectoryStore(os.path.expanduser(zarr_path))
return self.save_to_store(
store, chunks=chunks, compressors=compressors, if_exists=if_exists, **kwargs
)
@staticmethod
def resolve_compressor(compressor="default"):
if compressor == "default":
compressor = numcodecs.Blosc(cname="lz4", clevel=5, shuffle=numcodecs.Blosc.NOSHUFFLE)
elif compressor == "disk":
compressor = numcodecs.Blosc("zstd", clevel=5, shuffle=numcodecs.Blosc.BITSHUFFLE)
return compressor
@classmethod
def _resolve_array_compressor(cls, compressors: dict | str | numcodecs.abc.Codec, key, array):
# allows compressor to be explicitly set to None
cpr = "nil"
if isinstance(compressors, dict):
if key in compressors:
cpr = cls.resolve_compressor(compressors[key])
elif isinstance(array, zarr.Array):
cpr = array.compressor
else:
cpr = cls.resolve_compressor(compressors)
# backup default
if cpr == "nil":
cpr = cls.resolve_compressor("default")
return cpr
@classmethod
def _resolve_array_chunks(cls, chunks: dict | tuple, key, array):
cks = None
if isinstance(chunks, dict):
if key in chunks:
cks = chunks[key]
elif isinstance(array, zarr.Array):
cks = array.chunks
elif isinstance(chunks, tuple):
cks = chunks
else:
raise TypeError(f"Unsupported chunks type {type(chunks)}")
# backup default
if cks is None:
cks = get_optimal_chunks(shape=array.shape, dtype=array.dtype)
# check
check_chunks_compatible(chunks=cks, shape=array.shape)
return cks
# ============= properties =================
@cached_property
def data(self):
return self.root["data"]
@cached_property
def meta(self):
return self.root["meta"]
def update_meta(self, data):
# sanitize data
np_data = {}
for key, value in data.items():
if isinstance(value, np.ndarray):
np_data[key] = value
else:
arr = np.array(value)
if arr.dtype == object:
raise TypeError(f"Invalid value type {type(value)}")
np_data[key] = arr
meta_group = self.meta
if self.backend == "zarr":
for key, value in np_data.items():
_ = meta_group.array(
name=key, data=value, shape=value.shape, chunks=value.shape, overwrite=True
)
else:
meta_group.update(np_data)
return meta_group
@property
def episode_ends(self):
return self.meta["episode_ends"]
def get_episode_idxs(self):
import numba
numba.jit(nopython=True)
def _get_episode_idxs(episode_ends):
result = np.zeros((episode_ends[-1],), dtype=np.int64)
for i in range(len(episode_ends)):
start = 0
if i > 0:
start = episode_ends[i - 1]
end = episode_ends[i]
for idx in range(start, end):
result[idx] = i
return result
return _get_episode_idxs(self.episode_ends)
@property
def backend(self):
backend = "numpy"
if isinstance(self.root, zarr.Group):
backend = "zarr"
return backend
# =========== dict-like API ==============
def __repr__(self) -> str:
if self.backend == "zarr":
return str(self.root.tree())
else:
return super().__repr__()
def keys(self):
return self.data.keys()
def values(self):
return self.data.values()
def items(self):
return self.data.items()
def __getitem__(self, key):
return self.data[key]
def __contains__(self, key):
return key in self.data
# =========== our API ==============
@property
def n_steps(self):
if len(self.episode_ends) == 0:
return 0
return self.episode_ends[-1]
@property
def n_episodes(self):
return len(self.episode_ends)
@property
def chunk_size(self):
if self.backend == "zarr":
return next(iter(self.data.arrays()))[-1].chunks[0]
return None
@property
def episode_lengths(self):
ends = self.episode_ends[:]
ends = np.insert(ends, 0, 0)
lengths = np.diff(ends)
return lengths
def add_episode(
self,
data: dict[str, np.ndarray],
chunks: dict[str, tuple] | None = None,
compressors: str | numcodecs.abc.Codec | dict | None = None,
):
if chunks is None:
chunks = {}
if compressors is None:
compressors = {}
assert len(data) > 0
is_zarr = self.backend == "zarr"
curr_len = self.n_steps
episode_length = None
for value in data.values():
assert len(value.shape) >= 1
if episode_length is None:
episode_length = len(value)
else:
assert episode_length == len(value)
new_len = curr_len + episode_length
for key, value in data.items():
new_shape = (new_len,) + value.shape[1:]
# create array
if key not in self.data:
if is_zarr:
cks = self._resolve_array_chunks(chunks=chunks, key=key, array=value)
cpr = self._resolve_array_compressor(compressors=compressors, key=key, array=value)
arr = self.data.zeros(
name=key, shape=new_shape, chunks=cks, dtype=value.dtype, compressor=cpr
)
else:
# copy data to prevent modify
arr = np.zeros(shape=new_shape, dtype=value.dtype)
self.data[key] = arr
else:
arr = self.data[key]
assert value.shape[1:] == arr.shape[1:]
# same method for both zarr and numpy
if is_zarr:
arr.resize(new_shape)
else:
arr.resize(new_shape, refcheck=False)
# copy data
arr[-value.shape[0] :] = value
# append to episode ends
episode_ends = self.episode_ends
if is_zarr:
episode_ends.resize(episode_ends.shape[0] + 1)
else:
episode_ends.resize(episode_ends.shape[0] + 1, refcheck=False)
episode_ends[-1] = new_len
# rechunk
if is_zarr and episode_ends.chunks[0] < episode_ends.shape[0]:
rechunk_recompress_array(self.meta, "episode_ends", chunk_length=int(episode_ends.shape[0] * 1.5))
def drop_episode(self):
is_zarr = self.backend == "zarr"
episode_ends = self.episode_ends[:].copy()
assert len(episode_ends) > 0
start_idx = 0
if len(episode_ends) > 1:
start_idx = episode_ends[-2]
for value in self.data.values():
new_shape = (start_idx,) + value.shape[1:]
if is_zarr:
value.resize(new_shape)
else:
value.resize(new_shape, refcheck=False)
if is_zarr:
self.episode_ends.resize(len(episode_ends) - 1)
else:
self.episode_ends.resize(len(episode_ends) - 1, refcheck=False)
def pop_episode(self):
assert self.n_episodes > 0
episode = self.get_episode(self.n_episodes - 1, copy=True)
self.drop_episode()
return episode
def extend(self, data):
self.add_episode(data)
def get_episode(self, idx, copy=False):
idx = list(range(len(self.episode_ends)))[idx]
start_idx = 0
if idx > 0:
start_idx = self.episode_ends[idx - 1]
end_idx = self.episode_ends[idx]
result = self.get_steps_slice(start_idx, end_idx, copy=copy)
return result
def get_episode_slice(self, idx):
start_idx = 0
if idx > 0:
start_idx = self.episode_ends[idx - 1]
end_idx = self.episode_ends[idx]
return slice(start_idx, end_idx)
def get_steps_slice(self, start, stop, step=None, copy=False):
_slice = slice(start, stop, step)
result = {}
for key, value in self.data.items():
x = value[_slice]
if copy and isinstance(value, np.ndarray):
x = x.copy()
result[key] = x
return result
# =========== chunking =============
def get_chunks(self) -> dict:
assert self.backend == "zarr"
chunks = {}
for key, value in self.data.items():
chunks[key] = value.chunks
return chunks
def set_chunks(self, chunks: dict):
assert self.backend == "zarr"
for key, value in chunks.items():
if key in self.data:
arr = self.data[key]
if value != arr.chunks:
check_chunks_compatible(chunks=value, shape=arr.shape)
rechunk_recompress_array(self.data, key, chunks=value)
def get_compressors(self) -> dict:
assert self.backend == "zarr"
compressors = {}
for key, value in self.data.items():
compressors[key] = value.compressor
return compressors
def set_compressors(self, compressors: dict):
assert self.backend == "zarr"
for key, value in compressors.items():
if key in self.data:
arr = self.data[key]
compressor = self.resolve_compressor(value)
if compressor != arr.compressor:
rechunk_recompress_array(self.data, key, compressor=compressor)

202
lerobot/common/datasets/push_dataset_to_hub/_download_raw.py Normal file
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@@ -0,0 +1,202 @@
#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
This file contains download scripts for raw datasets.
Example of usage:
```
python lerobot/common/datasets/push_dataset_to_hub/_download_raw.py \
--raw-dir data/lerobot-raw/pusht_raw \
--repo-id lerobot-raw/pusht_raw
```
"""
import argparse
import logging
import warnings
from pathlib import Path
from huggingface_hub import snapshot_download
from lerobot.common.datasets.push_dataset_to_hub.utils import check_repo_id
# {raw_repo_id: raw_format}
AVAILABLE_RAW_REPO_IDS = {
"lerobot-raw/aloha_mobile_cabinet_raw": "aloha_hdf5",
"lerobot-raw/aloha_mobile_chair_raw": "aloha_hdf5",
"lerobot-raw/aloha_mobile_elevator_raw": "aloha_hdf5",
"lerobot-raw/aloha_mobile_shrimp_raw": "aloha_hdf5",
"lerobot-raw/aloha_mobile_wash_pan_raw": "aloha_hdf5",
"lerobot-raw/aloha_mobile_wipe_wine_raw": "aloha_hdf5",
"lerobot-raw/aloha_sim_insertion_human_raw": "aloha_hdf5",
"lerobot-raw/aloha_sim_insertion_scripted_raw": "aloha_hdf5",
"lerobot-raw/aloha_sim_transfer_cube_human_raw": "aloha_hdf5",
"lerobot-raw/aloha_sim_transfer_cube_scripted_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_battery_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_candy_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_coffee_new_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_coffee_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_cups_open_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_fork_pick_up_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_pingpong_test_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_pro_pencil_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_screw_driver_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_tape_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_thread_velcro_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_towel_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_vinh_cup_left_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_vinh_cup_raw": "aloha_hdf5",
"lerobot-raw/aloha_static_ziploc_slide_raw": "aloha_hdf5",
"lerobot-raw/umi_cup_in_the_wild_raw": "umi_zarr",
"lerobot-raw/pusht_raw": "pusht_zarr",
"lerobot-raw/unitreeh1_fold_clothes_raw": "aloha_hdf5",
"lerobot-raw/unitreeh1_rearrange_objects_raw": "aloha_hdf5",
"lerobot-raw/unitreeh1_two_robot_greeting_raw": "aloha_hdf5",
"lerobot-raw/unitreeh1_warehouse_raw": "aloha_hdf5",
"lerobot-raw/xarm_lift_medium_raw": "xarm_pkl",
"lerobot-raw/xarm_lift_medium_replay_raw": "xarm_pkl",
"lerobot-raw/xarm_push_medium_raw": "xarm_pkl",
"lerobot-raw/xarm_push_medium_replay_raw": "xarm_pkl",
"lerobot-raw/fractal20220817_data_raw": "openx_rlds.fractal20220817_data",
"lerobot-raw/kuka_raw": "openx_rlds.kuka",
"lerobot-raw/bridge_openx_raw": "openx_rlds.bridge_openx",
"lerobot-raw/taco_play_raw": "openx_rlds.taco_play",
"lerobot-raw/jaco_play_raw": "openx_rlds.jaco_play",
"lerobot-raw/berkeley_cable_routing_raw": "openx_rlds.berkeley_cable_routing",
"lerobot-raw/roboturk_raw": "openx_rlds.roboturk",
"lerobot-raw/nyu_door_opening_surprising_effectiveness_raw": "openx_rlds.nyu_door_opening_surprising_effectiveness",
"lerobot-raw/viola_raw": "openx_rlds.viola",
"lerobot-raw/berkeley_autolab_ur5_raw": "openx_rlds.berkeley_autolab_ur5",
"lerobot-raw/toto_raw": "openx_rlds.toto",
"lerobot-raw/language_table_raw": "openx_rlds.language_table",
"lerobot-raw/columbia_cairlab_pusht_real_raw": "openx_rlds.columbia_cairlab_pusht_real",
"lerobot-raw/stanford_kuka_multimodal_dataset_raw": "openx_rlds.stanford_kuka_multimodal_dataset",
"lerobot-raw/nyu_rot_dataset_raw": "openx_rlds.nyu_rot_dataset",
"lerobot-raw/io_ai_tech_raw": "openx_rlds.io_ai_tech",
"lerobot-raw/stanford_hydra_dataset_raw": "openx_rlds.stanford_hydra_dataset",
"lerobot-raw/austin_buds_dataset_raw": "openx_rlds.austin_buds_dataset",
"lerobot-raw/nyu_franka_play_dataset_raw": "openx_rlds.nyu_franka_play_dataset",
"lerobot-raw/maniskill_dataset_raw": "openx_rlds.maniskill_dataset",
"lerobot-raw/furniture_bench_dataset_raw": "openx_rlds.furniture_bench_dataset",
"lerobot-raw/cmu_franka_exploration_dataset_raw": "openx_rlds.cmu_franka_exploration_dataset",
"lerobot-raw/ucsd_kitchen_dataset_raw": "openx_rlds.ucsd_kitchen_dataset",
"lerobot-raw/ucsd_pick_and_place_dataset_raw": "openx_rlds.ucsd_pick_and_place_dataset",
"lerobot-raw/spoc_raw": "openx_rlds.spoc",
"lerobot-raw/austin_sailor_dataset_raw": "openx_rlds.austin_sailor_dataset",
"lerobot-raw/austin_sirius_dataset_raw": "openx_rlds.austin_sirius_dataset",
"lerobot-raw/bc_z_raw": "openx_rlds.bc_z",
"lerobot-raw/utokyo_pr2_opening_fridge_raw": "openx_rlds.utokyo_pr2_opening_fridge",
"lerobot-raw/utokyo_pr2_tabletop_manipulation_raw": "openx_rlds.utokyo_pr2_tabletop_manipulation",
"lerobot-raw/utokyo_xarm_pick_and_place_raw": "openx_rlds.utokyo_xarm_pick_and_place",
"lerobot-raw/utokyo_xarm_bimanual_raw": "openx_rlds.utokyo_xarm_bimanual",
"lerobot-raw/utokyo_saytap_raw": "openx_rlds.utokyo_saytap",
"lerobot-raw/robo_net_raw": "openx_rlds.robo_net",
"lerobot-raw/robo_set_raw": "openx_rlds.robo_set",
"lerobot-raw/berkeley_mvp_raw": "openx_rlds.berkeley_mvp",
"lerobot-raw/berkeley_rpt_raw": "openx_rlds.berkeley_rpt",
"lerobot-raw/kaist_nonprehensile_raw": "openx_rlds.kaist_nonprehensile",
"lerobot-raw/stanford_mask_vit_raw": "openx_rlds.stanford_mask_vit",
"lerobot-raw/tokyo_u_lsmo_raw": "openx_rlds.tokyo_u_lsmo",
"lerobot-raw/dlr_sara_pour_raw": "openx_rlds.dlr_sara_pour",
"lerobot-raw/dlr_sara_grid_clamp_raw": "openx_rlds.dlr_sara_grid_clamp",
"lerobot-raw/dlr_edan_shared_control_raw": "openx_rlds.dlr_edan_shared_control",
"lerobot-raw/asu_table_top_raw": "openx_rlds.asu_table_top",
"lerobot-raw/stanford_robocook_raw": "openx_rlds.stanford_robocook",
"lerobot-raw/imperialcollege_sawyer_wrist_cam_raw": "openx_rlds.imperialcollege_sawyer_wrist_cam",
"lerobot-raw/iamlab_cmu_pickup_insert_raw": "openx_rlds.iamlab_cmu_pickup_insert",
"lerobot-raw/uiuc_d3field_raw": "openx_rlds.uiuc_d3field",
"lerobot-raw/utaustin_mutex_raw": "openx_rlds.utaustin_mutex",
"lerobot-raw/berkeley_fanuc_manipulation_raw": "openx_rlds.berkeley_fanuc_manipulation",
"lerobot-raw/cmu_playing_with_food_raw": "openx_rlds.cmu_playing_with_food",
"lerobot-raw/cmu_play_fusion_raw": "openx_rlds.cmu_play_fusion",
"lerobot-raw/cmu_stretch_raw": "openx_rlds.cmu_stretch",
"lerobot-raw/berkeley_gnm_recon_raw": "openx_rlds.berkeley_gnm_recon",
"lerobot-raw/berkeley_gnm_cory_hall_raw": "openx_rlds.berkeley_gnm_cory_hall",
"lerobot-raw/berkeley_gnm_sac_son_raw": "openx_rlds.berkeley_gnm_sac_son",
"lerobot-raw/droid_raw": "openx_rlds.droid",
"lerobot-raw/droid_100_raw": "openx_rlds.droid100",
"lerobot-raw/fmb_raw": "openx_rlds.fmb",
"lerobot-raw/dobbe_raw": "openx_rlds.dobbe",
"lerobot-raw/usc_cloth_sim_raw": "openx_rlds.usc_cloth_sim",
"lerobot-raw/plex_robosuite_raw": "openx_rlds.plex_robosuite",
"lerobot-raw/conq_hose_manipulation_raw": "openx_rlds.conq_hose_manipulation",
"lerobot-raw/vima_raw": "openx_rlds.vima",
"lerobot-raw/robot_vqa_raw": "openx_rlds.robot_vqa",
"lerobot-raw/mimic_play_raw": "openx_rlds.mimic_play",
"lerobot-raw/tidybot_raw": "openx_rlds.tidybot",
"lerobot-raw/eth_agent_affordances_raw": "openx_rlds.eth_agent_affordances",
}
def download_raw(raw_dir: Path, repo_id: str):
check_repo_id(repo_id)
user_id, dataset_id = repo_id.split("/")
if not dataset_id.endswith("_raw"):
warnings.warn(
f"""`dataset_id` ({dataset_id}) doesn't end with '_raw' (e.g. 'lerobot/pusht_raw'). Following this
naming convention by renaming your repository is advised, but not mandatory.""",
stacklevel=1,
)
# Send warning if raw_dir isn't well formatted
if raw_dir.parts[-2] != user_id or raw_dir.parts[-1] != dataset_id:
warnings.warn(
f"""`raw_dir` ({raw_dir}) doesn't contain a community or user id `/` the name of the dataset that
match the `repo_id` (e.g. 'data/lerobot/pusht_raw'). Following this naming convention is advised,
but not mandatory.""",
stacklevel=1,
)
raw_dir.mkdir(parents=True, exist_ok=True)
logging.info(f"Start downloading from huggingface.co/{user_id} for {dataset_id}")
snapshot_download(repo_id, repo_type="dataset", local_dir=raw_dir)
logging.info(f"Finish downloading from huggingface.co/{user_id} for {dataset_id}")
def download_all_raw_datasets(data_dir: Path | None = None):
if data_dir is None:
data_dir = Path("data")
for repo_id in AVAILABLE_RAW_REPO_IDS:
raw_dir = data_dir / repo_id
download_raw(raw_dir, repo_id)
def main():
parser = argparse.ArgumentParser(
description=f"""A script to download raw datasets from Hugging Face hub to a local directory. Here is a
non exhaustive list of available repositories to use in `--repo-id`: {list(AVAILABLE_RAW_REPO_IDS.keys())}""",
)
parser.add_argument(
"--raw-dir",
type=Path,
required=True,
help="Directory containing input raw datasets (e.g. `data/aloha_mobile_chair_raw` or `data/pusht_raw).",
)
parser.add_argument(
"--repo-id",
type=str,
required=True,
help="""Repositery identifier on Hugging Face: a community or a user name `/` the name of
the dataset (e.g. `lerobot/pusht_raw`, `cadene/aloha_sim_insertion_human_raw`).""",
)
args = parser.parse_args()
download_raw(**vars(args))
if __name__ == "__main__":
main()

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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Use this script to batch encode lerobot dataset from their raw format to LeRobotDataset and push their updated
version to the hub. Under the hood, this script reuses 'push_dataset_to_hub.py'. It assumes that you already
downloaded raw datasets, which you can do with the related '_download_raw.py' script.
For instance, for codebase_version = 'v1.6', the following command was run, assuming raw datasets from
lerobot-raw were downloaded in 'raw/datasets/directory':
```bash
python lerobot/common/datasets/push_dataset_to_hub/_encode_datasets.py \
--raw-dir raw/datasets/directory \
--raw-repo-ids lerobot-raw \
--local-dir push/datasets/directory \
--tests-data-dir tests/data \
--push-repo lerobot \
--vcodec libsvtav1 \
--pix-fmt yuv420p \
--g 2 \
--crf 30
```
"""
import argparse
from pathlib import Path
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub._download_raw import AVAILABLE_RAW_REPO_IDS
from lerobot.common.datasets.push_dataset_to_hub.utils import check_repo_id
from lerobot.scripts.push_dataset_to_hub import push_dataset_to_hub
def get_push_repo_id_from_raw(raw_repo_id: str, push_repo: str) -> str:
dataset_id_raw = raw_repo_id.split("/")[1]
dataset_id = dataset_id_raw.removesuffix("_raw")
return f"{push_repo}/{dataset_id}"
def encode_datasets(
raw_dir: Path,
raw_repo_ids: list[str],
push_repo: str,
vcodec: str,
pix_fmt: str,
g: int,
crf: int,
local_dir: Path | None = None,
tests_data_dir: Path | None = None,
raw_format: str | None = None,
dry_run: bool = False,
) -> None:
if len(raw_repo_ids) == 1 and raw_repo_ids[0].lower() == "lerobot-raw":
raw_repo_ids_format = AVAILABLE_RAW_REPO_IDS
else:
if raw_format is None:
raise ValueError(raw_format)
raw_repo_ids_format = {id_: raw_format for id_ in raw_repo_ids}
for raw_repo_id, repo_raw_format in raw_repo_ids_format.items():
check_repo_id(raw_repo_id)
dataset_repo_id_push = get_push_repo_id_from_raw(raw_repo_id, push_repo)
dataset_raw_dir = raw_dir / raw_repo_id
dataset_dir = local_dir / dataset_repo_id_push if local_dir is not None else None
encoding = {
"vcodec": vcodec,
"pix_fmt": pix_fmt,
"g": g,
"crf": crf,
}
if not (dataset_raw_dir).is_dir():
raise NotADirectoryError(dataset_raw_dir)
if not dry_run:
push_dataset_to_hub(
dataset_raw_dir,
raw_format=repo_raw_format,
repo_id=dataset_repo_id_push,
local_dir=dataset_dir,
resume=True,
encoding=encoding,
tests_data_dir=tests_data_dir,
)
else:
print(
f"DRY RUN: {dataset_raw_dir} --> {dataset_dir} --> {dataset_repo_id_push}@{CODEBASE_VERSION}"
)
def main():
parser = argparse.ArgumentParser()
parser.add_argument(
"--raw-dir",
type=Path,
default=Path("data"),
help="Directory where raw datasets are located.",
)
parser.add_argument(
"--raw-repo-ids",
type=str,
nargs="*",
default=["lerobot-raw"],
help="""Raw dataset repo ids. if 'lerobot-raw', the keys from `AVAILABLE_RAW_REPO_IDS` will be
used and raw datasets will be fetched from the 'lerobot-raw/' repo and pushed with their
associated format. It is assumed that each dataset is located at `raw_dir / raw_repo_id` """,
)
parser.add_argument(
"--raw-format",
type=str,
default=None,
help="""Raw format to use for the raw repo-ids. Must be specified if --raw-repo-ids is not
'lerobot-raw'""",
)
parser.add_argument(
"--local-dir",
type=Path,
default=None,
help="""When provided, writes the dataset converted to LeRobotDataset format in this directory
(e.g. `data/lerobot/aloha_mobile_chair`).""",
)
parser.add_argument(
"--push-repo",
type=str,
default="lerobot",
help="Repo to upload datasets to",
)
parser.add_argument(
"--vcodec",
type=str,
default="libsvtav1",
help="Codec to use for encoding videos",
)
parser.add_argument(
"--pix-fmt",
type=str,
default="yuv420p",
help="Pixel formats (chroma subsampling) to be used for encoding",
)
parser.add_argument(
"--g",
type=int,
default=2,
help="Group of pictures sizes to be used for encoding.",
)
parser.add_argument(
"--crf",
type=int,
default=30,
help="Constant rate factors to be used for encoding.",
)
parser.add_argument(
"--tests-data-dir",
type=Path,
default=None,
help=(
"When provided, save tests artifacts into the given directory "
"(e.g. `--tests-data-dir tests/data` will save to tests/data/{--repo-id})."
),
)
parser.add_argument(
"--dry-run",
type=int,
default=0,
help="If not set to 0, this script won't download or upload anything.",
)
args = parser.parse_args()
encode_datasets(**vars(args))
if __name__ == "__main__":
main()

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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# imagecodecs/numcodecs.py
# Copyright (c) 2021-2022, Christoph Gohlke
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# 1. Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
#
# 2. Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
#
# 3. Neither the name of the copyright holder nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
# Copied from: https://github.com/real-stanford/universal_manipulation_interface/blob/298776ce251f33b6b3185a98d6e7d1f9ad49168b/diffusion_policy/codecs/imagecodecs_numcodecs.py#L1
"""Additional numcodecs implemented using imagecodecs."""
__version__ = "2022.9.26"
__all__ = ("register_codecs",)
import imagecodecs
import numpy
from numcodecs.abc import Codec
from numcodecs.registry import get_codec, register_codec
# TODO (azouitine): Remove useless codecs
def protective_squeeze(x: numpy.ndarray):
"""
Squeeze dim only if it's not the last dim.
Image dim expected to be *, H, W, C
"""
img_shape = x.shape[-3:]
if len(x.shape) > 3:
n_imgs = numpy.prod(x.shape[:-3])
if n_imgs > 1:
img_shape = (-1,) + img_shape
return x.reshape(img_shape)
def get_default_image_compressor(**kwargs):
if imagecodecs.JPEGXL:
# has JPEGXL
this_kwargs = {
"effort": 3,
"distance": 0.3,
# bug in libjxl, invalid codestream for non-lossless
# when decoding speed > 1
"decodingspeed": 1,
}
this_kwargs.update(kwargs)
return JpegXl(**this_kwargs)
else:
this_kwargs = {"level": 50}
this_kwargs.update(kwargs)
return Jpeg2k(**this_kwargs)
class Jpeg2k(Codec):
"""JPEG 2000 codec for numcodecs."""
codec_id = "imagecodecs_jpeg2k"
def __init__(
self,
level=None,
codecformat=None,
colorspace=None,
tile=None,
reversible=None,
bitspersample=None,
resolutions=None,
numthreads=None,
verbose=0,
):
self.level = level
self.codecformat = codecformat
self.colorspace = colorspace
self.tile = None if tile is None else tuple(tile)
self.reversible = reversible
self.bitspersample = bitspersample
self.resolutions = resolutions
self.numthreads = numthreads
self.verbose = verbose
def encode(self, buf):
buf = protective_squeeze(numpy.asarray(buf))
return imagecodecs.jpeg2k_encode(
buf,
level=self.level,
codecformat=self.codecformat,
colorspace=self.colorspace,
tile=self.tile,
reversible=self.reversible,
bitspersample=self.bitspersample,
resolutions=self.resolutions,
numthreads=self.numthreads,
verbose=self.verbose,
)
def decode(self, buf, out=None):
return imagecodecs.jpeg2k_decode(buf, verbose=self.verbose, numthreads=self.numthreads, out=out)
class JpegXl(Codec):
"""JPEG XL codec for numcodecs."""
codec_id = "imagecodecs_jpegxl"
def __init__(
self,
# encode
level=None,
effort=None,
distance=None,
lossless=None,
decodingspeed=None,
photometric=None,
planar=None,
usecontainer=None,
# decode
index=None,
keeporientation=None,
# both
numthreads=None,
):
"""
Return JPEG XL image from numpy array.
Float must be in nominal range 0..1.
Currently L, LA, RGB, RGBA images are supported in contig mode.
Extra channels are only supported for grayscale images in planar mode.
Parameters
----------
level : Default to None, i.e. not overwriting lossess and decodingspeed options.
When < 0: Use lossless compression
When in [0,1,2,3,4]: Sets the decoding speed tier for the provided options.
Minimum is 0 (slowest to decode, best quality/density), and maximum
is 4 (fastest to decode, at the cost of some quality/density).
effort : Default to 3.
Sets encoder effort/speed level without affecting decoding speed.
Valid values are, from faster to slower speed: 1:lightning 2:thunder
3:falcon 4:cheetah 5:hare 6:wombat 7:squirrel 8:kitten 9:tortoise.
Speed: lightning, thunder, falcon, cheetah, hare, wombat, squirrel, kitten, tortoise
control the encoder effort in ascending order.
This also affects memory usage: using lower effort will typically reduce memory
consumption during encoding.
lightning and thunder are fast modes useful for lossless mode (modular).
falcon disables all of the following tools.
cheetah enables coefficient reordering, context clustering, and heuristics for selecting DCT sizes and quantization steps.
hare enables Gaborish filtering, chroma from luma, and an initial estimate of quantization steps.
wombat enables error diffusion quantization and full DCT size selection heuristics.
squirrel (default) enables dots, patches, and spline detection, and full context clustering.
kitten optimizes the adaptive quantization for a psychovisual metric.
tortoise enables a more thorough adaptive quantization search.
distance : Default to 1.0
Sets the distance level for lossy compression: target max butteraugli distance,
lower = higher quality. Range: 0 .. 15. 0.0 = mathematically lossless
(however, use JxlEncoderSetFrameLossless instead to use true lossless,
as setting distance to 0 alone is not the only requirement).
1.0 = visually lossless. Recommended range: 0.5 .. 3.0.
lossess : Default to False.
Use lossess encoding.
decodingspeed : Default to 0.
Duplicate to level. [0,4]
photometric : Return JxlColorSpace value.
Default logic is quite complicated but works most of the time.
Accepted value:
int: [-1,3]
str: ['RGB',
'WHITEISZERO', 'MINISWHITE',
'BLACKISZERO', 'MINISBLACK', 'GRAY',
'XYB', 'KNOWN']
planar : Enable multi-channel mode.
Default to false.
usecontainer :
Forces the encoder to use the box-based container format (BMFF)
even when not necessary.
When using JxlEncoderUseBoxes, JxlEncoderStoreJPEGMetadata or
JxlEncoderSetCodestreamLevel with level 10, the encoder will
automatically also use the container format, it is not necessary
to use JxlEncoderUseContainer for those use cases.
By default this setting is disabled.
index : Selectively decode frames for animation.
Default to 0, decode all frames.
When set to > 0, decode that frame index only.
keeporientation :
Enables or disables preserving of as-in-bitstream pixeldata orientation.
Some images are encoded with an Orientation tag indicating that the
decoder must perform a rotation and/or mirroring to the encoded image data.
If skip_reorientation is JXL_FALSE (the default): the decoder will apply
the transformation from the orientation setting, hence rendering the image
according to its specified intent. When producing a JxlBasicInfo, the decoder
will always set the orientation field to JXL_ORIENT_IDENTITY (matching the
returned pixel data) and also align xsize and ysize so that they correspond
to the width and the height of the returned pixel data.
If skip_reorientation is JXL_TRUE: the decoder will skip applying the
transformation from the orientation setting, returning the image in
the as-in-bitstream pixeldata orientation. This may be faster to decode
since the decoder doesnt have to apply the transformation, but can
cause wrong display of the image if the orientation tag is not correctly
taken into account by the user.
By default, this option is disabled, and the returned pixel data is
re-oriented according to the images Orientation setting.
threads : Default to 1.
If <= 0, use all cores.
If > 32, clipped to 32.
"""
self.level = level
self.effort = effort
self.distance = distance
self.lossless = bool(lossless)
self.decodingspeed = decodingspeed
self.photometric = photometric
self.planar = planar
self.usecontainer = usecontainer
self.index = index
self.keeporientation = keeporientation
self.numthreads = numthreads
def encode(self, buf):
# TODO: only squeeze all but last dim
buf = protective_squeeze(numpy.asarray(buf))
return imagecodecs.jpegxl_encode(
buf,
level=self.level,
effort=self.effort,
distance=self.distance,
lossless=self.lossless,
decodingspeed=self.decodingspeed,
photometric=self.photometric,
planar=self.planar,
usecontainer=self.usecontainer,
numthreads=self.numthreads,
)
def decode(self, buf, out=None):
return imagecodecs.jpegxl_decode(
buf,
index=self.index,
keeporientation=self.keeporientation,
numthreads=self.numthreads,
out=out,
)
def _flat(out):
"""Return numpy array as contiguous view of bytes if possible."""
if out is None:
return None
view = memoryview(out)
if view.readonly or not view.contiguous:
return None
return view.cast("B")
def register_codecs(codecs=None, force=False, verbose=True):
"""Register codecs in this module with numcodecs."""
for name, cls in globals().items():
if not hasattr(cls, "codec_id") or name == "Codec":
continue
if codecs is not None and cls.codec_id not in codecs:
continue
try:
try: # noqa: SIM105
get_codec({"id": cls.codec_id})
except TypeError:
# registered, but failed
pass
except ValueError:
# not registered yet
pass
else:
if not force:
if verbose:
log_warning(f"numcodec {cls.codec_id!r} already registered")
continue
if verbose:
log_warning(f"replacing registered numcodec {cls.codec_id!r}")
register_codec(cls)
def log_warning(msg, *args, **kwargs):
"""Log message with level WARNING."""
import logging
logging.getLogger(__name__).warning(msg, *args, **kwargs)

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lerobot/common/datasets/push_dataset_to_hub/aloha_hdf5_format.py Normal file
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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Contains utilities to process raw data format of HDF5 files like in: https://github.com/tonyzhaozh/act
"""
import gc
import shutil
from pathlib import Path
import h5py
import numpy as np
import torch
import tqdm
from datasets import Dataset, Features, Image, Sequence, Value
from PIL import Image as PILImage
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub.utils import (
calculate_episode_data_index,
concatenate_episodes,
get_default_encoding,
save_images_concurrently,
)
from lerobot.common.datasets.utils import (
hf_transform_to_torch,
)
from lerobot.common.datasets.video_utils import VideoFrame, encode_video_frames
def get_cameras(hdf5_data):
# ignore depth channel, not currently handled
# TODO(rcadene): add depth
rgb_cameras = [key for key in hdf5_data["/observations/images"].keys() if "depth" not in key] # noqa: SIM118
return rgb_cameras
def check_format(raw_dir) -> bool:
# only frames from simulation are uncompressed
compressed_images = "sim" not in raw_dir.name
hdf5_paths = list(raw_dir.glob("episode_*.hdf5"))
assert len(hdf5_paths) != 0
for hdf5_path in hdf5_paths:
with h5py.File(hdf5_path, "r") as data:
assert "/action" in data
assert "/observations/qpos" in data
assert data["/action"].ndim == 2
assert data["/observations/qpos"].ndim == 2
num_frames = data["/action"].shape[0]
assert num_frames == data["/observations/qpos"].shape[0]
for camera in get_cameras(data):
assert num_frames == data[f"/observations/images/{camera}"].shape[0]
if compressed_images:
assert data[f"/observations/images/{camera}"].ndim == 2
else:
assert data[f"/observations/images/{camera}"].ndim == 4
b, h, w, c = data[f"/observations/images/{camera}"].shape
assert c < h and c < w, f"Expect (h,w,c) image format but ({h=},{w=},{c=}) provided."
def load_from_raw(
raw_dir: Path,
videos_dir: Path,
fps: int,
video: bool,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
# only frames from simulation are uncompressed
compressed_images = "sim" not in raw_dir.name
hdf5_files = sorted(raw_dir.glob("episode_*.hdf5"))
num_episodes = len(hdf5_files)
ep_dicts = []
ep_ids = episodes if episodes else range(num_episodes)
for ep_idx in tqdm.tqdm(ep_ids):
ep_path = hdf5_files[ep_idx]
with h5py.File(ep_path, "r") as ep:
num_frames = ep["/action"].shape[0]
# last step of demonstration is considered done
done = torch.zeros(num_frames, dtype=torch.bool)
done[-1] = True
state = torch.from_numpy(ep["/observations/qpos"][:])
action = torch.from_numpy(ep["/action"][:])
if "/observations/qvel" in ep:
velocity = torch.from_numpy(ep["/observations/qvel"][:])
if "/observations/effort" in ep:
effort = torch.from_numpy(ep["/observations/effort"][:])
ep_dict = {}
for camera in get_cameras(ep):
img_key = f"observation.images.{camera}"
if compressed_images:
import cv2
# load one compressed image after the other in RAM and uncompress
imgs_array = []
for data in ep[f"/observations/images/{camera}"]:
imgs_array.append(cv2.imdecode(data, 1))
imgs_array = np.array(imgs_array)
else:
# load all images in RAM
imgs_array = ep[f"/observations/images/{camera}"][:]
if video:
# save png images in temporary directory
tmp_imgs_dir = videos_dir / "tmp_images"
save_images_concurrently(imgs_array, tmp_imgs_dir)
# encode images to a mp4 video
fname = f"{img_key}_episode_{ep_idx:06d}.mp4"
video_path = videos_dir / fname
encode_video_frames(tmp_imgs_dir, video_path, fps, **(encoding or {}))
# clean temporary images directory
shutil.rmtree(tmp_imgs_dir)
# store the reference to the video frame
ep_dict[img_key] = [
{"path": f"videos/{fname}", "timestamp": i / fps} for i in range(num_frames)
]
else:
ep_dict[img_key] = [PILImage.fromarray(x) for x in imgs_array]
ep_dict["observation.state"] = state
if "/observations/velocity" in ep:
ep_dict["observation.velocity"] = velocity
if "/observations/effort" in ep:
ep_dict["observation.effort"] = effort
ep_dict["action"] = action
ep_dict["episode_index"] = torch.tensor([ep_idx] * num_frames)
ep_dict["frame_index"] = torch.arange(0, num_frames, 1)
ep_dict["timestamp"] = torch.arange(0, num_frames, 1) / fps
ep_dict["next.done"] = done
# TODO(rcadene): add reward and success by computing them in sim
assert isinstance(ep_idx, int)
ep_dicts.append(ep_dict)
gc.collect()
data_dict = concatenate_episodes(ep_dicts)
total_frames = data_dict["frame_index"].shape[0]
data_dict["index"] = torch.arange(0, total_frames, 1)
return data_dict
def to_hf_dataset(data_dict, video) -> Dataset:
features = {}
keys = [key for key in data_dict if "observation.images." in key]
for key in keys:
if video:
features[key] = VideoFrame()
else:
features[key] = Image()
features["observation.state"] = Sequence(
length=data_dict["observation.state"].shape[1], feature=Value(dtype="float32", id=None)
)
if "observation.velocity" in data_dict:
features["observation.velocity"] = Sequence(
length=data_dict["observation.velocity"].shape[1], feature=Value(dtype="float32", id=None)
)
if "observation.effort" in data_dict:
features["observation.effort"] = Sequence(
length=data_dict["observation.effort"].shape[1], feature=Value(dtype="float32", id=None)
)
features["action"] = Sequence(
length=data_dict["action"].shape[1], feature=Value(dtype="float32", id=None)
)
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["next.done"] = Value(dtype="bool", id=None)
features["index"] = Value(dtype="int64", id=None)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
# sanity check
check_format(raw_dir)
if fps is None:
fps = 50
data_dict = load_from_raw(raw_dir, videos_dir, fps, video, episodes, encoding)
hf_dataset = to_hf_dataset(data_dict, video)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video,
}
if video:
info["encoding"] = get_default_encoding()
return hf_dataset, episode_data_index, info

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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Contains utilities to process raw data format of png images files recorded with capture_camera_feed.py
"""
from pathlib import Path
import torch
from datasets import Dataset, Features, Image, Value
from PIL import Image as PILImage
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub.utils import (
calculate_episode_data_index,
concatenate_episodes,
)
from lerobot.common.datasets.utils import hf_transform_to_torch
from lerobot.common.datasets.video_utils import VideoFrame
def check_format(raw_dir: Path) -> bool:
image_paths = list(raw_dir.glob("frame_*.png"))
if len(image_paths) == 0:
raise ValueError
def load_from_raw(raw_dir: Path, fps: int, episodes: list[int] | None = None):
if episodes is not None:
# TODO(aliberts): add support for multi-episodes.
raise NotImplementedError()
ep_dict = {}
ep_idx = 0
image_paths = sorted(raw_dir.glob("frame_*.png"))
num_frames = len(image_paths)
ep_dict["observation.image"] = [PILImage.open(x) for x in image_paths]
ep_dict["episode_index"] = torch.tensor([ep_idx] * num_frames)
ep_dict["frame_index"] = torch.arange(0, num_frames, 1)
ep_dict["timestamp"] = torch.arange(0, num_frames, 1) / fps
ep_dicts = [ep_dict]
data_dict = concatenate_episodes(ep_dicts)
total_frames = data_dict["frame_index"].shape[0]
data_dict["index"] = torch.arange(0, total_frames, 1)
return data_dict
def to_hf_dataset(data_dict, video) -> Dataset:
features = {}
if video:
features["observation.image"] = VideoFrame()
else:
features["observation.image"] = Image()
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["index"] = Value(dtype="int64", id=None)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
if video or episodes or encoding is not None:
# TODO(aliberts): support this
raise NotImplementedError
# sanity check
check_format(raw_dir)
if fps is None:
fps = 30
data_dict = load_from_raw(raw_dir, videos_dir, fps, video, episodes)
hf_dataset = to_hf_dataset(data_dict, video)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video,
}
return hf_dataset, episode_data_index, info

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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Contains utilities to process raw data format from dora-record
"""
import re
import warnings
from pathlib import Path
import pandas as pd
import torch
from datasets import Dataset, Features, Image, Sequence, Value
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub.utils import calculate_episode_data_index
from lerobot.common.datasets.utils import (
hf_transform_to_torch,
)
from lerobot.common.datasets.video_utils import VideoFrame
def check_format(raw_dir) -> bool:
assert raw_dir.exists()
leader_file = list(raw_dir.glob("*.parquet"))
if len(leader_file) == 0:
raise ValueError(f"Missing parquet files in '{raw_dir}'")
return True
def load_from_raw(raw_dir: Path, videos_dir: Path, fps: int, video: bool, episodes: list[int] | None = None):
# Load data stream that will be used as reference for the timestamps synchronization
reference_files = list(raw_dir.glob("observation.images.cam_*.parquet"))
if len(reference_files) == 0:
raise ValueError(f"Missing reference files for camera, starting with in '{raw_dir}'")
# select first camera in alphanumeric order
reference_key = sorted(reference_files)[0].stem
reference_df = pd.read_parquet(raw_dir / f"{reference_key}.parquet")
reference_df = reference_df[["timestamp_utc", reference_key]]
# Merge all data stream using nearest backward strategy
df = reference_df
for path in raw_dir.glob("*.parquet"):
key = path.stem # action or observation.state or ...
if key == reference_key:
continue
if "failed_episode_index" in key:
# TODO(rcadene): add support for removing episodes that are tagged as "failed"
continue
modality_df = pd.read_parquet(path)
modality_df = modality_df[["timestamp_utc", key]]
df = pd.merge_asof(
df,
modality_df,
on="timestamp_utc",
# "nearest" is the best option over "backward", since the latter can desynchronizes camera timestamps by
# matching timestamps that are too far apart, in order to fit the backward constraints. It's not the case for "nearest".
# However, note that "nearest" might synchronize the reference camera with other cameras on slightly future timestamps.
# are too far apart.
direction="nearest",
tolerance=pd.Timedelta(f"{1 / fps} seconds"),
)
# Remove rows with episode_index -1 which indicates data that correspond to in-between episodes
df = df[df["episode_index"] != -1]
image_keys = [key for key in df if "observation.images." in key]
def get_episode_index(row):
episode_index_per_cam = {}
for key in image_keys:
path = row[key][0]["path"]
match = re.search(r"_(\d{6}).mp4", path)
if not match:
raise ValueError(path)
episode_index = int(match.group(1))
episode_index_per_cam[key] = episode_index
if len(set(episode_index_per_cam.values())) != 1:
raise ValueError(
f"All cameras are expected to belong to the same episode, but getting {episode_index_per_cam}"
)
return episode_index
df["episode_index"] = df.apply(get_episode_index, axis=1)
# dora only use arrays, so single values are encapsulated into a list
df["frame_index"] = df.groupby("episode_index").cumcount()
df = df.reset_index()
df["index"] = df.index
# set 'next.done' to True for the last frame of each episode
df["next.done"] = False
df.loc[df.groupby("episode_index").tail(1).index, "next.done"] = True
df["timestamp"] = df["timestamp_utc"].map(lambda x: x.timestamp())
# each episode starts with timestamp 0 to match the ones from the video
df["timestamp"] = df.groupby("episode_index")["timestamp"].transform(lambda x: x - x.iloc[0])
del df["timestamp_utc"]
# sanity check
has_nan = df.isna().any().any()
if has_nan:
raise ValueError("Dataset contains Nan values.")
# sanity check episode indices go from 0 to n-1
ep_ids = [ep_idx for ep_idx, _ in df.groupby("episode_index")]
expected_ep_ids = list(range(df["episode_index"].max() + 1))
if ep_ids != expected_ep_ids:
raise ValueError(f"Episodes indices go from {ep_ids} instead of {expected_ep_ids}")
# Create symlink to raw videos directory (that needs to be absolute not relative)
videos_dir.parent.mkdir(parents=True, exist_ok=True)
videos_dir.symlink_to((raw_dir / "videos").absolute())
# sanity check the video paths are well formatted
for key in df:
if "observation.images." not in key:
continue
for ep_idx in ep_ids:
video_path = videos_dir / f"{key}_episode_{ep_idx:06d}.mp4"
if not video_path.exists():
raise ValueError(f"Video file not found in {video_path}")
data_dict = {}
for key in df:
# is video frame
if "observation.images." in key:
# we need `[0] because dora only use arrays, so single values are encapsulated into a list.
# it is the case for video_frame dictionary = [{"path": ..., "timestamp": ...}]
data_dict[key] = [video_frame[0] for video_frame in df[key].values]
# sanity check the video path is well formatted
video_path = videos_dir.parent / data_dict[key][0]["path"]
if not video_path.exists():
raise ValueError(f"Video file not found in {video_path}")
# is number
elif df[key].iloc[0].ndim == 0 or df[key].iloc[0].shape[0] == 1:
data_dict[key] = torch.from_numpy(df[key].values)
# is vector
elif df[key].iloc[0].shape[0] > 1:
data_dict[key] = torch.stack([torch.from_numpy(x.copy()) for x in df[key].values])
else:
raise ValueError(key)
return data_dict
def to_hf_dataset(data_dict, video) -> Dataset:
features = {}
keys = [key for key in data_dict if "observation.images." in key]
for key in keys:
if video:
features[key] = VideoFrame()
else:
features[key] = Image()
features["observation.state"] = Sequence(
length=data_dict["observation.state"].shape[1], feature=Value(dtype="float32", id=None)
)
if "observation.velocity" in data_dict:
features["observation.velocity"] = Sequence(
length=data_dict["observation.velocity"].shape[1], feature=Value(dtype="float32", id=None)
)
if "observation.effort" in data_dict:
features["observation.effort"] = Sequence(
length=data_dict["observation.effort"].shape[1], feature=Value(dtype="float32", id=None)
)
features["action"] = Sequence(
length=data_dict["action"].shape[1], feature=Value(dtype="float32", id=None)
)
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["next.done"] = Value(dtype="bool", id=None)
features["index"] = Value(dtype="int64", id=None)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
# sanity check
check_format(raw_dir)
if fps is None:
fps = 30
else:
raise NotImplementedError()
if not video:
raise NotImplementedError()
if encoding is not None:
warnings.warn(
"Video encoding is currently done outside of LeRobot for the dora_parquet format.",
stacklevel=1,
)
data_df = load_from_raw(raw_dir, videos_dir, fps, episodes)
hf_dataset = to_hf_dataset(data_df, video)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video,
}
if video:
info["encoding"] = "unknown"
return hf_dataset, episode_data_index, info

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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
For all datasets in the RLDS format.
For https://github.com/google-deepmind/open_x_embodiment (OPENX) datasets.
NOTE: You need to install tensorflow and tensorflow_datasets before running this script.
Example:
python lerobot/scripts/push_dataset_to_hub.py \
--raw-dir /path/to/data/bridge_dataset/1.0.0/ \
--repo-id your_hub/sampled_bridge_data_v2 \
--raw-format rlds \
--episodes 3 4 5 8 9
Exact dataset fps defined in openx/config.py, obtained from:
https://docs.google.com/spreadsheets/d/1rPBD77tk60AEIGZrGSODwyyzs5FgCU9Uz3h-3_t2A9g/edit?gid=0#gid=0&range=R:R
"""
import shutil
from pathlib import Path
import numpy as np
import tensorflow as tf
import tensorflow_datasets as tfds
import torch
import tqdm
from datasets import Dataset, Features, Image, Sequence, Value
from PIL import Image as PILImage
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub.utils import (
calculate_episode_data_index,
concatenate_episodes,
get_default_encoding,
save_images_concurrently,
)
from lerobot.common.datasets.utils import (
hf_transform_to_torch,
)
from lerobot.common.datasets.video_utils import VideoFrame, encode_video_frames
np.set_printoptions(precision=2)
def tf_to_torch(data):
return torch.from_numpy(data.numpy())
def tf_img_convert(img):
if img.dtype == tf.string:
img = tf.io.decode_image(img, expand_animations=False, dtype=tf.uint8)
elif img.dtype != tf.uint8:
raise ValueError(f"Unsupported image dtype: found with dtype {img.dtype}")
return img.numpy()
def _broadcast_metadata_rlds(i: tf.Tensor, traj: dict) -> dict:
"""
In the RLDS format, each trajectory has some top-level metadata that is explicitly separated out, and a "steps"
entry. This function moves the "steps" entry to the top level, broadcasting any metadata to the length of the
trajectory. This function also adds the extra metadata fields `_len`, `_traj_index`, and `_frame_index`.
NOTE: adapted from DLimp library https://github.com/kvablack/dlimp/
"""
steps = traj.pop("steps")
traj_len = tf.shape(tf.nest.flatten(steps)[0])[0]
# broadcast metadata to the length of the trajectory
metadata = tf.nest.map_structure(lambda x: tf.repeat(x, traj_len), traj)
# put steps back in
assert "traj_metadata" not in steps
traj = {**steps, "traj_metadata": metadata}
assert "_len" not in traj
assert "_traj_index" not in traj
assert "_frame_index" not in traj
traj["_len"] = tf.repeat(traj_len, traj_len)
traj["_traj_index"] = tf.repeat(i, traj_len)
traj["_frame_index"] = tf.range(traj_len)
return traj
def load_from_raw(
raw_dir: Path,
videos_dir: Path,
fps: int,
video: bool,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
"""
Args:
raw_dir (Path): _description_
videos_dir (Path): _description_
fps (int): _description_
video (bool): _description_
episodes (list[int] | None, optional): _description_. Defaults to None.
"""
ds_builder = tfds.builder_from_directory(str(raw_dir))
dataset = ds_builder.as_dataset(
split="all",
decoders={"steps": tfds.decode.SkipDecoding()},
)
dataset_info = ds_builder.info
print("dataset_info: ", dataset_info)
ds_length = len(dataset)
dataset = dataset.take(ds_length)
# "flatten" the dataset as such we can apply trajectory level map() easily
# each [obs][key] has a shape of (frame_size, ...)
dataset = dataset.enumerate().map(_broadcast_metadata_rlds)
# we will apply the standardization transform if the dataset_name is provided
# if the dataset name is not provided and the goal is to convert any rlds formatted dataset
# search for 'image' keys in the observations
image_keys = []
state_keys = []
observation_info = dataset_info.features["steps"]["observation"]
for key in observation_info:
# check whether the key is for an image or a vector observation
if len(observation_info[key].shape) == 3:
# only adding uint8 images discards depth images
if observation_info[key].dtype == tf.uint8:
image_keys.append(key)
else:
state_keys.append(key)
lang_key = "language_instruction" if "language_instruction" in dataset.element_spec else None
print(" - image_keys: ", image_keys)
print(" - lang_key: ", lang_key)
it = iter(dataset)
ep_dicts = []
# Init temp path to save ep_dicts in case of crash
tmp_ep_dicts_dir = videos_dir.parent.joinpath("ep_dicts")
tmp_ep_dicts_dir.mkdir(parents=True, exist_ok=True)
# check if ep_dicts have already been saved in /tmp
starting_ep_idx = 0
saved_ep_dicts = [ep.__str__() for ep in tmp_ep_dicts_dir.iterdir()]
if len(saved_ep_dicts) > 0:
saved_ep_dicts.sort()
# get last ep_idx number
starting_ep_idx = int(saved_ep_dicts[-1][-13:-3]) + 1
for i in range(starting_ep_idx):
episode = next(it)
ep_dicts.append(torch.load(saved_ep_dicts[i]))
# if we user specified episodes, skip the ones not in the list
if episodes is not None:
if ds_length == 0:
raise ValueError("No episodes found.")
# convert episodes index to sorted list
episodes = sorted(episodes)
for ep_idx in tqdm.tqdm(range(starting_ep_idx, ds_length)):
episode = next(it)
# if user specified episodes, skip the ones not in the list
if episodes is not None:
if len(episodes) == 0:
break
if ep_idx == episodes[0]:
# process this episode
print(" selecting episode idx: ", ep_idx)
episodes.pop(0)
else:
continue # skip
num_frames = episode["action"].shape[0]
ep_dict = {}
for key in state_keys:
ep_dict[f"observation.{key}"] = tf_to_torch(episode["observation"][key])
ep_dict["action"] = tf_to_torch(episode["action"])
ep_dict["next.reward"] = tf_to_torch(episode["reward"]).float()
ep_dict["next.done"] = tf_to_torch(episode["is_last"])
ep_dict["is_terminal"] = tf_to_torch(episode["is_terminal"])
ep_dict["is_first"] = tf_to_torch(episode["is_first"])
ep_dict["discount"] = tf_to_torch(episode["discount"])
# If lang_key is present, convert the entire tensor at once
if lang_key is not None:
ep_dict["language_instruction"] = [x.numpy().decode("utf-8") for x in episode[lang_key]]
ep_dict["timestamp"] = torch.arange(0, num_frames, 1) / fps
ep_dict["episode_index"] = torch.tensor([ep_idx] * num_frames)
ep_dict["frame_index"] = torch.arange(0, num_frames, 1)
image_array_dict = {key: [] for key in image_keys}
for im_key in image_keys:
imgs = episode["observation"][im_key]
image_array_dict[im_key] = [tf_img_convert(img) for img in imgs]
# loop through all cameras
for im_key in image_keys:
img_key = f"observation.images.{im_key}"
imgs_array = image_array_dict[im_key]
imgs_array = np.array(imgs_array)
if video:
# save png images in temporary directory
tmp_imgs_dir = videos_dir / "tmp_images"
save_images_concurrently(imgs_array, tmp_imgs_dir)
# encode images to a mp4 video
fname = f"{img_key}_episode_{ep_idx:06d}.mp4"
video_path = videos_dir / fname
encode_video_frames(tmp_imgs_dir, video_path, fps, **(encoding or {}))
# clean temporary images directory
shutil.rmtree(tmp_imgs_dir)
# store the reference to the video frame
ep_dict[img_key] = [
{"path": f"videos/{fname}", "timestamp": i / fps} for i in range(num_frames)
]
else:
ep_dict[img_key] = [PILImage.fromarray(x) for x in imgs_array]
path_ep_dict = tmp_ep_dicts_dir.joinpath(
"ep_dict_" + "0" * (10 - len(str(ep_idx))) + str(ep_idx) + ".pt"
)
torch.save(ep_dict, path_ep_dict)
ep_dicts.append(ep_dict)
data_dict = concatenate_episodes(ep_dicts)
total_frames = data_dict["frame_index"].shape[0]
data_dict["index"] = torch.arange(0, total_frames, 1)
return data_dict
def to_hf_dataset(data_dict, video) -> Dataset:
features = {}
for key in data_dict:
# check if vector state obs
if key.startswith("observation.") and "observation.images." not in key:
features[key] = Sequence(length=data_dict[key].shape[1], feature=Value(dtype="float32", id=None))
# check if image obs
elif "observation.images." in key:
if video:
features[key] = VideoFrame()
else:
features[key] = Image()
if "language_instruction" in data_dict:
features["language_instruction"] = Value(dtype="string", id=None)
features["action"] = Sequence(
length=data_dict["action"].shape[1], feature=Value(dtype="float32", id=None)
)
features["is_terminal"] = Value(dtype="bool", id=None)
features["is_first"] = Value(dtype="bool", id=None)
features["discount"] = Value(dtype="float32", id=None)
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["next.reward"] = Value(dtype="float32", id=None)
features["next.done"] = Value(dtype="bool", id=None)
features["index"] = Value(dtype="int64", id=None)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
data_dict = load_from_raw(raw_dir, videos_dir, fps, video, episodes, encoding)
hf_dataset = to_hf_dataset(data_dict, video)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video,
}
if video:
info["encoding"] = get_default_encoding()
return hf_dataset, episode_data_index, info

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lerobot/common/datasets/push_dataset_to_hub/pusht_zarr_format.py Normal file
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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Process zarr files formatted like in: https://github.com/real-stanford/diffusion_policy"""
import shutil
from pathlib import Path
import numpy as np
import torch
import tqdm
import zarr
from datasets import Dataset, Features, Image, Sequence, Value
from PIL import Image as PILImage
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub.utils import (
calculate_episode_data_index,
concatenate_episodes,
get_default_encoding,
save_images_concurrently,
)
from lerobot.common.datasets.utils import (
hf_transform_to_torch,
)
from lerobot.common.datasets.video_utils import VideoFrame, encode_video_frames
def check_format(raw_dir):
zarr_path = raw_dir / "pusht_cchi_v7_replay.zarr"
zarr_data = zarr.open(zarr_path, mode="r")
required_datasets = {
"data/action",
"data/img",
"data/keypoint",
"data/n_contacts",
"data/state",
"meta/episode_ends",
}
for dataset in required_datasets:
assert dataset in zarr_data
nb_frames = zarr_data["data/img"].shape[0]
required_datasets.remove("meta/episode_ends")
assert all(nb_frames == zarr_data[dataset].shape[0] for dataset in required_datasets)
def load_from_raw(
raw_dir: Path,
videos_dir: Path,
fps: int,
video: bool,
episodes: list[int] | None = None,
keypoints_instead_of_image: bool = False,
encoding: dict | None = None,
):
try:
import pymunk
from gym_pusht.envs.pusht import PushTEnv, pymunk_to_shapely
from lerobot.common.datasets.push_dataset_to_hub._diffusion_policy_replay_buffer import (
ReplayBuffer as DiffusionPolicyReplayBuffer,
)
except ModuleNotFoundError as e:
print("`gym_pusht` is not installed. Please install it with `pip install 'lerobot[gym_pusht]'`")
raise e
# as define in gmy-pusht env: https://github.com/huggingface/gym-pusht/blob/e0684ff988d223808c0a9dcfaba9dc4991791370/gym_pusht/envs/pusht.py#L174
success_threshold = 0.95 # 95% coverage,
zarr_path = raw_dir / "pusht_cchi_v7_replay.zarr"
zarr_data = DiffusionPolicyReplayBuffer.copy_from_path(zarr_path)
episode_ids = torch.from_numpy(zarr_data.get_episode_idxs())
assert len(
{zarr_data[key].shape[0] for key in zarr_data.keys()} # noqa: SIM118
), "Some data type dont have the same number of total frames."
# TODO(rcadene): verify that goal pose is expected to be fixed
goal_pos_angle = np.array([256, 256, np.pi / 4]) # x, y, theta (in radians)
goal_body = PushTEnv.get_goal_pose_body(goal_pos_angle)
imgs = torch.from_numpy(zarr_data["img"]) # b h w c
states = torch.from_numpy(zarr_data["state"])
actions = torch.from_numpy(zarr_data["action"])
# load data indices from which each episode starts and ends
from_ids, to_ids = [], []
from_idx = 0
for to_idx in zarr_data.meta["episode_ends"]:
from_ids.append(from_idx)
to_ids.append(to_idx)
from_idx = to_idx
num_episodes = len(from_ids)
ep_dicts = []
ep_ids = episodes if episodes else range(num_episodes)
for ep_idx, selected_ep_idx in tqdm.tqdm(enumerate(ep_ids)):
from_idx = from_ids[selected_ep_idx]
to_idx = to_ids[selected_ep_idx]
num_frames = to_idx - from_idx
# sanity check
assert (episode_ids[from_idx:to_idx] == ep_idx).all()
# get image
if not keypoints_instead_of_image:
image = imgs[from_idx:to_idx]
assert image.min() >= 0.0
assert image.max() <= 255.0
image = image.type(torch.uint8)
# get state
state = states[from_idx:to_idx]
agent_pos = state[:, :2]
block_pos = state[:, 2:4]
block_angle = state[:, 4]
# get reward, success, done, and (maybe) keypoints
reward = torch.zeros(num_frames)
success = torch.zeros(num_frames, dtype=torch.bool)
if keypoints_instead_of_image:
keypoints = torch.zeros(num_frames, 16) # 8 keypoints each with 2 coords
done = torch.zeros(num_frames, dtype=torch.bool)
for i in range(num_frames):
space = pymunk.Space()
space.gravity = 0, 0
space.damping = 0
# Add walls.
walls = [
PushTEnv.add_segment(space, (5, 506), (5, 5), 2),
PushTEnv.add_segment(space, (5, 5), (506, 5), 2),
PushTEnv.add_segment(space, (506, 5), (506, 506), 2),
PushTEnv.add_segment(space, (5, 506), (506, 506), 2),
]
space.add(*walls)
block_body, block_shapes = PushTEnv.add_tee(space, block_pos[i].tolist(), block_angle[i].item())
goal_geom = pymunk_to_shapely(goal_body, block_body.shapes)
block_geom = pymunk_to_shapely(block_body, block_body.shapes)
intersection_area = goal_geom.intersection(block_geom).area
goal_area = goal_geom.area
coverage = intersection_area / goal_area
reward[i] = np.clip(coverage / success_threshold, 0, 1)
success[i] = coverage > success_threshold
if keypoints_instead_of_image:
keypoints[i] = torch.from_numpy(PushTEnv.get_keypoints(block_shapes).flatten())
# last step of demonstration is considered done
done[-1] = True
ep_dict = {}
if not keypoints_instead_of_image:
imgs_array = [x.numpy() for x in image]
img_key = "observation.image"
if video:
# save png images in temporary directory
tmp_imgs_dir = videos_dir / "tmp_images"
save_images_concurrently(imgs_array, tmp_imgs_dir)
# encode images to a mp4 video
fname = f"{img_key}_episode_{ep_idx:06d}.mp4"
video_path = videos_dir / fname
encode_video_frames(tmp_imgs_dir, video_path, fps, **(encoding or {}))
# clean temporary images directory
shutil.rmtree(tmp_imgs_dir)
# store the reference to the video frame
ep_dict[img_key] = [
{"path": f"videos/{fname}", "timestamp": i / fps} for i in range(num_frames)
]
else:
ep_dict[img_key] = [PILImage.fromarray(x) for x in imgs_array]
ep_dict["observation.state"] = agent_pos
if keypoints_instead_of_image:
ep_dict["observation.environment_state"] = keypoints
ep_dict["action"] = actions[from_idx:to_idx]
ep_dict["episode_index"] = torch.tensor([ep_idx] * num_frames, dtype=torch.int64)
ep_dict["frame_index"] = torch.arange(0, num_frames, 1)
ep_dict["timestamp"] = torch.arange(0, num_frames, 1) / fps
# ep_dict["next.observation.image"] = image[1:],
# ep_dict["next.observation.state"] = agent_pos[1:],
# TODO(rcadene)] = verify that reward and done are aligned with image and agent_pos
ep_dict["next.reward"] = torch.cat([reward[1:], reward[[-1]]])
ep_dict["next.done"] = torch.cat([done[1:], done[[-1]]])
ep_dict["next.success"] = torch.cat([success[1:], success[[-1]]])
ep_dicts.append(ep_dict)
data_dict = concatenate_episodes(ep_dicts)
total_frames = data_dict["frame_index"].shape[0]
data_dict["index"] = torch.arange(0, total_frames, 1)
return data_dict
def to_hf_dataset(data_dict, video, keypoints_instead_of_image: bool = False):
features = {}
if not keypoints_instead_of_image:
if video:
features["observation.image"] = VideoFrame()
else:
features["observation.image"] = Image()
features["observation.state"] = Sequence(
length=data_dict["observation.state"].shape[1], feature=Value(dtype="float32", id=None)
)
if keypoints_instead_of_image:
features["observation.environment_state"] = Sequence(
length=data_dict["observation.environment_state"].shape[1],
feature=Value(dtype="float32", id=None),
)
features["action"] = Sequence(
length=data_dict["action"].shape[1], feature=Value(dtype="float32", id=None)
)
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["next.reward"] = Value(dtype="float32", id=None)
features["next.done"] = Value(dtype="bool", id=None)
features["next.success"] = Value(dtype="bool", id=None)
features["index"] = Value(dtype="int64", id=None)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
# Manually change this to True to use keypoints of the T instead of an image observation (but don't merge
# with True). Also make sure to use video = 0 in the `push_dataset_to_hub.py` script.
keypoints_instead_of_image = False
# sanity check
check_format(raw_dir)
if fps is None:
fps = 10
data_dict = load_from_raw(raw_dir, videos_dir, fps, video, episodes, keypoints_instead_of_image, encoding)
hf_dataset = to_hf_dataset(data_dict, video, keypoints_instead_of_image)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video if not keypoints_instead_of_image else 0,
}
if video:
info["encoding"] = get_default_encoding()
return hf_dataset, episode_data_index, info

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lerobot/common/datasets/push_dataset_to_hub/umi_zarr_format.py Normal file
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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Process UMI (Universal Manipulation Interface) data stored in Zarr format like in: https://github.com/real-stanford/universal_manipulation_interface"""
import logging
import shutil
from pathlib import Path
import torch
import tqdm
import zarr
from datasets import Dataset, Features, Image, Sequence, Value
from PIL import Image as PILImage
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub._umi_imagecodecs_numcodecs import register_codecs
from lerobot.common.datasets.push_dataset_to_hub.utils import (
calculate_episode_data_index,
concatenate_episodes,
get_default_encoding,
save_images_concurrently,
)
from lerobot.common.datasets.utils import (
hf_transform_to_torch,
)
from lerobot.common.datasets.video_utils import VideoFrame, encode_video_frames
def check_format(raw_dir) -> bool:
zarr_path = raw_dir / "cup_in_the_wild.zarr"
zarr_data = zarr.open(zarr_path, mode="r")
required_datasets = {
"data/robot0_demo_end_pose",
"data/robot0_demo_start_pose",
"data/robot0_eef_pos",
"data/robot0_eef_rot_axis_angle",
"data/robot0_gripper_width",
"meta/episode_ends",
"data/camera0_rgb",
}
for dataset in required_datasets:
if dataset not in zarr_data:
return False
# mandatory to access zarr_data
register_codecs()
nb_frames = zarr_data["data/camera0_rgb"].shape[0]
required_datasets.remove("meta/episode_ends")
assert all(nb_frames == zarr_data[dataset].shape[0] for dataset in required_datasets)
def load_from_raw(
raw_dir: Path,
videos_dir: Path,
fps: int,
video: bool,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
zarr_path = raw_dir / "cup_in_the_wild.zarr"
zarr_data = zarr.open(zarr_path, mode="r")
# We process the image data separately because it is too large to fit in memory
end_pose = torch.from_numpy(zarr_data["data/robot0_demo_end_pose"][:])
start_pos = torch.from_numpy(zarr_data["data/robot0_demo_start_pose"][:])
eff_pos = torch.from_numpy(zarr_data["data/robot0_eef_pos"][:])
eff_rot_axis_angle = torch.from_numpy(zarr_data["data/robot0_eef_rot_axis_angle"][:])
gripper_width = torch.from_numpy(zarr_data["data/robot0_gripper_width"][:])
states_pos = torch.cat([eff_pos, eff_rot_axis_angle], dim=1)
states = torch.cat([states_pos, gripper_width], dim=1)
episode_ends = zarr_data["meta/episode_ends"][:]
num_episodes = episode_ends.shape[0]
# We convert it in torch tensor later because the jit function does not support torch tensors
episode_ends = torch.from_numpy(episode_ends)
# load data indices from which each episode starts and ends
from_ids, to_ids = [], []
from_idx = 0
for to_idx in episode_ends:
from_ids.append(from_idx)
to_ids.append(to_idx)
from_idx = to_idx
ep_dicts_dir = videos_dir / "ep_dicts"
ep_dicts_dir.mkdir(exist_ok=True, parents=True)
ep_dicts = []
ep_ids = episodes if episodes else range(num_episodes)
for ep_idx, selected_ep_idx in tqdm.tqdm(enumerate(ep_ids)):
ep_dict_path = ep_dicts_dir / f"{ep_idx}"
if not ep_dict_path.is_file():
from_idx = from_ids[selected_ep_idx]
to_idx = to_ids[selected_ep_idx]
num_frames = to_idx - from_idx
# TODO(rcadene): save temporary images of the episode?
state = states[from_idx:to_idx]
ep_dict = {}
# load 57MB of images in RAM (400x224x224x3 uint8)
imgs_array = zarr_data["data/camera0_rgb"][from_idx:to_idx]
img_key = "observation.image"
if video:
fname = f"{img_key}_episode_{ep_idx:06d}.mp4"
video_path = videos_dir / fname
if not video_path.is_file():
# save png images in temporary directory
tmp_imgs_dir = videos_dir / "tmp_images"
save_images_concurrently(imgs_array, tmp_imgs_dir)
# encode images to a mp4 video
encode_video_frames(tmp_imgs_dir, video_path, fps, **(encoding or {}))
# clean temporary images directory
shutil.rmtree(tmp_imgs_dir)
# store the reference to the video frame
ep_dict[img_key] = [
{"path": f"videos/{fname}", "timestamp": i / fps} for i in range(num_frames)
]
else:
ep_dict[img_key] = [PILImage.fromarray(x) for x in imgs_array]
ep_dict["observation.state"] = state
ep_dict["episode_index"] = torch.tensor([ep_idx] * num_frames, dtype=torch.int64)
ep_dict["frame_index"] = torch.arange(0, num_frames, 1)
ep_dict["timestamp"] = torch.arange(0, num_frames, 1) / fps
ep_dict["episode_data_index_from"] = torch.tensor([from_idx] * num_frames)
ep_dict["episode_data_index_to"] = torch.tensor([from_idx + num_frames] * num_frames)
ep_dict["end_pose"] = end_pose[from_idx:to_idx]
ep_dict["start_pos"] = start_pos[from_idx:to_idx]
ep_dict["gripper_width"] = gripper_width[from_idx:to_idx]
torch.save(ep_dict, ep_dict_path)
else:
ep_dict = torch.load(ep_dict_path)
ep_dicts.append(ep_dict)
data_dict = concatenate_episodes(ep_dicts)
total_frames = data_dict["frame_index"].shape[0]
data_dict["index"] = torch.arange(0, total_frames, 1)
return data_dict
def to_hf_dataset(data_dict, video):
features = {}
if video:
features["observation.image"] = VideoFrame()
else:
features["observation.image"] = Image()
features["observation.state"] = Sequence(
length=data_dict["observation.state"].shape[1], feature=Value(dtype="float32", id=None)
)
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["index"] = Value(dtype="int64", id=None)
features["episode_data_index_from"] = Value(dtype="int64", id=None)
features["episode_data_index_to"] = Value(dtype="int64", id=None)
# `start_pos` and `end_pos` respectively represent the positions of the end-effector
# at the beginning and the end of the episode.
# `gripper_width` indicates the distance between the grippers, and this value is included
# in the state vector, which comprises the concatenation of the end-effector position
# and gripper width.
features["end_pose"] = Sequence(
length=data_dict["end_pose"].shape[1], feature=Value(dtype="float32", id=None)
)
features["start_pos"] = Sequence(
length=data_dict["start_pos"].shape[1], feature=Value(dtype="float32", id=None)
)
features["gripper_width"] = Sequence(
length=data_dict["gripper_width"].shape[1], feature=Value(dtype="float32", id=None)
)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
# sanity check
check_format(raw_dir)
if fps is None:
# For umi cup in the wild: https://arxiv.org/pdf/2402.10329#table.caption.16
fps = 10
if not video:
logging.warning(
"Generating UMI dataset without `video=True` creates ~150GB on disk and requires ~80GB in RAM."
)
data_dict = load_from_raw(raw_dir, videos_dir, fps, video, episodes, encoding)
hf_dataset = to_hf_dataset(data_dict, video)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video,
}
if video:
info["encoding"] = get_default_encoding()
return hf_dataset, episode_data_index, info

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#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Process pickle files formatted like in: https://github.com/fyhMer/fowm"""
import pickle
import shutil
from pathlib import Path
import einops
import torch
import tqdm
from datasets import Dataset, Features, Image, Sequence, Value
from PIL import Image as PILImage
from lerobot.common.datasets.lerobot_dataset import CODEBASE_VERSION
from lerobot.common.datasets.push_dataset_to_hub.utils import (
calculate_episode_data_index,
concatenate_episodes,
get_default_encoding,
save_images_concurrently,
)
from lerobot.common.datasets.utils import (
hf_transform_to_torch,
)
from lerobot.common.datasets.video_utils import VideoFrame, encode_video_frames
def check_format(raw_dir):
keys = {"actions", "rewards", "dones"}
nested_keys = {"observations": {"rgb", "state"}, "next_observations": {"rgb", "state"}}
xarm_files = list(raw_dir.glob("*.pkl"))
assert len(xarm_files) > 0
with open(xarm_files[0], "rb") as f:
dataset_dict = pickle.load(f)
assert isinstance(dataset_dict, dict)
assert all(k in dataset_dict for k in keys)
# Check for consistent lengths in nested keys
expected_len = len(dataset_dict["actions"])
assert all(len(dataset_dict[key]) == expected_len for key in keys if key in dataset_dict)
for key, subkeys in nested_keys.items():
nested_dict = dataset_dict.get(key, {})
assert all(len(nested_dict[subkey]) == expected_len for subkey in subkeys if subkey in nested_dict)
def load_from_raw(
raw_dir: Path,
videos_dir: Path,
fps: int,
video: bool,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
pkl_path = raw_dir / "buffer.pkl"
with open(pkl_path, "rb") as f:
pkl_data = pickle.load(f)
# load data indices from which each episode starts and ends
from_ids, to_ids = [], []
from_idx, to_idx = 0, 0
for done in pkl_data["dones"]:
to_idx += 1
if not done:
continue
from_ids.append(from_idx)
to_ids.append(to_idx)
from_idx = to_idx
num_episodes = len(from_ids)
ep_dicts = []
ep_ids = episodes if episodes else range(num_episodes)
for ep_idx, selected_ep_idx in tqdm.tqdm(enumerate(ep_ids)):
from_idx = from_ids[selected_ep_idx]
to_idx = to_ids[selected_ep_idx]
num_frames = to_idx - from_idx
image = torch.tensor(pkl_data["observations"]["rgb"][from_idx:to_idx])
image = einops.rearrange(image, "b c h w -> b h w c")
state = torch.tensor(pkl_data["observations"]["state"][from_idx:to_idx])
action = torch.tensor(pkl_data["actions"][from_idx:to_idx])
# TODO(rcadene): we have a missing last frame which is the observation when the env is done
# it is critical to have this frame for tdmpc to predict a "done observation/state"
# next_image = torch.tensor(pkl_data["next_observations"]["rgb"][from_idx:to_idx])
# next_state = torch.tensor(pkl_data["next_observations"]["state"][from_idx:to_idx])
next_reward = torch.tensor(pkl_data["rewards"][from_idx:to_idx])
next_done = torch.tensor(pkl_data["dones"][from_idx:to_idx])
ep_dict = {}
imgs_array = [x.numpy() for x in image]
img_key = "observation.image"
if video:
# save png images in temporary directory
tmp_imgs_dir = videos_dir / "tmp_images"
save_images_concurrently(imgs_array, tmp_imgs_dir)
# encode images to a mp4 video
fname = f"{img_key}_episode_{ep_idx:06d}.mp4"
video_path = videos_dir / fname
encode_video_frames(tmp_imgs_dir, video_path, fps, **(encoding or {}))
# clean temporary images directory
shutil.rmtree(tmp_imgs_dir)
# store the reference to the video frame
ep_dict[img_key] = [{"path": f"videos/{fname}", "timestamp": i / fps} for i in range(num_frames)]
else:
ep_dict[img_key] = [PILImage.fromarray(x) for x in imgs_array]
ep_dict["observation.state"] = state
ep_dict["action"] = action
ep_dict["episode_index"] = torch.tensor([ep_idx] * num_frames, dtype=torch.int64)
ep_dict["frame_index"] = torch.arange(0, num_frames, 1)
ep_dict["timestamp"] = torch.arange(0, num_frames, 1) / fps
# ep_dict["next.observation.image"] = next_image
# ep_dict["next.observation.state"] = next_state
ep_dict["next.reward"] = next_reward
ep_dict["next.done"] = next_done
ep_dicts.append(ep_dict)
data_dict = concatenate_episodes(ep_dicts)
total_frames = data_dict["frame_index"].shape[0]
data_dict["index"] = torch.arange(0, total_frames, 1)
return data_dict
def to_hf_dataset(data_dict, video):
features = {}
if video:
features["observation.image"] = VideoFrame()
else:
features["observation.image"] = Image()
features["observation.state"] = Sequence(
length=data_dict["observation.state"].shape[1], feature=Value(dtype="float32", id=None)
)
features["action"] = Sequence(
length=data_dict["action"].shape[1], feature=Value(dtype="float32", id=None)
)
features["episode_index"] = Value(dtype="int64", id=None)
features["frame_index"] = Value(dtype="int64", id=None)
features["timestamp"] = Value(dtype="float32", id=None)
features["next.reward"] = Value(dtype="float32", id=None)
features["next.done"] = Value(dtype="bool", id=None)
features["index"] = Value(dtype="int64", id=None)
# TODO(rcadene): add success
# features["next.success"] = Value(dtype='bool', id=None)
hf_dataset = Dataset.from_dict(data_dict, features=Features(features))
hf_dataset.set_transform(hf_transform_to_torch)
return hf_dataset
def from_raw_to_lerobot_format(
raw_dir: Path,
videos_dir: Path,
fps: int | None = None,
video: bool = True,
episodes: list[int] | None = None,
encoding: dict | None = None,
):
# sanity check
check_format(raw_dir)
if fps is None:
fps = 15
data_dict = load_from_raw(raw_dir, videos_dir, fps, video, episodes, encoding)
hf_dataset = to_hf_dataset(data_dict, video)
episode_data_index = calculate_episode_data_index(hf_dataset)
info = {
"codebase_version": CODEBASE_VERSION,
"fps": fps,
"video": video,
}
if video:
info["encoding"] = get_default_encoding()
return hf_dataset, episode_data_index, info

2
lerobot/common/datasets/utils.py
View File

@@ -240,7 +240,7 @@ def load_episodes_stats(local_dir: Path) -> dict:
def backward_compatible_episodes_stats(
stats: dict[str, dict[str, np.ndarray]], episodes: list[int]
) -> dict[str, dict[str, np.ndarray]]:
return dict.fromkeys(episodes, stats)
return {ep_idx: stats for ep_idx in episodes}
def load_image_as_numpy(

2
lerobot/common/datasets/v2/convert_dataset_v1_to_v2.py
View File

@@ -481,7 +481,7 @@ def convert_dataset(
# Tasks
if single_task:
tasks_by_episodes = dict.fromkeys(episode_indices, single_task)
tasks_by_episodes = {ep_idx: single_task for ep_idx in episode_indices}
dataset, tasks = add_task_index_by_episodes(dataset, tasks_by_episodes)
tasks_by_episodes = {ep_idx: [task] for ep_idx, task in tasks_by_episodes.items()}
elif tasks_path:

117
lerobot/common/datasets/video_utils.py
View File

@@ -13,7 +13,6 @@
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import importlib
import json
import logging
import subprocess
@@ -30,46 +29,6 @@ from datasets.features.features import register_feature
from PIL import Image
def get_safe_default_codec():
if importlib.util.find_spec("torchcodec"):
return "torchcodec"
else:
logging.warning(
"'torchcodec' is not available in your platform, falling back to 'pyav' as a default decoder"
)
return "pyav"
def decode_video_frames(
video_path: Path | str,
timestamps: list[float],
tolerance_s: float,
backend: str | None = None,
) -> torch.Tensor:
"""
Decodes video frames using the specified backend.
Args:
video_path (Path): Path to the video file.
timestamps (list[float]): List of timestamps to extract frames.
tolerance_s (float): Allowed deviation in seconds for frame retrieval.
backend (str, optional): Backend to use for decoding. Defaults to "torchcodec" when available in the platform; otherwise, defaults to "pyav"..
Returns:
torch.Tensor: Decoded frames.
Currently supports torchcodec on cpu and pyav.
"""
if backend is None:
backend = get_safe_default_codec()
if backend == "torchcodec":
return decode_video_frames_torchcodec(video_path, timestamps, tolerance_s)
elif backend in ["pyav", "video_reader"]:
return decode_video_frames_torchvision(video_path, timestamps, tolerance_s, backend)
else:
raise ValueError(f"Unsupported video backend: {backend}")
def decode_video_frames_torchvision(
video_path: Path | str,
timestamps: list[float],
@@ -168,81 +127,6 @@ def decode_video_frames_torchvision(
return closest_frames
def decode_video_frames_torchcodec(
video_path: Path | str,
timestamps: list[float],
tolerance_s: float,
device: str = "cpu",
log_loaded_timestamps: bool = False,
) -> torch.Tensor:
"""Loads frames associated with the requested timestamps of a video using torchcodec.
Note: Setting device="cuda" outside the main process, e.g. in data loader workers, will lead to CUDA initialization errors.
Note: Video benefits from inter-frame compression. Instead of storing every frame individually,
the encoder stores a reference frame (or a key frame) and subsequent frames as differences relative to
that key frame. As a consequence, to access a requested frame, we need to load the preceding key frame,
and all subsequent frames until reaching the requested frame. The number of key frames in a video
can be adjusted during encoding to take into account decoding time and video size in bytes.
"""
if importlib.util.find_spec("torchcodec"):
from torchcodec.decoders import VideoDecoder
else:
raise ImportError("torchcodec is required but not available.")
# initialize video decoder
decoder = VideoDecoder(video_path, device=device, seek_mode="approximate")
loaded_frames = []
loaded_ts = []
# get metadata for frame information
metadata = decoder.metadata
average_fps = metadata.average_fps
# convert timestamps to frame indices
frame_indices = [round(ts * average_fps) for ts in timestamps]
# retrieve frames based on indices
frames_batch = decoder.get_frames_at(indices=frame_indices)
for frame, pts in zip(frames_batch.data, frames_batch.pts_seconds, strict=False):
loaded_frames.append(frame)
loaded_ts.append(pts.item())
if log_loaded_timestamps:
logging.info(f"Frame loaded at timestamp={pts:.4f}")
query_ts = torch.tensor(timestamps)
loaded_ts = torch.tensor(loaded_ts)
# compute distances between each query timestamp and loaded timestamps
dist = torch.cdist(query_ts[:, None], loaded_ts[:, None], p=1)
min_, argmin_ = dist.min(1)
is_within_tol = min_ < tolerance_s
assert is_within_tol.all(), (
f"One or several query timestamps unexpectedly violate the tolerance ({min_[~is_within_tol]} > {tolerance_s=})."
"It means that the closest frame that can be loaded from the video is too far away in time."
"This might be due to synchronization issues with timestamps during data collection."
"To be safe, we advise to ignore this item during training."
f"\nqueried timestamps: {query_ts}"
f"\nloaded timestamps: {loaded_ts}"
f"\nvideo: {video_path}"
)
# get closest frames to the query timestamps
closest_frames = torch.stack([loaded_frames[idx] for idx in argmin_])
closest_ts = loaded_ts[argmin_]
if log_loaded_timestamps:
logging.info(f"{closest_ts=}")
# convert to float32 in [0,1] range (channel first)
closest_frames = closest_frames.type(torch.float32) / 255
assert len(timestamps) == len(closest_frames)
return closest_frames
def encode_video_frames(
imgs_dir: Path | str,
video_path: Path | str,
@@ -257,7 +141,6 @@ def encode_video_frames(
) -> None:
"""More info on ffmpeg arguments tuning on `benchmark/video/README.md`"""
video_path = Path(video_path)
imgs_dir = Path(imgs_dir)
video_path.parent.mkdir(parents=True, exist_ok=True)
ffmpeg_args = OrderedDict(

39
lerobot/common/envs/utils.py
View File

@@ -13,11 +13,7 @@
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import warnings
from typing import Any
import einops
import gymnasium as gym
import numpy as np
import torch
from torch import Tensor
@@ -90,38 +86,3 @@ def env_to_policy_features(env_cfg: EnvConfig) -> dict[str, PolicyFeature]:
policy_features[policy_key] = feature
return policy_features
def are_all_envs_same_type(env: gym.vector.VectorEnv) -> bool:
first_type = type(env.envs[0]) # Get type of first env
return all(type(e) is first_type for e in env.envs) # Fast type check
def check_env_attributes_and_types(env: gym.vector.VectorEnv) -> None:
with warnings.catch_warnings():
warnings.simplefilter("once", UserWarning) # Apply filter only in this function
if not (hasattr(env.envs[0], "task_description") and hasattr(env.envs[0], "task")):
warnings.warn(
"The environment does not have 'task_description' and 'task'. Some policies require these features.",
UserWarning,
stacklevel=2,
)
if not are_all_envs_same_type(env):
warnings.warn(
"The environments have different types. Make sure you infer the right task from each environment. Empty task will be passed instead.",
UserWarning,
stacklevel=2,
)
def add_envs_task(env: gym.vector.VectorEnv, observation: dict[str, Any]) -> dict[str, Any]:
"""Adds task feature to the observation dict with respect to the first environment attribute."""
if hasattr(env.envs[0], "task_description"):
observation["task"] = env.call("task_description")
elif hasattr(env.envs[0], "task"):
observation["task"] = env.call("task")
else: # For envs without language instructions, e.g. aloha transfer cube and etc.
num_envs = observation[list(observation.keys())[0]].shape[0]
observation["task"] = ["" for _ in range(num_envs)]
return observation

4
lerobot/common/motors/__init__.py
View File

@@ -1 +1,3 @@
from .motors_bus import Motor, MotorCalibration, MotorNormMode, MotorsBus
from .motors_bus import MotorsBus
__all__ = ["MotorsBus"]

5
lerobot/common/motors/dynamixel/__init__.py
View File

@@ -1,3 +1,4 @@
from .dynamixel import DriveMode, DynamixelMotorsBus, OperatingMode, TorqueMode
from .dynamixel import DynamixelMotorsBus, TorqueMode, set_operating_mode
from .dynamixel_calibration import run_arm_calibration
from .tables import *
__all__ = ["DynamixelMotorsBus", "TorqueMode", "set_operating_mode", "run_arm_calibration"]

965
lerobot/common/motors/dynamixel/dynamixel.py
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38
lerobot/common/motors/dynamixel/dynamixel_calibration.py
View File

@@ -17,9 +17,12 @@
import numpy as np
from ..motors_bus import MotorNormMode, MotorsBus
from .dynamixel import TorqueMode
from .tables import MODEL_RESOLUTION
from ..motors_bus import MotorsBus
from .dynamixel import (
CalibrationMode,
TorqueMode,
convert_degrees_to_steps,
)
URL_TEMPLATE = (
"https://raw.githubusercontent.com/huggingface/lerobot/main/media/{robot}/{arm}_{position}.webp"
@@ -46,17 +49,6 @@ def apply_drive_mode(position, drive_mode):
return position
def convert_degrees_to_steps(degrees: float | np.ndarray, models: str | list[str]) -> np.ndarray:
"""This function converts the degree range to the step range for indicating motors rotation.
It assumes a motor achieves a full rotation by going from -180 degree position to +180.
The motor resolution (e.g. 4096) corresponds to the number of steps needed to achieve a full rotation.
"""
resolutions = [MODEL_RESOLUTION[model] for model in models]
steps = degrees / 180 * np.array(resolutions) / 2
steps = steps.astype(int)
return steps
def compute_nearest_rounded_position(position, models):
delta_turn = convert_degrees_to_steps(ROTATED_POSITION_DEGREE, models)
nearest_pos = np.round(position.astype(float) / delta_turn) * delta_turn
@@ -97,11 +89,11 @@ def run_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type
# We arbitrarily chose our zero target position to be a straight horizontal position with gripper upwards and closed.
# It is easy to identify and all motors are in a "quarter turn" position. Once calibration is done, this position will
# correspond to every motor angle being 0. If you set all 0 as Goal Position, the arm will move in this position.
zero_target_pos = convert_degrees_to_steps(ZERO_POSITION_DEGREE, arm.models)
zero_target_pos = convert_degrees_to_steps(ZERO_POSITION_DEGREE, arm.motor_models)
# Compute homing offset so that `present_position + homing_offset ~= target_position`.
zero_pos = arm.read("Present_Position")
zero_nearest_pos = compute_nearest_rounded_position(zero_pos, arm.models)
zero_nearest_pos = compute_nearest_rounded_position(zero_pos, arm.motor_models)
homing_offset = zero_target_pos - zero_nearest_pos
# The rotated target position corresponds to a rotation of a quarter turn from the zero position.
@@ -115,7 +107,7 @@ def run_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type
print("See: " + URL_TEMPLATE.format(robot=robot_type, arm=arm_type, position="rotated"))
input("Press Enter to continue...")
rotated_target_pos = convert_degrees_to_steps(ROTATED_POSITION_DEGREE, arm.models)
rotated_target_pos = convert_degrees_to_steps(ROTATED_POSITION_DEGREE, arm.motor_models)
# Find drive mode by rotating each motor by a quarter of a turn.
# Drive mode indicates if the motor rotation direction should be inverted (=1) or not (=0).
@@ -124,7 +116,7 @@ def run_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type
# Re-compute homing offset to take into account drive mode
rotated_drived_pos = apply_drive_mode(rotated_pos, drive_mode)
rotated_nearest_pos = compute_nearest_rounded_position(rotated_drived_pos, arm.models)
rotated_nearest_pos = compute_nearest_rounded_position(rotated_drived_pos, arm.motor_models)
homing_offset = rotated_target_pos - rotated_nearest_pos
print("\nMove arm to rest position")
@@ -133,13 +125,13 @@ def run_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type
print()
# Joints with rotational motions are expressed in degrees in nominal range of [-180, 180]
calib_mode = [MotorNormMode.DEGREE.name] * len(arm.names)
calib_mode = [CalibrationMode.DEGREE.name] * len(arm.motor_names)
# TODO(rcadene): make type of joints (DEGREE or LINEAR) configurable from yaml?
if robot_type in ["aloha"] and "gripper" in arm.names:
if robot_type in ["aloha"] and "gripper" in arm.motor_names:
# Joints with linear motions (like gripper of Aloha) are expressed in nominal range of [0, 100]
calib_idx = arm.names.index("gripper")
calib_mode[calib_idx] = MotorNormMode.LINEAR.name
calib_idx = arm.motor_names.index("gripper")
calib_mode[calib_idx] = CalibrationMode.LINEAR.name
calib_data = {
"homing_offset": homing_offset.tolist(),
@@ -147,6 +139,6 @@ def run_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type
"start_pos": zero_pos.tolist(),
"end_pos": rotated_pos.tolist(),
"calib_mode": calib_mode,
"motor_names": arm.names,
"motor_names": arm.motor_names,
}
return calib_data

162
lerobot/common/motors/dynamixel/tables.py
View File

@@ -1,162 +0,0 @@
# {data_name: (address, size_byte)}
# https://emanual.robotis.com/docs/en/dxl/x/{MODEL}/#control-table
X_SERIES_CONTROL_TABLE = {
"Model_Number": (0, 2),
"Model_Information": (2, 4),
"Firmware_Version": (6, 1),
"ID": (7, 1),
"Baud_Rate": (8, 1),
"Return_Delay_Time": (9, 1),
"Drive_Mode": (10, 1),
"Operating_Mode": (11, 1),
"Secondary_ID": (12, 1),
"Protocol_Type": (13, 1),
"Homing_Offset": (20, 4),
"Moving_Threshold": (24, 4),
"Temperature_Limit": (31, 1),
"Max_Voltage_Limit": (32, 2),
"Min_Voltage_Limit": (34, 2),
"PWM_Limit": (36, 2),
"Current_Limit": (38, 2),
"Acceleration_Limit": (40, 4),
"Velocity_Limit": (44, 4),
"Max_Position_Limit": (48, 4),
"Min_Position_Limit": (52, 4),
"Shutdown": (63, 1),
"Torque_Enable": (64, 1),
"LED": (65, 1),
"Status_Return_Level": (68, 1),
"Registered_Instruction": (69, 1),
"Hardware_Error_Status": (70, 1),
"Velocity_I_Gain": (76, 2),
"Velocity_P_Gain": (78, 2),
"Position_D_Gain": (80, 2),
"Position_I_Gain": (82, 2),
"Position_P_Gain": (84, 2),
"Feedforward_2nd_Gain": (88, 2),
"Feedforward_1st_Gain": (90, 2),
"Bus_Watchdog": (98, 1),
"Goal_PWM": (100, 2),
"Goal_Current": (102, 2),
"Goal_Velocity": (104, 4),
"Profile_Acceleration": (108, 4),
"Profile_Velocity": (112, 4),
"Goal_Position": (116, 4),
"Realtime_Tick": (120, 2),
"Moving": (122, 1),
"Moving_Status": (123, 1),
"Present_PWM": (124, 2),
"Present_Current": (126, 2),
"Present_Velocity": (128, 4),
"Present_Position": (132, 4),
"Velocity_Trajectory": (136, 4),
"Position_Trajectory": (140, 4),
"Present_Input_Voltage": (144, 2),
"Present_Temperature": (146, 1),
}
# https://emanual.robotis.com/docs/en/dxl/x/{MODEL}/#baud-rate8
X_SERIES_BAUDRATE_TABLE = {
0: 9_600,
1: 57_600,
2: 115_200,
3: 1_000_000,
4: 2_000_000,
5: 3_000_000,
6: 4_000_000,
}
# {data_name: size_byte}
X_SERIES_ENCODINGS_TABLE = {
"Homing_Offset": X_SERIES_CONTROL_TABLE["Homing_Offset"][1],
"Goal_PWM": X_SERIES_CONTROL_TABLE["Goal_PWM"][1],
"Goal_Current": X_SERIES_CONTROL_TABLE["Goal_Current"][1],
"Goal_Velocity": X_SERIES_CONTROL_TABLE["Goal_Velocity"][1],
"Present_PWM": X_SERIES_CONTROL_TABLE["Present_PWM"][1],
"Present_Current": X_SERIES_CONTROL_TABLE["Present_Current"][1],
"Present_Velocity": X_SERIES_CONTROL_TABLE["Present_Velocity"][1],
}
MODEL_ENCODING_TABLE = {
"x_series": X_SERIES_ENCODINGS_TABLE,
"xl330-m077": X_SERIES_ENCODINGS_TABLE,
"xl330-m288": X_SERIES_ENCODINGS_TABLE,
"xl430-w250": X_SERIES_ENCODINGS_TABLE,
"xm430-w350": X_SERIES_ENCODINGS_TABLE,
"xm540-w270": X_SERIES_ENCODINGS_TABLE,
"xc430-w150": X_SERIES_ENCODINGS_TABLE,
}
# {model: model_resolution}
# https://emanual.robotis.com/docs/en/dxl/x/{MODEL}/#specifications
MODEL_RESOLUTION = {
"x_series": 4096,
"xl330-m077": 4096,
"xl330-m288": 4096,
"xl430-w250": 4096,
"xm430-w350": 4096,
"xm540-w270": 4096,
"xc430-w150": 4096,
}
# {model: model_number}
# https://emanual.robotis.com/docs/en/dxl/x/{MODEL}/#control-table-of-eeprom-area
MODEL_NUMBER_TABLE = {
"xl330-m077": 1190,
"xl330-m288": 1200,
"xl430-w250": 1060,
"xm430-w350": 1020,
"xm540-w270": 1120,
"xc430-w150": 1070,
}
# {model: available_operating_modes}
# https://emanual.robotis.com/docs/en/dxl/x/{MODEL}/#operating-mode11
MODEL_OPERATING_MODES = {
"xl330-m077": [0, 1, 3, 4, 5, 16],
"xl330-m288": [0, 1, 3, 4, 5, 16],
"xl430-w250": [1, 3, 4, 16],
"xm430-w350": [0, 1, 3, 4, 5, 16],
"xm540-w270": [0, 1, 3, 4, 5, 16],
"xc430-w150": [1, 3, 4, 16],
}
MODEL_CONTROL_TABLE = {
"x_series": X_SERIES_CONTROL_TABLE,
"xl330-m077": X_SERIES_CONTROL_TABLE,
"xl330-m288": X_SERIES_CONTROL_TABLE,
"xl430-w250": X_SERIES_CONTROL_TABLE,
"xm430-w350": X_SERIES_CONTROL_TABLE,
"xm540-w270": X_SERIES_CONTROL_TABLE,
"xc430-w150": X_SERIES_CONTROL_TABLE,
}
MODEL_BAUDRATE_TABLE = {
"x_series": X_SERIES_BAUDRATE_TABLE,
"xl330-m077": X_SERIES_BAUDRATE_TABLE,
"xl330-m288": X_SERIES_BAUDRATE_TABLE,
"xl430-w250": X_SERIES_BAUDRATE_TABLE,
"xm430-w350": X_SERIES_BAUDRATE_TABLE,
"xm540-w270": X_SERIES_BAUDRATE_TABLE,
"xc430-w150": X_SERIES_BAUDRATE_TABLE,
}
AVAILABLE_BAUDRATES = [
9_600,
19_200,
38_400,
57_600,
115_200,
230_400,
460_800,
500_000,
576_000,
921_600,
1_000_000,
1_152_000,
2_000_000,
2_500_000,
3_000_000,
3_500_000,
4_000_000,
]

11
lerobot/common/motors/feetech/__init__.py
View File

@@ -1,2 +1,9 @@
from .feetech import DriveMode, FeetechMotorsBus, OperatingMode, TorqueMode
from .tables import *
from .feetech import FeetechMotorsBus, TorqueMode
from .feetech_calibration import apply_feetech_offsets_from_calibration, run_full_arm_calibration
__all__ = [
"FeetechMotorsBus",
"TorqueMode",
"apply_feetech_offsets_from_calibration",
"run_full_arm_calibration",
]

925
lerobot/common/motors/feetech/feetech.py
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254
lerobot/common/motors/feetech/feetech_calibration.py Normal file
View File

@@ -0,0 +1,254 @@
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import numpy as np
from ..motors_bus import MotorsBus
from .feetech import (
CalibrationMode,
FeetechMotorsBus,
TorqueMode,
)
URL_TEMPLATE = (
"https://raw.githubusercontent.com/huggingface/lerobot/main/media/{robot}/{arm}_{position}.webp"
)
def disable_torque(arm: MotorsBus):
if (arm.read("Torque_Enable") != TorqueMode.DISABLED.value).any():
raise ValueError("To run calibration, the torque must be disabled on all motors.")
def get_calibration_modes(arm: MotorsBus):
"""Returns calibration modes for each motor (DEGREE for rotational, LINEAR for gripper)."""
return [
CalibrationMode.LINEAR.name if name == "gripper" else CalibrationMode.DEGREE.name
for name in arm.motor_names
]
def reset_offset(motor_id, motor_bus):
# Open the write lock, changes to EEPROM do NOT persist yet
motor_bus.write("Lock", 1)
# Set offset to 0
motor_name = motor_bus.motor_names[motor_id - 1]
motor_bus.write("Offset", 0, motor_names=[motor_name])
# Close the write lock, changes to EEPROM do persist
motor_bus.write("Lock", 0)
# Confirm that the offset is zero by reading it back
confirmed_offset = motor_bus.read("Offset")[motor_id - 1]
print(f"Offset for motor {motor_id} reset to: {confirmed_offset}")
return confirmed_offset
def calibrate_homing_motor(motor_id, motor_bus):
reset_offset(motor_id, motor_bus)
home_ticks = motor_bus.read("Present_Position")[motor_id - 1] # Read index starts at 0
print(f"Encoder offset (present position in homing position): {home_ticks}")
return home_ticks
def calibrate_linear_motor(motor_id, motor_bus):
motor_names = motor_bus.motor_names
motor_name = motor_names[motor_id - 1]
reset_offset(motor_id, motor_bus)
input(f"Close the {motor_name}, then press Enter...")
start_pos = motor_bus.read("Present_Position")[motor_id - 1] # Read index starts ar 0
print(f" [Motor {motor_id}] start position recorded: {start_pos}")
input(f"Open the {motor_name} fully, then press Enter...")
end_pos = motor_bus.read("Present_Position")[motor_id - 1] # Read index starts ar 0
print(f" [Motor {motor_id}] end position recorded: {end_pos}")
return start_pos, end_pos
def single_motor_calibration(arm: MotorsBus, motor_id: int):
"""Calibrates a single motor and returns its calibration data for updating the calibration file."""
disable_torque(arm)
print(f"\n--- Calibrating Motor {motor_id} ---")
start_pos = 0
end_pos = 0
encoder_offset = 0
if motor_id == 6:
start_pos, end_pos = calibrate_linear_motor(motor_id, arm)
else:
input("Move the motor to (zero) position, then press Enter...")
encoder_offset = calibrate_homing_motor(motor_id, arm)
print(f"Calibration for motor ID:{motor_id} done.")
# Create a calibration dictionary for the single motor
calib_dict = {
"homing_offset": int(encoder_offset),
"drive_mode": 0,
"start_pos": int(start_pos),
"end_pos": int(end_pos),
"calib_mode": get_calibration_modes(arm)[motor_id - 1],
"motor_name": arm.motor_names[motor_id - 1],
}
return calib_dict
def run_full_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type: str):
"""
Runs a full calibration process for all motors in a robotic arm.
This function calibrates each motor in the arm, determining encoder offsets and
start/end positions for linear and rotational motors. The calibration data is then
stored in a dictionary for later use.
**Calibration Process:**
- The user is prompted to move the arm to its homing position before starting.
- Motors with rotational motion are calibrated using a homing method.
- Linear actuators (e.g., grippers) are calibrated separately.
- Encoder offsets, start positions, and end positions are recorded.
**Example Usage:**
```python
run_full_arm_calibration(arm, "so100", "left", "follower")
```
"""
disable_torque(arm)
print(f"\nRunning calibration of {robot_type} {arm_name} {arm_type}...")
print("\nMove arm to homing position (middle)")
print(
"See: " + URL_TEMPLATE.format(robot=robot_type, arm=arm_type, position="zero")
) # TODO(pepijn): replace with new instruction homing pos (all motors in middle) in tutorial
input("Press Enter to continue...")
start_positions = np.zeros(len(arm.motor_indices))
end_positions = np.zeros(len(arm.motor_indices))
encoder_offsets = np.zeros(len(arm.motor_indices))
modes = get_calibration_modes(arm)
for i, motor_id in enumerate(arm.motor_indices):
if modes[i] == CalibrationMode.DEGREE.name:
encoder_offsets[i] = calibrate_homing_motor(motor_id, arm)
start_positions[i] = 0
end_positions[i] = 0
for i, motor_id in enumerate(arm.motor_indices):
if modes[i] == CalibrationMode.LINEAR.name:
start_positions[i], end_positions[i] = calibrate_linear_motor(motor_id, arm)
encoder_offsets[i] = 0
print("\nMove arm to rest position")
input("Press Enter to continue...")
print(f"\n calibration of {robot_type} {arm_name} {arm_type} done!")
# Force drive_mode values (can be static)
drive_modes = [0, 1, 0, 0, 1, 0]
calib_dict = {
"homing_offset": encoder_offsets.astype(int).tolist(),
"drive_mode": drive_modes,
"start_pos": start_positions.astype(int).tolist(),
"end_pos": end_positions.astype(int).tolist(),
"calib_mode": get_calibration_modes(arm),
"motor_names": arm.motor_names,
}
return calib_dict
def run_full_auto_arm_calibration(arm: MotorsBus, robot_type: str, arm_name: str, arm_type: str):
"""TODO(pepijn): Add this method later as extra
Example of usage:
```python
run_full_auto_arm_calibration(arm, "so100", "left", "follower")
```
"""
print(f"\nRunning calibration of {robot_type} {arm_name} {arm_type}...")
def apply_feetech_offsets_from_calibration(motorsbus: FeetechMotorsBus, calibration_dict: dict):
"""
Reads 'calibration_dict' containing 'homing_offset' and 'motor_names',
then writes each motor's offset to the servo's internal Offset (0x1F) in EPROM.
This version is modified so each homed position (originally 0) will now read
2047, i.e. 180° away from 0 in the 4096-count circle. Offsets are permanently
stored in EEPROM, so the servo's Present_Position is hardware-shifted even
after power cycling.
Steps:
1) Subtract 2047 from the old offset (so 0 -> 2047).
2) Clamp to [-2047..+2047].
3) Encode sign bit and magnitude into a 12-bit number.
"""
homing_offsets = calibration_dict["homing_offset"]
motor_names = calibration_dict["motor_names"]
start_pos = calibration_dict["start_pos"]
# Open the write lock, changes to EEPROM do NOT persist yet
motorsbus.write("Lock", 1)
# For each motor, set the 'Offset' parameter
for m_name, old_offset in zip(motor_names, homing_offsets, strict=False):
# If bus doesnt have a motor named m_name, skip
if m_name not in motorsbus.motors:
print(f"Warning: '{m_name}' not found in motorsbus.motors; skipping offset.")
continue
if m_name == "gripper":
old_offset = start_pos # If gripper set the offset to the start position of the gripper
continue
# Shift the offset so the homed position reads 2047
new_offset = old_offset - 2047
# Clamp to [-2047..+2047]
if new_offset > 2047:
new_offset = 2047
print(
f"Warning: '{new_offset}' is getting clamped because its larger then 2047; This should not happen!"
)
elif new_offset < -2047:
new_offset = -2047
print(
f"Warning: '{new_offset}' is getting clamped because its smaller then -2047; This should not happen!"
)
# Determine the direction (sign) bit and magnitude
direction_bit = 1 if new_offset < 0 else 0
magnitude = abs(new_offset)
# Combine sign bit (bit 11) with the magnitude (bits 0..10)
servo_offset = (direction_bit << 11) | magnitude
# Write offset to servo
motorsbus.write("Offset", servo_offset, motor_names=m_name)
print(
f"Set offset for {m_name}: "
f"old_offset={old_offset}, new_offset={new_offset}, servo_encoded={magnitude} + direction={direction_bit}"
)
motorsbus.write("Lock", 0)
print("Offsets have been saved to EEPROM successfully.")

202
lerobot/common/motors/feetech/tables.py
View File

@@ -1,202 +0,0 @@
FIRMWARE_MAJOR_VERSION = (0, 1)
FIRMWARE_MINOR_VERSION = (1, 1)
MODEL_NUMBER = (3, 2)
# See this link for STS3215 Memory Table:
# https://docs.google.com/spreadsheets/d/1GVs7W1VS1PqdhA1nW-abeyAHhTUxKUdR/edit?usp=sharing&ouid=116566590112741600240&rtpof=true&sd=true
# data_name: (address, size_byte)
STS_SMS_SERIES_CONTROL_TABLE = {
# EPROM
"Firmware_Major_Version": FIRMWARE_MAJOR_VERSION, # read-only
"Firmware_Minor_Version": FIRMWARE_MINOR_VERSION, # read-only
"Model_Number": MODEL_NUMBER, # read-only
"ID": (5, 1),
"Baud_Rate": (6, 1),
"Return_Delay_Time": (7, 1),
"Response_Status_Level": (8, 1),
"Min_Position_Limit": (9, 2),
"Max_Position_Limit": (11, 2),
"Max_Temperature_Limit": (13, 1),
"Max_Voltage_Limit": (14, 1),
"Min_Voltage_Limit": (15, 1),
"Max_Torque_Limit": (16, 2),
"Phase": (18, 1),
"Unloading_Condition": (19, 1),
"LED_Alarm_Condition": (20, 1),
"P_Coefficient": (21, 1),
"D_Coefficient": (22, 1),
"I_Coefficient": (23, 1),
"Minimum_Startup_Force": (24, 2),
"CW_Dead_Zone": (26, 1),
"CCW_Dead_Zone": (27, 1),
"Protection_Current": (28, 2),
"Angular_Resolution": (30, 1),
"Homing_Offset": (31, 2),
"Operating_Mode": (33, 1),
"Protective_Torque": (34, 1),
"Protection_Time": (35, 1),
"Overload_Torque": (36, 1),
"Speed_closed_loop_P_proportional_coefficient": (37, 1),
"Over_Current_Protection_Time": (38, 1),
"Velocity_closed_loop_I_integral_coefficient": (39, 1),
# SRAM
"Torque_Enable": (40, 1),
"Acceleration": (41, 1),
"Goal_Position": (42, 2),
"Goal_Time": (44, 2),
"Goal_Speed": (46, 2),
"Torque_Limit": (48, 2),
"Lock": (55, 1),
"Present_Position": (56, 2), # read-only
"Present_Speed": (58, 2), # read-only
"Present_Load": (60, 2), # read-only
"Present_Voltage": (62, 1), # read-only
"Present_Temperature": (63, 1), # read-only
"Status": (65, 1), # read-only
"Moving": (66, 1), # read-only
"Present_Current": (69, 2), # read-only
# Not in the Memory Table
"Maximum_Acceleration": (85, 2),
}
SCS_SERIES_CONTROL_TABLE = {
# EPROM
"Firmware_Major_Version": FIRMWARE_MAJOR_VERSION, # read-only
"Firmware_Minor_Version": FIRMWARE_MINOR_VERSION, # read-only
"Model_Number": MODEL_NUMBER, # read-only
"ID": (5, 1),
"Baud_Rate": (6, 1),
"Return_Delay": (7, 1),
"Response_Status_Level": (8, 1),
"Min_Position_Limit": (9, 2),
"Max_Position_Limit": (11, 2),
"Max_Temperature_Limit": (13, 1),
"Max_Voltage_Limit": (14, 1),
"Min_Voltage_Limit": (15, 1),
"Max_Torque_Limit": (16, 2),
"Phase": (18, 1),
"Unloading_Condition": (19, 1),
"LED_Alarm_Condition": (20, 1),
"P_Coefficient": (21, 1),
"D_Coefficient": (22, 1),
"I_Coefficient": (23, 1),
"Minimum_Startup_Force": (24, 2),
"CW_Dead_Zone": (26, 1),
"CCW_Dead_Zone": (27, 1),
"Protective_Torque": (37, 1),
"Protection_Time": (38, 1),
# SRAM
"Torque_Enable": (40, 1),
"Acceleration": (41, 1),
"Goal_Position": (42, 2),
"Running_Time": (44, 2),
"Goal_Speed": (46, 2),
"Lock": (48, 1),
"Present_Position": (56, 2), # read-only
"Present_Speed": (58, 2), # read-only
"Present_Load": (60, 2), # read-only
"Present_Voltage": (62, 1), # read-only
"Present_Temperature": (63, 1), # read-only
"Sync_Write_Flag": (64, 1), # read-only
"Status": (65, 1), # read-only
"Moving": (66, 1), # read-only
}
STS_SMS_SERIES_BAUDRATE_TABLE = {
0: 1_000_000,
1: 500_000,
2: 250_000,
3: 128_000,
4: 115_200,
5: 57_600,
6: 38_400,
7: 19_200,
}
SCS_SERIES_BAUDRATE_TABLE = {
0: 1_000_000,
1: 500_000,
2: 250_000,
3: 128_000,
4: 115_200,
5: 57_600,
6: 38_400,
7: 19_200,
}
MODEL_CONTROL_TABLE = {
"sts_series": STS_SMS_SERIES_CONTROL_TABLE,
"scs_series": SCS_SERIES_CONTROL_TABLE,
"sms_series": STS_SMS_SERIES_CONTROL_TABLE,
"sts3215": STS_SMS_SERIES_CONTROL_TABLE,
"sts3250": STS_SMS_SERIES_CONTROL_TABLE,
"scs0009": SCS_SERIES_CONTROL_TABLE,
"sm8512bl": STS_SMS_SERIES_CONTROL_TABLE,
}
MODEL_RESOLUTION = {
"sts_series": 4096,
"sms_series": 4096,
"scs_series": 1024,
"sts3215": 4096,
"sts3250": 4096,
"sm8512bl": 65536,
"scs0009": 1024,
}
MODEL_BAUDRATE_TABLE = {
"sts_series": STS_SMS_SERIES_BAUDRATE_TABLE,
"sms_series": STS_SMS_SERIES_BAUDRATE_TABLE,
"scs_series": SCS_SERIES_BAUDRATE_TABLE,
"sm8512bl": STS_SMS_SERIES_BAUDRATE_TABLE,
"sts3215": STS_SMS_SERIES_BAUDRATE_TABLE,
"sts3250": STS_SMS_SERIES_BAUDRATE_TABLE,
"scs0009": SCS_SERIES_BAUDRATE_TABLE,
}
# Sign-Magnitude encoding bits
STS_SMS_SERIES_ENCODINGS_TABLE = {
"Homing_Offset": 11,
"Goal_Speed": 15,
}
MODEL_ENCODING_TABLE = {
"sts_series": STS_SMS_SERIES_ENCODINGS_TABLE,
"sms_series": STS_SMS_SERIES_ENCODINGS_TABLE,
"scs_series": {},
"sts3215": STS_SMS_SERIES_ENCODINGS_TABLE,
"sts3250": STS_SMS_SERIES_ENCODINGS_TABLE,
"sm8512bl": STS_SMS_SERIES_ENCODINGS_TABLE,
"scs0009": {},
}
SCAN_BAUDRATES = [
4_800,
9_600,
14_400,
19_200,
38_400,
57_600,
115_200,
128_000,
250_000,
500_000,
1_000_000,
]
MODEL_NUMBER_TABLE = {
"sts3215": 777,
"sts3250": 2825,
"sm8512bl": 11272,
"scs0009": 1284,
}
MODEL_PROTOCOL = {
"sts_series": 0,
"sms_series": 0,
"scs_series": 1,
"sts3215": 0,
"sts3250": 0,
"sm8512bl": 0,
"scs0009": 1,
}

969
lerobot/common/motors/motors_bus.py
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41
lerobot/common/policies/act/modeling_act.py
View File

@@ -119,7 +119,9 @@ class ACTPolicy(PreTrainedPolicy):
batch = self.normalize_inputs(batch)
if self.config.image_features:
batch = dict(batch) # shallow copy so that adding a key doesn't modify the original
batch["observation.images"] = [batch[key] for key in self.config.image_features]
batch["observation.images"] = torch.stack(
[batch[key] for key in self.config.image_features], dim=-4
)
# If we are doing temporal ensembling, do online updates where we keep track of the number of actions
# we are ensembling over.
@@ -147,8 +149,9 @@ class ACTPolicy(PreTrainedPolicy):
batch = self.normalize_inputs(batch)
if self.config.image_features:
batch = dict(batch) # shallow copy so that adding a key doesn't modify the original
batch["observation.images"] = [batch[key] for key in self.config.image_features]
batch["observation.images"] = torch.stack(
[batch[key] for key in self.config.image_features], dim=-4
)
batch = self.normalize_targets(batch)
actions_hat, (mu_hat, log_sigma_x2_hat) = self.model(batch)
@@ -410,10 +413,11 @@ class ACT(nn.Module):
"actions must be provided when using the variational objective in training mode."
)
if "observation.images" in batch:
batch_size = batch["observation.images"][0].shape[0]
else:
batch_size = batch["observation.environment_state"].shape[0]
batch_size = (
batch["observation.images"]
if "observation.images" in batch
else batch["observation.environment_state"]
).shape[0]
# Prepare the latent for input to the transformer encoder.
if self.config.use_vae and "action" in batch:
@@ -486,21 +490,20 @@ class ACT(nn.Module):
all_cam_features = []
all_cam_pos_embeds = []
# For a list of images, the H and W may vary but H*W is constant.
for img in batch["observation.images"]:
cam_features = self.backbone(img)["feature_map"]
for cam_index in range(batch["observation.images"].shape[-4]):
cam_features = self.backbone(batch["observation.images"][:, cam_index])["feature_map"]
# TODO(rcadene, alexander-soare): remove call to `.to` to speedup forward ; precompute and use
# buffer
cam_pos_embed = self.encoder_cam_feat_pos_embed(cam_features).to(dtype=cam_features.dtype)
cam_features = self.encoder_img_feat_input_proj(cam_features)
# Rearrange features to (sequence, batch, dim).
cam_features = einops.rearrange(cam_features, "b c h w -> (h w) b c")
cam_pos_embed = einops.rearrange(cam_pos_embed, "b c h w -> (h w) b c")
cam_features = self.encoder_img_feat_input_proj(cam_features) # (B, C, h, w)
all_cam_features.append(cam_features)
all_cam_pos_embeds.append(cam_pos_embed)
encoder_in_tokens.extend(torch.cat(all_cam_features, axis=0))
encoder_in_pos_embed.extend(torch.cat(all_cam_pos_embeds, axis=0))
# Concatenate camera observation feature maps and positional embeddings along the width dimension,
# and move to (sequence, batch, dim).
all_cam_features = torch.cat(all_cam_features, axis=-1)
encoder_in_tokens.extend(einops.rearrange(all_cam_features, "b c h w -> (h w) b c"))
all_cam_pos_embeds = torch.cat(all_cam_pos_embeds, axis=-1)
encoder_in_pos_embed.extend(einops.rearrange(all_cam_pos_embeds, "b c h w -> (h w) b c"))
# Stack all tokens along the sequence dimension.
encoder_in_tokens = torch.stack(encoder_in_tokens, axis=0)

7
lerobot/common/policies/factory.py
View File

@@ -25,7 +25,6 @@ from lerobot.common.envs.utils import env_to_policy_features
from lerobot.common.policies.act.configuration_act import ACTConfig
from lerobot.common.policies.diffusion.configuration_diffusion import DiffusionConfig
from lerobot.common.policies.pi0.configuration_pi0 import PI0Config
from lerobot.common.policies.pi0fast.configuration_pi0fast import PI0FASTConfig
from lerobot.common.policies.pretrained import PreTrainedPolicy
from lerobot.common.policies.tdmpc.configuration_tdmpc import TDMPCConfig
from lerobot.common.policies.vqbet.configuration_vqbet import VQBeTConfig
@@ -55,10 +54,6 @@ def get_policy_class(name: str) -> PreTrainedPolicy:
from lerobot.common.policies.pi0.modeling_pi0 import PI0Policy
return PI0Policy
elif name == "pi0fast":
from lerobot.common.policies.pi0fast.modeling_pi0fast import PI0FASTPolicy
return PI0FASTPolicy
else:
raise NotImplementedError(f"Policy with name {name} is not implemented.")
@@ -74,8 +69,6 @@ def make_policy_config(policy_type: str, **kwargs) -> PreTrainedConfig:
return VQBeTConfig(**kwargs)
elif policy_type == "pi0":
return PI0Config(**kwargs)
elif policy_type == "pi0fast":
return PI0FASTConfig(**kwargs)
else:
raise ValueError(f"Policy type '{policy_type}' is not available.")

2
lerobot/common/policies/pi0/modeling_pi0.py
View File

@@ -313,7 +313,7 @@ class PI0Policy(PreTrainedPolicy):
state = self.prepare_state(batch)
lang_tokens, lang_masks = self.prepare_language(batch)
actions = self.prepare_action(batch)
actions_is_pad = batch.get("action_is_pad")
actions_is_pad = batch.get("actions_is_pad")
loss_dict = {}
losses = self.model.forward(images, img_masks, lang_tokens, lang_masks, state, actions, noise, time)

136
lerobot/common/policies/pi0fast/configuration_pi0fast.py
View File

@@ -1,136 +0,0 @@
from dataclasses import dataclass, field
from lerobot.common.optim.optimizers import AdamWConfig
from lerobot.common.optim.schedulers import (
CosineDecayWithWarmupSchedulerConfig,
)
from lerobot.configs.policies import PreTrainedConfig
from lerobot.configs.types import FeatureType, NormalizationMode, PolicyFeature
@PreTrainedConfig.register_subclass("pi0fast")
@dataclass
class PI0FASTConfig(PreTrainedConfig):
# Input / output structure.
n_obs_steps: int = 1
chunk_size: int = 10
n_action_steps: int = 5
normalization_mapping: dict[str, NormalizationMode] = field(
default_factory=lambda: {
"VISUAL": NormalizationMode.IDENTITY,
"STATE": NormalizationMode.MEAN_STD,
"ACTION": NormalizationMode.MEAN_STD,
}
)
# Shorter state and action vectors will be padded
max_state_dim: int = 32 # 32
max_action_dim: int = 32 # 32
# Image preprocessing
resize_imgs_with_padding: tuple[int, int] = (224, 224)
interpolate_like_pi: bool = False
# Add empty images. Used by pi0_aloha_sim which adds the empty
# left and right wrist cameras in addition to the top camera.
empty_cameras: int = 0
# Converts the joint and gripper values from the standard Aloha space to
# the space used by the pi internal runtime which was used to train the base model.
adapt_to_pi_aloha: bool = False
# Converts joint dimensions to deltas with respect to the current state before passing to the model.
# Gripper dimensions will remain in absolute values.
use_delta_joint_actions_aloha: bool = False
# Tokenizer
tokenizer_max_length: int = 48
# Projector
proj_width: int = 1024
# Decoding
max_decoding_steps: int = 256
fast_skip_tokens: int = 128 # Skip last 128 tokens in PaliGemma vocab since they are special tokens
max_input_seq_len: int = 256 # 512
# Utils
use_cache: bool = True
# Frozen parameters
freeze_vision_encoder: bool = True
freeze_lm_head: bool = True
# Training presets
optimizer_lr: float = 1e-4
optimizer_betas: tuple[float, float] = (0.9, 0.95)
optimizer_eps: float = 1e-8
optimizer_weight_decay: float = 1e-5
scheduler_warmup_steps: int = 1_000
scheduler_decay_steps: int = 30_000
scheduler_decay_lr: float = 2.5e-6
checkpoint_path: str = None
padding_side: str = "right"
precision: str = "bfloat16"
grad_clip_norm: float = 1
# Allows padding/truncation of generated action tokens during detokenization to ensure decoding.
# In the original version, tensors of 0s were generated if shapes didn't match for stable decoding.
relaxed_action_decoding: bool = True
def __post_init__(self):
super().__post_init__()
"""Input validation (not exhaustive)."""
if self.n_action_steps > self.chunk_size:
raise ValueError(
f"The chunk size is the upper bound for the number of action steps per model invocation. Got "
f"{self.n_action_steps} for `n_action_steps` and {self.chunk_size} for `chunk_size`."
)
if self.n_obs_steps != 1:
raise ValueError(
f"Multiple observation steps not handled yet. Got `nobs_steps={self.n_obs_steps}`"
)
def validate_features(self) -> None:
for i in range(self.empty_cameras):
key = f"observation.images.empty_camera_{i}"
empty_camera = PolicyFeature(
type=FeatureType.VISUAL,
shape=(3, 480, 640),
)
self.input_features[key] = empty_camera
def get_optimizer_preset(self) -> AdamWConfig:
return AdamWConfig(
lr=self.optimizer_lr,
betas=self.optimizer_betas,
eps=self.optimizer_eps,
weight_decay=self.optimizer_weight_decay,
grad_clip_norm=self.grad_clip_norm,
)
def get_scheduler_preset(self):
return CosineDecayWithWarmupSchedulerConfig(
peak_lr=self.optimizer_lr,
decay_lr=self.scheduler_decay_lr,
num_warmup_steps=self.scheduler_warmup_steps,
num_decay_steps=self.scheduler_decay_steps,
)
@property
def observation_delta_indices(self) -> None:
return None
@property
def action_delta_indices(self) -> list:
return list(range(self.chunk_size))
@property
def reward_delta_indices(self) -> None:
return None

973
lerobot/common/policies/pi0fast/modeling_pi0fast.py
View File

@@ -1,973 +0,0 @@
#!/usr/bin/env python
# Copyright 2025 Physical Intelligence and The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
π0+FAST: Efficient Action Tokenization for Vision-Language-Action Models
[Paper](https://arxiv.org/abs/2501.09747)
[Jax code](https://github.com/Physical-Intelligence/openpi)
Designed by Physical Intelligence. Ported from Jax by Hugging Face.
Example of finetuning the pi0+FAST pretrained model (`pi0_fast_base` in `openpi`):
```bash
python lerobot/scripts/train.py \
--policy.path=lerobot/pi0fast_base \
--dataset.repo_id=danaaubakirova/koch_test
```
Example of training the pi0+FAST neural network with from scratch:
```bash
python lerobot/scripts/train.py \
--policy.type=pi0fast \
--dataset.repo_id=danaaubakirova/koch_test
```
Example of using the pi0 pretrained model outside LeRobot training framework:
```python
policy = PI0FASTPolicy.from_pretrained("lerobot/pi0fast_base")
```
"""
from collections import deque
from functools import partial
import numpy as np
import torch
import torch.nn.functional as F # noqa: N812
from PIL import Image
from scipy.fft import idct
from torch import Tensor, nn
from transformers import AutoProcessor, AutoTokenizer, PaliGemmaForConditionalGeneration
from transformers.cache_utils import HybridCache, StaticCache
from transformers.models.auto import CONFIG_MAPPING
from lerobot.common.constants import ACTION, OBS_ROBOT
from lerobot.common.policies.normalize import Normalize, Unnormalize
from lerobot.common.policies.pi0fast.configuration_pi0fast import PI0FASTConfig
from lerobot.common.policies.pretrained import PreTrainedPolicy
PRECISION = {
"float16": torch.float16,
"float32": torch.float32,
"bfloat16": torch.bfloat16,
}
def normalize(x, min_val, max_val):
return (x - min_val) / (max_val - min_val)
def unnormalize(x, min_val, max_val):
return x * (max_val - min_val) + min_val
def safe_arcsin(value):
# This ensures that the input stays within
# [1,1] to avoid invalid values for arcsin
return torch.arcsin(torch.clamp(value, -1.0, 1.0))
def aloha_gripper_to_angular(value):
# Aloha transforms the gripper positions into a linear space. The following code
# reverses this transformation to be consistent with pi0 which is pretrained in
# angular space.
#
# These values are coming from the Aloha code:
# PUPPET_GRIPPER_POSITION_OPEN, PUPPET_GRIPPER_POSITION_CLOSED
value = unnormalize(value, min_val=0.01844, max_val=0.05800)
# This is the inverse of the angular to linear transformation inside the Interbotix code.
def linear_to_radian(linear_position, arm_length, horn_radius):
value = (horn_radius**2 + linear_position**2 - arm_length**2) / (2 * horn_radius * linear_position)
return safe_arcsin(value)
# The constants are taken from the Interbotix code.
value = linear_to_radian(value, arm_length=0.036, horn_radius=0.022)
# Normalize to [0, 1].
# The values 0.4 and 1.5 were measured on an actual Trossen robot.
return normalize(value, min_val=0.4, max_val=1.5)
def aloha_gripper_from_angular(value):
# Convert from the gripper position used by pi0 to the gripper position that is used by Aloha.
# Note that the units are still angular but the range is different.
# The values 0.4 and 1.5 were measured on an actual Trossen robot.
value = unnormalize(value, min_val=0.4, max_val=1.5)
# These values are coming from the Aloha code:
# PUPPET_GRIPPER_JOINT_OPEN, PUPPET_GRIPPER_JOINT_CLOSE
return normalize(value, min_val=-0.6213, max_val=1.4910)
def aloha_gripper_from_angular_inv(value):
# Directly inverts the gripper_from_angular function.
value = unnormalize(value, min_val=-0.6213, max_val=1.4910)
return normalize(value, min_val=0.4, max_val=1.5)
class PI0FASTPolicy(PreTrainedPolicy):
"""Wrapper class around PI0FAST tokenizer and model to train and run inference within LeRobot."""
config_class = PI0FASTConfig
name = "pi0fast"
def __init__(
self,
config: PI0FASTConfig,
dataset_stats: dict[str, dict[str, Tensor]] | None = None,
):
"""
Args:
config: Policy configuration class instance or None, in which case the default instantiation of
the configuration class is used.
dataset_stats: Dataset statistics to be used for normalization. If not passed here, it is expected
that they will be passed with a call to `load_state_dict` before the policy is used.
"""
super().__init__(config)
config.validate_features()
self.config = config
self.normalize_inputs = Normalize(config.input_features, config.normalization_mapping, dataset_stats)
self.normalize_targets = Normalize(
config.output_features, config.normalization_mapping, dataset_stats
)
self.unnormalize_outputs = Unnormalize(
config.output_features, config.normalization_mapping, dataset_stats
)
self.language_tokenizer = AutoProcessor.from_pretrained("google/paligemma-3b-pt-224")
self.model = PI0FAST(config)
self.reset()
def reset(self):
"""This should be called whenever the environment is reset."""
self._action_queue = deque([], maxlen=self.config.n_action_steps)
def get_optim_params(self) -> dict:
return self.parameters()
def _pi_aloha_decode_state(self, state):
# Flip the joints.
for motor_idx in [1, 2, 8, 9]:
state[:, motor_idx] *= -1
# Reverse the gripper transformation that is being applied by the Aloha runtime.
for motor_idx in [6, 13]:
state[:, motor_idx] = aloha_gripper_to_angular(state[:, motor_idx])
return state
def _pi_aloha_encode_actions(self, actions):
# Flip the joints.
for motor_idx in [1, 2, 8, 9]:
actions[:, :, motor_idx] *= -1
# Reverse the gripper transformation that is being applied by the Aloha runtime.
for motor_idx in [6, 13]:
actions[:, :, motor_idx] = aloha_gripper_from_angular(actions[:, :, motor_idx])
return actions
def _pi_aloha_encode_actions_inv(self, actions):
# Flip the joints again.
for motor_idx in [1, 2, 8, 9]:
actions[:, :, motor_idx] *= -1
# Reverse the gripper transformation that is being applied by the Aloha runtime.
for motor_idx in [6, 13]:
actions[:, :, motor_idx] = aloha_gripper_from_angular_inv(actions[:, :, motor_idx])
return actions
@torch.no_grad
def select_action(self, batch: dict[str, Tensor]) -> Tensor:
"""Select a single action given environment observations.
This method wraps `select_actions` in order to return one action at a time for execution in the
environment. It works by managing the actions in a queue and only calling `select_actions` when the
queue is empty.
"""
self.eval()
if self.config.adapt_to_pi_aloha:
batch[OBS_ROBOT] = self._pi_aloha_decode_state(batch[OBS_ROBOT])
batch = self.normalize_inputs(batch)
# Action queue logic for n_action_steps > 1. When the action_queue is depleted, populate it by
# querying the policy.
if len(self._action_queue) == 0:
actions = self.model.generate_actions(batch)
actions = actions[:, : self.config.n_action_steps]
original_action_dim = self.config.action_feature.shape[
0
] # self.config.max_action_dim # self.config.action_feature.shape[0]
actions = actions[:, :, :original_action_dim]
actions = self.unnormalize_outputs({"action": actions})["action"]
if self.config.adapt_to_pi_aloha:
actions = self._pi_aloha_encode_actions(actions)
# `self.model.forward` returns a (batch_size, n_action_steps, action_dim) tensor, but the queue
# effectively has shape (n_action_steps, batch_size, *), hence the transpose.
self._action_queue.extend(actions.transpose(0, 1))
return self._action_queue.popleft()
def forward(self, batch: dict[str, Tensor]) -> dict[str, Tensor]:
if self.config.adapt_to_pi_aloha:
batch[OBS_ROBOT] = self._pi_aloha_decode_state(batch[OBS_ROBOT])
batch[ACTION] = self._pi_aloha_encode_actions_inv(batch[ACTION])
batch = self.normalize_inputs(batch)
batch = self.normalize_targets(batch)
loss_dict = self.model.forward(batch)
return loss_dict["loss"], loss_dict
def block_causal_update_causal_mask(
attention_mask,
token_type_ids=None,
past_key_values=None,
cache_position=None,
input_tensor=None,
attn_implementation: str = "eager",
dtype: torch.dtype = "float32",
):
"""
Update the causal mask during training and generation. It can be customized to different attention masks.
"""
if attn_implementation == "flash_attention_2":
if attention_mask is not None and 0.0 in attention_mask:
return attention_mask
return None
using_static_cache = isinstance(past_key_values, StaticCache)
min_dtype = torch.finfo(dtype).min
if input_tensor is None:
input_tensor = attention_mask
inputs_lead_dim, sequence_length = input_tensor.shape[:2]
if using_static_cache or isinstance(past_key_values, HybridCache):
target_length = past_key_values.get_max_cache_shape()
else:
target_length = (
attention_mask.shape[-1]
if isinstance(attention_mask, torch.Tensor)
else cache_position[0] + sequence_length + 1
)
# Handle precomputed attention masks
if attention_mask is not None and attention_mask.dim() == 4:
return attention_mask
# Causal mask initialization
causal_mask = torch.full(
(sequence_length, target_length), fill_value=min_dtype, dtype=dtype, device=cache_position.device
)
# Standard causal masking (triu ensures tokens can only attend to past)
if sequence_length != 1:
causal_mask = torch.triu(causal_mask, diagonal=1)
# Apply block causal mask
if token_type_ids is not None:
token_type_ids = token_type_ids.to(causal_mask.device).bool()
cumsum = torch.cumsum(token_type_ids, dim=1)
block_causal_mask = cumsum[:, None, :] <= cumsum[:, :, None]
# Combine causal_mask with block-wise attention mask
causal_mask = torch.where(block_causal_mask, 0.0, causal_mask)
causal_mask = causal_mask[:, None, :, :]
else:
# Apply past cache position constraint
causal_mask *= torch.arange(target_length, device=cache_position.device) > cache_position.reshape(
-1, 1
)
causal_mask = causal_mask[None, None, :, :].expand(inputs_lead_dim, 1, -1, -1)
else:
# Apply past cache position constraint
causal_mask *= torch.arange(target_length, device=cache_position.device) > cache_position.reshape(
-1, 1
)
causal_mask = causal_mask[None, None, :, :].expand(inputs_lead_dim, 1, -1, -1)
if attention_mask is not None:
causal_mask = causal_mask.clone() # Copy to contiguous memory for in-place edits
mask_length = attention_mask.shape[-1]
# Apply padding mask
padding_mask = causal_mask[:, :, :, :mask_length] + attention_mask[:, None, None, :].to(
causal_mask.device
)
padding_mask = padding_mask == 0
causal_mask[:, :, :, :mask_length] = causal_mask[:, :, :, :mask_length].masked_fill(
padding_mask, min_dtype
)
return causal_mask
def prepare_inputs_for_generation(
# self,
input_ids,
past_key_values=None,
inputs_embeds=None,
cache_position=None,
position_ids=None,
pixel_values=None,
attention_mask=None,
token_type_ids=None,
use_cache=True,
num_logits_to_keep=None,
labels=None,
self=None,
**kwargs,
):
# create block causal attention
if cache_position[0] > 0 and input_ids.shape[1] > 0:
input_tensor = input_ids[:, -1:]
new_positions = (
torch.ones(
(position_ids.shape[0], input_ids.shape[1]),
dtype=position_ids.dtype,
device=position_ids.device,
).cumsum(-1)
+ position_ids[:, -1:]
)
position_ids = torch.cat([position_ids, new_positions], dim=-1)
else:
input_tensor = inputs_embeds
attention_mask = block_causal_update_causal_mask(
attention_mask=attention_mask,
past_key_values=past_key_values,
cache_position=cache_position,
input_tensor=input_tensor,
token_type_ids=token_type_ids,
dtype=self.dtype,
attn_implementation=self.config.text_config._attn_implementation,
)
# Overwritten -- custom `position_ids` and `pixel_values` handling
model_inputs = self.language_model.prepare_inputs_for_generation(
input_ids,
past_key_values=past_key_values,
inputs_embeds=inputs_embeds,
attention_mask=attention_mask,
position_ids=position_ids,
cache_position=cache_position,
use_cache=use_cache,
num_logits_to_keep=num_logits_to_keep,
token_type_ids=token_type_ids,
**kwargs,
)
# Position_ids in Paligemma are 1-indexed
if model_inputs.get("position_ids") is not None:
model_inputs["position_ids"] += 1
# If we're in cached decoding stage, pixel values should be None because input ids do not contain special image token anymore
# Otherwise we need pixel values to be passed to model. NOTE: use_cache=False needs pixel_values always
if cache_position[0] == 0:
model_inputs["pixel_values"] = pixel_values
is_training = token_type_ids is not None and labels is not None
if cache_position[0] == 0 and isinstance(past_key_values, HybridCache):
input_tensor = inputs_embeds if inputs_embeds is not None else input_ids
causal_mask = self._update_causal_mask(
attention_mask, token_type_ids, past_key_values, cache_position, input_tensor, is_training
)
model_inputs["attention_mask"] = causal_mask
return model_inputs
class PI0FAST(nn.Module):
def __init__(self, config: PI0FASTConfig):
super().__init__()
self.config = config
# TODO: move tokenizers in Policy
fast_tokenizer_path = "physical-intelligence/fast"
pi0_paligemma_path = "google/paligemma-3b-pt-224"
self.paligemma_tokenizer = AutoTokenizer.from_pretrained(pi0_paligemma_path)
self.processor = AutoProcessor.from_pretrained(pi0_paligemma_path)
self.fast_tokenizer = AutoProcessor.from_pretrained(fast_tokenizer_path, trust_remote_code=True)
self.fast_skip_tokens = self.config.fast_skip_tokens
self.max_input_seq_len = self.config.max_input_seq_len
self.action_horizon = self.config.chunk_size
self.action_dim = self.config.action_feature.shape[
0
] # self.config.max_action_dim # self.config.action_feature.shape[0]
precision = config.precision
torch_precision = PRECISION.get(precision, torch.float32)
self.pad_token_id = (
self.paligemma_tokenizer.pad_token_id
if hasattr(self.paligemma_tokenizer, "pad_token_id")
else self.paligemma_tokenizer.eos_token_id
)
paligemma_config = CONFIG_MAPPING["paligemma"](
transformers_version="4.48.1",
_vocab_size=257152,
bos_token_id=2,
eos_token_id=1,
hidden_size=2048,
image_token_index=257152,
model_type="paligemma",
pad_token_id=0,
projection_dim=2048,
text_config={
"hidden_activation": "gelu_pytorch_tanh",
"hidden_size": 2048,
"intermediate_size": 16384,
"model_type": "gemma",
"num_attention_heads": 8,
"num_hidden_layers": 18,
"num_image_tokens": 256,
"num_key_value_heads": 1,
"torch_dtype": precision,
"vocab_size": 257152,
"_attn_implementation": "eager",
},
vision_config={
"hidden_size": 1152,
"intermediate_size": 4304,
"model_type": "siglip_vision_model",
"num_attention_heads": 16,
"num_hidden_layers": 27,
"num_image_tokens": 256,
"patch_size": 14,
"projection_dim": 2048,
"projector_hidden_act": "gelu_pytorch_tanh",
"torch_dtype": precision,
"vision_use_head": False,
},
)
self.pi0_paligemma = PaliGemmaForConditionalGeneration(config=paligemma_config)
self.pi0_paligemma.prepare_inputs_for_generation = partial(
prepare_inputs_for_generation, self=self.pi0_paligemma
)
# change important stuff in bf16
params_to_change_dtype = [
"language_model",
"vision_tower",
"multi_modal",
]
for name, param in self.pi0_paligemma.named_parameters():
if any(selector in name for selector in params_to_change_dtype):
param.data = param.data.to(dtype=torch_precision)
self.set_requires_grad()
self.image_keys = self.config.image_features.keys()
self.ignore_index = self.pi0_paligemma.config.ignore_index
self.padding_side = self.config.padding_side
def set_requires_grad(self):
if self.config.freeze_vision_encoder:
self.pi0_paligemma.vision_tower.eval()
for params in self.pi0_paligemma.vision_tower.parameters():
params.requires_grad = False
# To avoid unused params issue with distributed training
if self.config.freeze_lm_head:
for name, params in self.pi0_paligemma.named_parameters():
if "embed_tokens" in name: # lm heads and embedding layer are tied
params.requires_grad = False
def embed_tokens(self, tokens: torch.Tensor):
return self.pi0_paligemma.language_model.model.embed_tokens(tokens)
def prepare_inputs_for_generation(self, *args, **kwargs):
return self.pi0_paligemma.prepare_inputs_for_generation(*args, **kwargs)
def prepare_images(self, batch):
"""Preprocess LeRobot batch into Pi0 inputs"""
images = []
img_masks = []
present_img_keys = [key for key in self.image_keys if key in batch]
if len(present_img_keys) == 0:
raise ValueError(
f"All image features are missing from the batch. At least one expected. (batch: {batch.keys()}) (image_features:{self.config.image_features})"
)
# Preprocess image features present in the batch
num_empty_cameras = 0
for key in self.image_keys:
if key in present_img_keys:
img = batch[key]
if self.config.resize_imgs_with_padding is not None:
img = resize_with_pad(
img,
*self.config.resize_imgs_with_padding,
pad_value=0,
interpolate_like_pi=self.config.interpolate_like_pi,
)
# Normalize from range [0,1] to [-1,1] as expacted by siglip
img = img * 2.0 - 1.0
bsize = img.shape[0]
device = img.device
mask = torch.ones(bsize, dtype=torch.bool, device=device)
else:
if num_empty_cameras >= self.config.empty_cameras:
continue
img = torch.ones_like(img) * -1
bsize = img.shape[0]
device = img.device
mask = torch.ones(bsize, dtype=torch.bool, device=device)
num_empty_cameras += 1
images.append(img)
img_masks.append(mask)
return images, img_masks
def normalize_actions(self, actions: torch.Tensor) -> torch.Tensor:
mins = actions.amin(dim=(1, 2), keepdim=True) # [0]
maxs = actions.amax(dim=(1, 2), keepdim=True) # [0]
return 2 * (actions - mins) / (maxs - mins + 1e-8) - 1
def _act_tokens_to_paligemma_tokens(self, tokens: torch.Tensor) -> torch.Tensor:
out = self.paligemma_tokenizer.vocab_size - 1 - self.fast_skip_tokens - tokens
return out
def fast_tokenizer_wrapper(self, actions_norm):
"""
A wrapper for self.fast_tokenizer that ensures batch processing,
conversion to PyTorch tensors, and returns a dictionary without padding.
"""
batch_tokens = self.fast_tokenizer(actions_norm)
fast_out = self.processor.tokenizer.pad({"input_ids": batch_tokens}, return_tensors="pt")
return fast_out
def create_token_type_ids(self, padded_mask: torch.Tensor, prefix_len: int) -> torch.Tensor:
token_type_ids = torch.zeros_like(padded_mask, dtype=torch.bool)
# Compute cumulative sum mask
cumsum_mask = (padded_mask != 0).cumsum(dim=1)
# Suffix block (everything after prefix_len)
suffix_mask = cumsum_mask > prefix_len
token_type_ids = suffix_mask
return token_type_ids
def create_input_tokens(self, state, lang_text, actions=None):
bsize = state.shape[0]
device = state.device
bins = torch.linspace(-1, 1, 256 + 1, device=device)[:-1]
discretized = torch.bucketize(state, bins) - 1
discretized = discretized[:, :32]
prefix_texts = []
state_text = []
for txt, disc in zip(lang_text, discretized, strict=False):
cleaned = txt.lower().strip().replace("_", " ")
state_str = " ".join(str(val.item()) for val in disc)
prefix_texts.append(f"Task: {cleaned}, State: {state_str};\n")
state_text.append(f"State: {state_str};\n")
prefix_out = self.paligemma_tokenizer(
prefix_texts, add_special_tokens=True, return_tensors="pt", padding="longest", truncation=False
)
prefix_ids = prefix_out["input_ids"].to(device)
prefix_mask = prefix_out["attention_mask"].to(device)
prefix_lens = prefix_mask.sum(dim=1)[:, None].cpu()
if actions is not None:
actions_norm = self.normalize_actions(actions)
actions_pad = F.pad(
actions_norm, (0, max(0, self.config.max_action_dim - actions_norm.shape[2])), value=0
)[:, :, : self.config.max_action_dim]
fast_out = self.fast_tokenizer_wrapper(
actions_pad.cpu(),
)
act_ids = fast_out["input_ids"]
act_mask = fast_out["attention_mask"].to(device)
act_ids = self._act_tokens_to_paligemma_tokens(act_ids).to(device)
# Replace action with 0 to pad tokens
act_ids = torch.where(
act_ids == self.paligemma_tokenizer.vocab_size - 1 - self.fast_skip_tokens,
self.pad_token_id,
act_ids,
)
eos_token = torch.tensor(
[self.paligemma_tokenizer.eos_token_id], dtype=torch.long, device=device
).expand(bsize, -1)
eos_mask = torch.tensor([1], dtype=torch.long, device=device).expand(bsize, -1)
bos = self.paligemma_tokenizer("Action: ", add_special_tokens=False, return_tensors="pt")
bos_token = bos["input_ids"].expand(act_ids.shape[0], -1).to(device)
bos_mask = bos["attention_mask"].expand(act_ids.shape[0], -1).to(device)
act_ids = torch.cat([bos_token, act_ids, eos_token], dim=1)
act_mask = torch.cat([bos_mask, act_mask, eos_mask], dim=1)
act_mask = act_mask.to(device)
else:
act_ids = torch.empty(bsize, self.pad_token_id, dtype=torch.long, device=device)
act_mask = torch.empty(bsize, 0, dtype=torch.long, device=device)
final_ids = torch.cat([prefix_ids, act_ids], dim=1)
final_mask = torch.cat([prefix_mask, act_mask], dim=1)
batch_inputs = {"input_ids": final_ids.tolist(), "attention_mask": final_mask.tolist()}
# Use tokenizer pad function
padded_output = self.paligemma_tokenizer.pad(
batch_inputs, padding="longest", max_length=180, return_tensors="pt"
)
padded_mask = padded_output["attention_mask"]
# define tensor of padding lengths
att_mask = (padded_mask != 0).cumsum(dim=1) > prefix_lens
token_type_ids = self.create_token_type_ids(padded_mask=padded_mask, prefix_len=prefix_lens)
padded_output["padded_mask"] = padded_output.pop("attention_mask")
padded_output["attention_mask"] = att_mask
# loss is computed not on prefix, and not on padding
padded_output["loss_mask"] = att_mask & padded_output["padded_mask"]
padded_output["token_type_ids"] = token_type_ids
return padded_output
def shift_padding_side(
self,
tokens: torch.Tensor,
ar_mask: torch.Tensor,
padding_mask: torch.Tensor,
loss_mask: torch.Tensor,
targets: torch.Tensor,
token_type_ids: torch.Tensor,
padding_side: str = "right",
) -> tuple[torch.Tensor]:
if padding_side not in ["right", "left"]:
return tokens, ar_mask, padding_mask, loss_mask, targets, token_type_ids
new_tokens = torch.empty_like(tokens)
new_ar_masks = torch.empty_like(ar_mask)
new_padding_mask = torch.empty_like(padding_mask)
new_loss_mask = torch.empty_like(loss_mask)
new_targets = torch.empty_like(targets)
new_token_type_ids = torch.empty_like(token_type_ids)
batch_size = tokens.shape[0]
for i in range(batch_size):
padding_indices = torch.where(padding_mask[i] == 0)[0]
non_padding_indices = torch.where(padding_mask[i] == 1)[0]
if padding_side == "left":
new_indices = torch.cat((padding_indices, non_padding_indices), dim=0)
else:
new_indices = torch.cat((non_padding_indices, padding_indices), dim=0)
new_tokens[i] = tokens[i].index_select(0, new_indices)
new_ar_masks[i] = ar_mask[i].index_select(0, new_indices)
new_padding_mask[i] = padding_mask[i].index_select(0, new_indices)
new_loss_mask[i] = loss_mask[i].index_select(0, new_indices)
new_targets[i] = targets[i].index_select(0, new_indices)
new_token_type_ids[i] = token_type_ids[i].index_select(0, new_indices)
return new_tokens, new_ar_masks, new_padding_mask, new_loss_mask, new_targets, new_token_type_ids
def forward(self, batch: dict[str, Tensor]):
device = batch[OBS_ROBOT].device
# TODO: keep like this or move to the policy .forward
images, img_masks = self.prepare_images(batch)
padded_outs = self.create_input_tokens(
state=batch[OBS_ROBOT],
lang_text=batch["task"],
actions=batch[ACTION],
)
embs, pad_masks, _, targets, loss_mask, token_type_ids = self.embed_inputs(
images,
img_masks,
padded_outs["input_ids"],
padded_outs["padded_mask"],
padded_outs["attention_mask"],
padded_outs["loss_mask"],
padded_outs["token_type_ids"],
padding_side=self.padding_side,
)
position_ids = torch.cumsum(pad_masks, dim=1) - 1
token_type_ids = token_type_ids.to(dtype=torch.int64)
past_seen_tokens = 0
cache_position = torch.arange(past_seen_tokens, past_seen_tokens + embs.shape[1], device=embs.device)
pad_masks = block_causal_update_causal_mask(
attention_mask=pad_masks,
past_key_values=None,
cache_position=cache_position,
input_tensor=embs,
token_type_ids=token_type_ids,
dtype=self.pi0_paligemma.dtype,
attn_implementation=self.pi0_paligemma.config.text_config._attn_implementation,
)
outputs = self.pi0_paligemma.forward(
input_ids=None,
token_type_ids=None,
attention_mask=pad_masks,
position_ids=position_ids,
past_key_values=None,
inputs_embeds=embs,
use_cache=False,
labels=None,
)
logits = outputs.logits
loss_fct = nn.CrossEntropyLoss(reduction="none")
# Shift left for next-step prediction
logits = logits[:, :-1, :]
targets = targets[:, 1:].to(device) # Shift targets
loss_mask = loss_mask[:, 1:].to(device) # Ensure correct shape
# Compute per-token loss
token_loss = loss_fct(logits.reshape(-1, logits.shape[-1]), targets.reshape(-1))
# Apply loss mask
token_loss = token_loss * loss_mask.reshape(-1)
# Compute final loss
loss = token_loss.sum() / torch.clamp(loss_mask.sum(), min=1)
# Return loss dictionary
loss_dict = {"ce_loss": loss.item(), "loss": loss}
return loss_dict
def decode_actions_with_fast(
self,
tokens: list[list[int]],
*,
time_horizon: int | None = None,
action_dim: int | None = None,
relaxed_decoding: bool = True,
) -> np.array:
"""
Adapt original decoding in FAST to always return actions instead of zeros.
"""
self.time_horizon = (
time_horizon or self.fast_tokenizer.time_horizon or self.fast_tokenizer.called_time_horizon
)
self.action_dim = (
action_dim or self.fast_tokenizer.action_dim or self.fast_tokenizer.called_action_dim
)
# Cache the time horizon and action dimension for the next call
self.called_time_horizon = self.time_horizon
self.called_action_dim = self.action_dim
assert self.time_horizon is not None and self.action_dim is not None, (
"Tokenizer not initialized, call encode() once or pass in time_horizon and action_dim."
)
decoded_actions = []
for token in tokens:
try:
decoded_tokens = self.fast_tokenizer.bpe_tokenizer.decode(token)
decoded_dct_coeff = np.array(list(map(ord, decoded_tokens))) + self.fast_tokenizer.min_token
if relaxed_decoding:
# Expected sequence length
expected_seq_len = self.time_horizon * self.action_dim
diff = expected_seq_len - decoded_dct_coeff.shape[0]
# Apply truncation if too long
if diff < 0:
decoded_dct_coeff = decoded_dct_coeff[:expected_seq_len] # Truncate on the right
# Apply padding if too short
elif diff > 0:
decoded_dct_coeff = np.pad(
decoded_dct_coeff, (0, diff), mode="constant", constant_values=0
)
decoded_dct_coeff = decoded_dct_coeff.reshape(-1, self.action_dim)
assert decoded_dct_coeff.shape == (
self.time_horizon,
self.action_dim,
), (
f"Decoded DCT coefficients have shape {decoded_dct_coeff.shape}, expected ({self.time_horizon}, {self.action_dim})"
)
except Exception as e:
print(f"Error decoding tokens: {e}")
print(f"Tokens: {token}")
decoded_dct_coeff = np.zeros((self.time_horizon, self.action_dim))
decoded_actions.append(idct(decoded_dct_coeff / self.fast_tokenizer.scale, axis=0, norm="ortho"))
return np.stack(decoded_actions)
def extract_actions(self, tokens: torch.Tensor, action_horizon: int, action_dim: int) -> torch.Tensor:
"""
Extracts actions from predicted output tokens using the FAST model.
Args:
tokens (torch.Tensor): The input tensor of tokenized outputs.
action_horizon (int): The number of timesteps for actions.
action_dim (int): The dimensionality of each action.
Returns:
torch.Tensor: The extracted actions as a tensor of shape (action_horizon, action_dim).
"""
# Decode predicted output tokens
decoded_tokens = self.paligemma_tokenizer.batch_decode(tokens, skip_special_tokens=True)
cleaned_tokens = [
tokens_sequence.replace("Action:", "").replace(":", "").strip().split("|")[0].strip()
for tokens_sequence in decoded_tokens
]
raw_action_tokens = [
self.processor.tokenizer.encode(sample_tokens, return_tensors="pt", padding=False)
for sample_tokens in cleaned_tokens
] # something like this should be robust #looks good
action_tokens = [
self._act_tokens_to_paligemma_tokens(raw_action_token) for raw_action_token in raw_action_tokens
]
# returns the tensor of decoded actions per sample in a list
decoded_actions = [
torch.tensor(
self.decode_actions_with_fast(
tok.tolist(),
time_horizon=action_horizon,
action_dim=action_dim,
relaxed_decoding=self.config.relaxed_action_decoding,
),
device=tokens.device,
).squeeze(0)
for tok in action_tokens
]
return torch.stack(
decoded_actions,
dim=0,
)
def generate_actions(self, batch: dict[str, Tensor]):
# TODO: keep like this or move to the policy .forward
images, img_masks = self.prepare_images(batch)
padded_outs = self.create_input_tokens(state=batch[OBS_ROBOT], lang_text=batch["task"], actions=None)
embs, pad_masks, att_masks2, targets, loss_mask, token_type_ids = self.embed_inputs(
images,
img_masks,
padded_outs["input_ids"],
padded_outs["padded_mask"],
padded_outs["attention_mask"],
padded_outs["loss_mask"],
padded_outs["token_type_ids"],
padding_side="left",
)
token_type_ids = token_type_ids.to(dtype=torch.int64)
prefix_position_ids = torch.cumsum(pad_masks, dim=1) - 1
output_tokens = self.pi0_paligemma.generate(
input_ids=None,
attention_mask=pad_masks,
position_ids=prefix_position_ids,
past_key_values=None,
inputs_embeds=embs,
use_cache=self.config.use_cache,
max_new_tokens=self.config.max_decoding_steps,
do_sample=False,
num_beams=1,
token_type_ids=token_type_ids,
)
actions = self.extract_actions(output_tokens, self.action_horizon, self.action_dim)
return actions
def embed_image(self, image: torch.Tensor):
return self.pi0_paligemma.get_image_features(image)
def embed_inputs(
self,
images,
img_masks,
tokens,
pad_mask,
ar_mask,
loss_mask,
token_type_ids,
padding_side: str = "right",
):
# TODO: avoid list in python and torch.cat ; prefer pre-allocation with torch.empty
# images are a list of same size
# vectorizing everything!
device = images[0].device
image_embedding_dim = images[0].shape[-1] # TODO should be from self.config
all_images = torch.stack(images, dim=1).to(device)
b, n, c, h, w = all_images.shape
all_images = all_images.view(b * n, c, h, w)
embedded = self.embed_image(all_images).to(device)
b_n, p, image_embedding_dim = embedded.shape # Extract current dimensions
m = b_n // b # Compute the number of images per sample dynamically
# Reshape dynamically
embedded = embedded.view(b, m, p, image_embedding_dim)
tokens_embs = self.embed_tokens(tokens.to(device))
img_masks = torch.stack(img_masks, dim=1).unsqueeze(-1).to(device)
num_img_emb = embedded.shape[2]
img_pad_masks = img_masks.repeat(1, 1, num_img_emb).view(b, -1)
img_att_masks = torch.zeros((b, n, num_img_emb), dtype=torch.long, device=device).reshape(b, -1)
image_target_tokens = (
torch.ones((b, n, num_img_emb), dtype=torch.long, device=device) * self.pad_token_id
).reshape(b, -1)
image_loss_mask = torch.zeros((b, n, num_img_emb), dtype=torch.long, device=device).reshape(b, -1)
embedded = embedded.reshape(b, n * num_img_emb, image_embedding_dim) # Shape: (B, N*P, D)
embs = torch.cat([embedded, tokens_embs], dim=1).to(device)
pad_masks = torch.cat([img_pad_masks, pad_mask.to(device)], dim=1)
att_masks = torch.cat([img_att_masks, ar_mask.to(device)], dim=1)
loss_masks = torch.cat([image_loss_mask, loss_mask.to(device)], dim=1)
targets = torch.cat([image_target_tokens, tokens.to(device)], dim=1)
token_type_ids = torch.cat([img_att_masks, token_type_ids.to(device)], dim=1)
# Shift pad tokens to the left (.generate()) or right (.train())
embs, att_masks, pad_masks, loss_masks, targets, token_type_ids = self.shift_padding_side(
embs, att_masks, pad_masks, loss_masks, targets, token_type_ids, padding_side=padding_side
)
targets = torch.where(targets == self.pad_token_id, self.ignore_index, targets)
return embs, pad_masks, att_masks, targets, loss_masks, token_type_ids
def resize_with_pad(img, width, height, pad_value=0, interpolate_like_pi=True):
# assume no-op when width height fits already
if img.ndim != 4:
raise ValueError(f"(b,c,h,w) expected, but {img.shape}")
cur_height, cur_width = img.shape[2:]
ratio = max(cur_width / width, cur_height / height)
resized_height = int(cur_height / ratio)
resized_width = int(cur_width / ratio)
if interpolate_like_pi:
img = (img * 255.0).to(dtype=torch.uint8)
img = img.permute(0, 2, 3, 1)
original_device = img.device
img = img.to(device="cpu").numpy()
imgs = []
for sub_img in img:
sub_img = Image.fromarray(sub_img)
resized_img = sub_img.resize((resized_width, resized_height), resample=2)
resized_img = torch.from_numpy(np.array(resized_img))
imgs.append(resized_img)
img = torch.stack(imgs, dim=0)
img = img.permute(0, 3, 1, 2)
resized_img = img.to(device=original_device, dtype=torch.float32) / 255.0
else:
resized_img = F.interpolate(
img, size=(resized_height, resized_width), mode="bilinear", align_corners=False
)
pad_height = max(0, int(height - resized_height))
pad_width = max(0, int(width - resized_width))
# pad on left and top of image
padded_img = F.pad(resized_img, (pad_width, 0, pad_height, 0), value=pad_value)
return padded_img

2
lerobot/common/policies/tdmpc/modeling_tdmpc.py
View File

@@ -122,7 +122,7 @@ class TDMPCPolicy(PreTrainedPolicy):
# When the action queue is depleted, populate it again by querying the policy.
if len(self._queues["action"]) == 0:
batch = {key: torch.stack(list(self._queues[key]), dim=1) for key in batch if key in self._queues}
batch = {key: torch.stack(list(self._queues[key]), dim=1) for key in batch}
# Remove the time dimensions as it is not handled yet.
for key in batch:

20
lerobot/common/teleoperators/widowx/config_widowx.py → lerobot/common/robots/dummy/configuration_dummy.py
View File

@@ -1,5 +1,3 @@
#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
@@ -14,12 +12,20 @@
# See the License for the specific language governing permissions and
# limitations under the License.
from dataclasses import dataclass
from dataclasses import dataclass, field
from ..config import TeleoperatorConfig
from lerobot.common.cameras.configs import CameraConfig
from lerobot.common.cameras.opencv.configuration_opencv import OpenCVCameraConfig
from lerobot.common.robots.config import RobotConfig
@TeleoperatorConfig.register_subclass("widowx")
@RobotConfig.register_subclass("dummy")
@dataclass
class WidowXConfig(TeleoperatorConfig):
port: str # Port to connect to the arm
class DummyConfig(RobotConfig):
id = "dummy"
cameras: dict[str, CameraConfig] = field(
default_factory=lambda: {
"cam": OpenCVCameraConfig(camera_index=0, fps=30, width=1280, height=720),
}
)

101
lerobot/common/robots/dummy/dummy.py Normal file
View File

@@ -0,0 +1,101 @@
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import logging
import numpy as np
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from ..robot import Robot
from .configuration_dummy import DummyConfig
class Dummy(Robot):
config_class = DummyConfig
name = "dummy"
def __init__(self, config: DummyConfig):
super().__init__(config)
self.cameras = make_cameras_from_configs(config.cameras)
self.is_connected = False
@property
def state_feature(self) -> dict:
logging.warning("Dummy has nothing to send.")
@property
def action_feature(self) -> dict:
logging.warning("Dummy has nothing to send.")
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {
"cam": {
"shape": (480, 640, 3),
"names": ["height", "width", "channels"],
"info": None,
},
}
return cam_ft
def connect(self) -> None:
if self.is_connected:
raise DeviceAlreadyConnectedError(
"Dummy is already connected. Do not run `robot.connect()` twice."
)
logging.info("Connecting cameras.")
for cam in self.cameras.values():
cam.connect()
self.is_connected = True
def calibrate(self) -> None:
logging.warning("Dummy has nothing to calibrate.")
return
def get_observation(self) -> dict[str, np.ndarray]:
if not self.is_connected:
raise DeviceNotConnectedError("Dummy is not connected. You need to run `robot.connect()`.")
obs_dict = {}
for cam_key, cam in self.cameras.items():
frame = cam.async_read()
obs_dict[f"{OBS_STATE}.{cam_key}"] = frame
return obs_dict
def send_action(self, action: np.ndarray) -> np.ndarray:
logging.warning("Dummy has nothing to send.")
def print_logs(self):
pass
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(
"Dummy is not connected. You need to run `robot.connect()` before disconnecting."
)
for cam in self.cameras.values():
cam.disconnect()
self.is_connected = False
def __del__(self):
if getattr(self, "is_connected", False):
self.disconnect()

71
lerobot/common/robots/dummy/dummy_app.py Executable file
View File

@@ -0,0 +1,71 @@
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import logging
import time
import rerun as rr
from lerobot.common.robots.dummy.configuration_dummy import DummyConfig
from lerobot.common.robots.dummy.dummy import Dummy
from lerobot.common.teleoperators.so100 import SO100Teleop, SO100TeleopConfig
# IMO, it's better to use rerun in the application code instead of the library code
def main():
logging.info("Configuring Devices")
leader_arm_config = SO100TeleopConfig(port="/dev/tty.usbmodem58760434171")
leader_arm = SO100Teleop(leader_arm_config)
robot_config = DummyConfig()
robot = Dummy(robot_config)
logging.info("Connecting SO100 Devices")
leader_arm.connect()
logging.info("Connecting Dummy")
robot.connect()
rr.init("rerun_dummy_data")
# If data source and visualizer are in different host, use .connect() instead to establish a tcp connection
# We can define a custom blueprint configuration for the visualizer panels
# Memory limit will make sure no more than 5% of the memory is used by the visualizer
rr.spawn(memory_limit="5%")
logging.info("Starting...")
i = 0
while i < 10000:
# An alternative would be do rerun log inside of these methods. But then that means embedding rerun into the library
arm_action = leader_arm.get_action()
observation = robot.get_observation()
for j in range(arm_action.size):
# If you want to disable batching we can do it: export RERUN_FLUSH_NUM_BYTES=256
current_time = time.time()
rr.set_time_seconds(f"arm_action_{j}", current_time)
rr.log(f"arm_action_{j}", rr.Scalar(arm_action[j]))
for k, v in observation.items():
# This discards all previous image frames
rr.set_time_seconds(k, 0.0)
rr.log(k, rr.Image(v))
i += 1
robot.disconnect()
leader_arm.disconnect()
if __name__ == "__main__":
main()

6
lerobot/common/robots/koch/__init__.py
View File

@@ -1,2 +1,4 @@
from .config_koch_follower import KochFollowerConfig
from .koch_follower import KochFollower
from .configuration_koch import KochRobotConfig
from .robot_koch import KochRobot
__all__ = ["KochRobotConfig", "KochRobot"]

8
lerobot/common/robots/koch/config_koch_follower.py → lerobot/common/robots/koch/configuration_koch.py
View File

@@ -5,14 +5,12 @@ from lerobot.common.cameras import CameraConfig
from ..config import RobotConfig
@RobotConfig.register_subclass("koch_follower")
@RobotConfig.register_subclass("koch")
@dataclass
class KochFollowerConfig(RobotConfig):
# Port to connect to the arm
class KochRobotConfig(RobotConfig):
# Port to connect to the robot
port: str
disable_torque_on_disconnect: bool = True
# `max_relative_target` limits the magnitude of the relative positional target vector for safety purposes.
# Set this to a positive scalar to have the same value for all motors, or a list that is the same length as
# the number of motors in your follower arms.

230
lerobot/common/robots/koch/koch_follower.py
View File

@@ -1,230 +0,0 @@
#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import logging
import time
from typing import Any
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors import Motor, MotorCalibration, MotorNormMode
from lerobot.common.motors.dynamixel import (
DynamixelMotorsBus,
OperatingMode,
)
from ..robot import Robot
from ..utils import ensure_safe_goal_position
from .config_koch_follower import KochFollowerConfig
logger = logging.getLogger(__name__)
class KochFollower(Robot):
"""
- [Koch v1.0](https://github.com/AlexanderKoch-Koch/low_cost_robot), with and without the wrist-to-elbow
expansion, developed by Alexander Koch from [Tau Robotics](https://tau-robotics.com)
- [Koch v1.1](https://github.com/jess-moss/koch-v1-1) developed by Jess Moss
"""
config_class = KochFollowerConfig
name = "koch_follower"
def __init__(self, config: KochFollowerConfig):
super().__init__(config)
self.config = config
self.arm = DynamixelMotorsBus(
port=self.config.port,
motors={
"shoulder_pan": Motor(1, "xl430-w250", MotorNormMode.RANGE_M100_100),
"shoulder_lift": Motor(2, "xl430-w250", MotorNormMode.RANGE_M100_100),
"elbow_flex": Motor(3, "xl330-m288", MotorNormMode.RANGE_M100_100),
"wrist_flex": Motor(4, "xl330-m288", MotorNormMode.RANGE_M100_100),
"wrist_roll": Motor(5, "xl330-m288", MotorNormMode.RANGE_M100_100),
"gripper": Motor(6, "xl330-m288", MotorNormMode.RANGE_0_100),
},
calibration=self.calibration,
)
self.cameras = make_cameras_from_configs(config.cameras)
@property
def state_feature(self) -> dict:
return {
"dtype": "float32",
"shape": (len(self.arm),),
"names": {"motors": list(self.arm.motors)},
}
@property
def action_feature(self) -> dict:
return self.state_feature
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {}
for cam_key, cam in self.cameras.items():
cam_ft[cam_key] = {
"shape": (cam.height, cam.width, cam.channels),
"names": ["height", "width", "channels"],
"info": None,
}
return cam_ft
@property
def is_connected(self) -> bool:
# TODO(aliberts): add cam.is_connected for cam in self.cameras
return self.arm.is_connected
def connect(self) -> None:
"""
We assume that at connection time, arm is in a rest position,
and torque can be safely disabled to run calibration.
"""
if self.is_connected:
raise DeviceAlreadyConnectedError(f"{self} already connected")
self.arm.connect()
if not self.is_calibrated:
self.calibrate()
for cam in self.cameras.values():
cam.connect()
self.configure()
logger.info(f"{self} connected.")
@property
def is_calibrated(self) -> bool:
return self.arm.is_calibrated
def calibrate(self) -> None:
logger.info(f"\nRunning calibration of {self}")
self.arm.disable_torque()
for name in self.arm.names:
self.arm.write("Operating_Mode", name, OperatingMode.EXTENDED_POSITION.value)
input("Move robot to the middle of its range of motion and press ENTER....")
homing_offsets = self.arm.set_half_turn_homings()
full_turn_motors = ["shoulder_pan", "wrist_roll"]
unknown_range_motors = [name for name in self.arm.names if name not in full_turn_motors]
logger.info(
f"Move all joints except {full_turn_motors} sequentially through their entire "
"ranges of motion.\nRecording positions. Press ENTER to stop..."
)
range_mins, range_maxes = self.arm.record_ranges_of_motion(unknown_range_motors)
for name in full_turn_motors:
range_mins[name] = 0
range_maxes[name] = 4095
self.calibration = {}
for name, motor in self.arm.motors.items():
self.calibration[name] = MotorCalibration(
id=motor.id,
drive_mode=0,
homing_offset=homing_offsets[name],
range_min=range_mins[name],
range_max=range_maxes[name],
)
self.arm.write_calibration(self.calibration)
self._save_calibration()
logger.info(f"Calibration saved to {self.calibration_fpath}")
def configure(self) -> None:
with self.arm.torque_disabled():
self.arm.configure_motors()
# Use 'extended position mode' for all motors except gripper, because in joint mode the servos
# can't rotate more than 360 degrees (from 0 to 4095) And some mistake can happen while assembling
# the arm, you could end up with a servo with a position 0 or 4095 at a crucial point
for name in self.arm.names:
if name != "gripper":
self.arm.write("Operating_Mode", name, OperatingMode.EXTENDED_POSITION.value)
# Use 'position control current based' for gripper to be limited by the limit of the current. For
# the follower gripper, it means it can grasp an object without forcing too much even tho, its
# goal position is a complete grasp (both gripper fingers are ordered to join and reach a touch).
# For the leader gripper, it means we can use it as a physical trigger, since we can force with
# our finger to make it move, and it will move back to its original target position when we
# release the force.
self.arm.write("Operating_Mode", "gripper", OperatingMode.CURRENT_POSITION.value)
# Set better PID values to close the gap between recorded states and actions
# TODO(rcadene): Implement an automatic procedure to set optimal PID values for each motor
self.arm.write("Position_P_Gain", "elbow_flex", 1500)
self.arm.write("Position_I_Gain", "elbow_flex", 0)
self.arm.write("Position_D_Gain", "elbow_flex", 600)
def get_observation(self) -> dict[str, Any]:
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
obs_dict = {}
# Read arm position
start = time.perf_counter()
obs_dict[OBS_STATE] = self.arm.sync_read("Present_Position")
dt_ms = (time.perf_counter() - start) * 1e3
logger.debug(f"{self} read state: {dt_ms:.1f}ms")
# Capture images from cameras
for cam_key, cam in self.cameras.items():
start = time.perf_counter()
obs_dict[f"{OBS_IMAGES}.{cam_key}"] = cam.async_read()
dt_ms = (time.perf_counter() - start) * 1e3
logger.debug(f"{self} read {cam_key}: {dt_ms:.1f}ms")
return obs_dict
def send_action(self, action: dict[str, float]) -> dict[str, float]:
"""Command arm to move to a target joint configuration.
The relative action magnitude may be clipped depending on the configuration parameter
`max_relative_target`. In this case, the action sent differs from original action.
Thus, this function always returns the action actually sent.
Args:
action (dict[str, float]): The goal positions for the motors.
Returns:
dict[str, float]: The action sent to the motors, potentially clipped.
"""
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
goal_pos = action
# Cap goal position when too far away from present position.
# /!\ Slower fps expected due to reading from the follower.
if self.config.max_relative_target is not None:
present_pos = self.arm.sync_read("Present_Position")
goal_present_pos = {key: (g_pos, present_pos[key]) for key, g_pos in goal_pos.items()}
goal_pos = ensure_safe_goal_position(goal_present_pos, self.config.max_relative_target)
# Send goal position to the arm
self.arm.sync_write("Goal_Position", goal_pos)
return goal_pos
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
self.arm.disconnect(self.config.disable_torque_on_disconnect)
for cam in self.cameras.values():
cam.disconnect()
logger.info(f"{self} disconnected.")

217
lerobot/common/robots/koch/robot_koch.py Normal file
View File

@@ -0,0 +1,217 @@
#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import json
import logging
import time
import numpy as np
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors.dynamixel import (
DynamixelMotorsBus,
TorqueMode,
run_arm_calibration,
set_operating_mode,
)
from ..robot import Robot
from ..utils import ensure_safe_goal_position
from .configuration_koch import KochRobotConfig
class KochRobot(Robot):
"""
- [Koch v1.0](https://github.com/AlexanderKoch-Koch/low_cost_robot), with and without the wrist-to-elbow
expansion, developed by Alexander Koch from [Tau Robotics](https://tau-robotics.com)
- [Koch v1.1](https://github.com/jess-moss/koch-v1-1) developed by Jess Moss
"""
config_class = KochRobotConfig
name = "koch"
def __init__(self, config: KochRobotConfig):
super().__init__(config)
self.config = config
self.robot_type = config.type
self.arm = DynamixelMotorsBus(
port=self.config.port,
motors={
"shoulder_pan": (1, "xl430-w250"),
"shoulder_lift": (2, "xl430-w250"),
"elbow_flex": (3, "xl330-m288"),
"wrist_flex": (4, "xl330-m288"),
"wrist_roll": (5, "xl330-m288"),
"gripper": (6, "xl330-m288"),
},
)
self.cameras = make_cameras_from_configs(config.cameras)
self.is_connected = False
self.logs = {}
@property
def state_feature(self) -> dict:
return {
"dtype": "float32",
"shape": (len(self.arm),),
"names": {"motors": list(self.arm.motors)},
}
@property
def action_feature(self) -> dict:
return self.state_feature
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {}
for cam_key, cam in self.cameras.items():
cam_ft[cam_key] = {
"shape": (cam.height, cam.width, cam.channels),
"names": ["height", "width", "channels"],
"info": None,
}
return cam_ft
def connect(self) -> None:
if self.is_connected:
raise DeviceAlreadyConnectedError(
"ManipulatorRobot is already connected. Do not run `robot.connect()` twice."
)
logging.info("Connecting arm.")
self.arm.connect()
# We assume that at connection time, arm is in a rest position,
# and torque can be safely disabled to run calibration.
self.arm.write("Torque_Enable", TorqueMode.DISABLED.value)
self.calibrate()
set_operating_mode(self.arm)
# Set better PID values to close the gap between recorded states and actions
# TODO(rcadene): Implement an automatic procedure to set optimal PID values for each motor
self.arm.write("Position_P_Gain", 1500, "elbow_flex")
self.arm.write("Position_I_Gain", 0, "elbow_flex")
self.arm.write("Position_D_Gain", 600, "elbow_flex")
logging.info("Activating torque.")
self.arm.write("Torque_Enable", TorqueMode.ENABLED.value)
# Check arm can be read
self.arm.read("Present_Position")
# Connect the cameras
for cam in self.cameras.values():
cam.connect()
self.is_connected = True
def calibrate(self) -> None:
"""After calibration all motors function in human interpretable ranges.
Rotations are expressed in degrees in nominal range of [-180, 180],
and linear motions (like gripper of Aloha) in nominal range of [0, 100].
"""
if self.calibration_fpath.exists():
with open(self.calibration_fpath) as f:
calibration = json.load(f)
else:
# TODO(rcadene): display a warning in __init__ if calibration file not available
logging.info(f"Missing calibration file '{self.calibration_fpath}'")
calibration = run_arm_calibration(self.arm, self.robot_type, self.name, "follower")
logging.info(f"Calibration is done! Saving calibration file '{self.calibration_fpath}'")
self.calibration_fpath.parent.mkdir(parents=True, exist_ok=True)
with open(self.calibration_fpath, "w") as f:
json.dump(calibration, f)
self.arm.set_calibration(calibration)
def get_observation(self) -> dict[str, np.ndarray]:
"""The returned observations do not have a batch dimension."""
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()`."
)
obs_dict = {}
# Read arm position
before_read_t = time.perf_counter()
obs_dict[OBS_STATE] = self.arm.read("Present_Position")
self.logs["read_pos_dt_s"] = time.perf_counter() - before_read_t
# Capture images from cameras
for cam_key, cam in self.cameras.items():
before_camread_t = time.perf_counter()
obs_dict[f"{OBS_IMAGES}.{cam_key}"] = cam.async_read()
self.logs[f"read_camera_{cam_key}_dt_s"] = cam.logs["delta_timestamp_s"]
self.logs[f"async_read_camera_{cam_key}_dt_s"] = time.perf_counter() - before_camread_t
return obs_dict
def send_action(self, action: np.ndarray) -> np.ndarray:
"""Command arm to move to a target joint configuration.
The relative action magnitude may be clipped depending on the configuration parameter
`max_relative_target`. In this case, the action sent differs from original action.
Thus, this function always returns the action actually sent.
Args:
action (np.ndarray): array containing the goal positions for the motors.
Raises:
RobotDeviceNotConnectedError: if robot is not connected.
Returns:
np.ndarray: the action sent to the motors, potentially clipped.
"""
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()`."
)
goal_pos = action
# Cap goal position when too far away from present position.
# /!\ Slower fps expected due to reading from the follower.
if self.config.max_relative_target is not None:
present_pos = self.arm.read("Present_Position")
goal_pos = ensure_safe_goal_position(goal_pos, present_pos, self.config.max_relative_target)
# Send goal position to the arm
self.arm.write("Goal_Position", goal_pos.astype(np.int32))
return goal_pos
def print_logs(self):
# TODO(aliberts): move robot-specific logs logic here
pass
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()` before disconnecting."
)
self.arm.disconnect()
for cam in self.cameras.values():
cam.disconnect()
self.is_connected = False

28
lerobot/common/robots/lekiwi/README.md
View File

@@ -67,13 +67,7 @@ conda activate lerobot
git clone https://github.com/huggingface/lerobot.git ~/lerobot
```
#### 5. Install ffmpeg in your environment:
When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
#### 6. Install LeRobot with dependencies for the feetech motors:
#### 5. Install LeRobot with dependencies for the feetech motors:
```bash
cd ~/lerobot && pip install -e ".[feetech]"
```
@@ -114,17 +108,17 @@ conda activate lerobot
git clone https://github.com/huggingface/lerobot.git ~/lerobot
```
#### 5. Install ffmpeg in your environment:
When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
#### 6. Install LeRobot with dependencies for the feetech motors:
#### 5. Install LeRobot with dependencies for the feetech motors:
```bash
cd ~/lerobot && pip install -e ".[feetech]"
```
*EXTRA: For Linux only (not Mac)*: install extra dependencies for recording datasets:
```bash
conda install -y -c conda-forge ffmpeg
pip uninstall -y opencv-python
conda install -y -c conda-forge "opencv>=4.10.0"
```
Great :hugs:! You are now done installing LeRobot and we can begin assembling the SO100 arms and Mobile base :robot:.
Every time you now want to use LeRobot you can go to the `~/lerobot` folder where we installed LeRobot and run one of the commands.
@@ -405,10 +399,6 @@ python lerobot/scripts/control_robot.py \
```
# F. Teleoperate
> [!TIP]
> If you're using a Mac, you might need to give Terminal permission to access your keyboard. Go to System Preferences > Security & Privacy > Input Monitoring and check the box for Terminal.
To teleoperate SSH into your Raspberry Pi, and run `conda activate lerobot` and this script:
```bash
python lerobot/scripts/control_robot.py \
@@ -424,8 +414,6 @@ python lerobot/scripts/control_robot.py \
--control.fps=30
```
> **NOTE:** To visualize the data, enable `--control.display_data=true`. This streams the data using `rerun`. For the `--control.type=remote_robot` you will also need to set `--control.viewer_ip` and `--control.viewer_port`
You should see on your laptop something like this: ```[INFO] Connected to remote robot at tcp://172.17.133.91:5555 and video stream at tcp://172.17.133.91:5556.``` Now you can move the leader arm and use the keyboard (w,a,s,d) to drive forward, left, backwards, right. And use (z,x) to turn left or turn right. You can use (r,f) to increase and decrease the speed of the mobile robot. There are three speed modes, see the table below:
| Speed Mode | Linear Speed (m/s) | Rotation Speed (deg/s) |
| ---------- | ------------------ | ---------------------- |

132
lerobot/common/robots/manipulator.py
View File

@@ -18,6 +18,7 @@ and send orders to its motors.
# TODO(rcadene, aliberts): reorganize the codebase into one file per robot, with the associated
# calibration procedure, to make it easy for people to add their own robot.
import json
import time
import warnings
from dataclasses import dataclass, field
@@ -80,6 +81,73 @@ class ManipulatorRobotConfig(RobotConfig):
)
def apply_feetech_offsets_from_calibration(motorsbus, calibration_dict: dict):
"""
Reads 'calibration_dict' containing 'homing_offset' and 'motor_names',
then writes each motor's offset to the servo's internal Offset (0x1F) in EPROM.
This version is modified so each homed position (originally 0) will now read
2047, i.e. 180° away from 0 in the 4096-count circle. Offsets are permanently
stored in EEPROM, so the servo's Present_Position is hardware-shifted even
after power cycling.
Steps:
1) Subtract 2047 from the old offset (so 0 -> 2047).
2) Clamp to [-2047..+2047].
3) Encode sign bit and magnitude into a 12-bit number.
"""
homing_offsets = calibration_dict["homing_offset"]
motor_names = calibration_dict["motor_names"]
start_pos = calibration_dict["start_pos"]
# Open the write lock, changes to EEPROM do NOT persist yet
motorsbus.write("Lock", 1)
# For each motor, set the 'Offset' parameter
for m_name, old_offset in zip(motor_names, homing_offsets, strict=False):
# If bus doesnt have a motor named m_name, skip
if m_name not in motorsbus.motors:
print(f"Warning: '{m_name}' not found in motorsbus.motors; skipping offset.")
continue
if m_name == "gripper":
old_offset = start_pos # If gripper set the offset to the start position of the gripper
continue
# Shift the offset so the homed position reads 2047
new_offset = old_offset - 2047
# Clamp to [-2047..+2047]
if new_offset > 2047:
new_offset = 2047
print(
f"Warning: '{new_offset}' is getting clamped because its larger then 2047; This should not happen!"
)
elif new_offset < -2047:
new_offset = -2047
print(
f"Warning: '{new_offset}' is getting clamped because its smaller then -2047; This should not happen!"
)
# Determine the direction (sign) bit and magnitude
direction_bit = 1 if new_offset < 0 else 0
magnitude = abs(new_offset)
# Combine sign bit (bit 11) with the magnitude (bits 0..10)
servo_offset = (direction_bit << 11) | magnitude
# Write offset to servo
motorsbus.write("Offset", servo_offset, motor_names=m_name)
print(
f"Set offset for {m_name}: "
f"old_offset={old_offset}, new_offset={new_offset}, servo_encoded={magnitude} + direction={direction_bit}"
)
motorsbus.write("Lock", 0)
print("Offsets have been saved to EEPROM successfully.")
class ManipulatorRobot:
# TODO(rcadene): Implement force feedback
"""This class allows to control any manipulator robot of various number of motors.
@@ -279,6 +347,8 @@ class ManipulatorRobot:
for name in self.leader_arms:
self.leader_arms[name].write("Torque_Enable", TorqueMode.DISABLED.value)
self.activate_calibration()
# Set robot preset (e.g. torque in leader gripper for Koch v1.1)
if self.robot_type in ["koch", "koch_bimanual"]:
self.set_koch_robot_preset()
@@ -315,6 +385,61 @@ class ManipulatorRobot:
self.is_connected = True
def activate_calibration(self):
"""After calibration all motors function in human interpretable ranges.
Rotations are expressed in degrees in nominal range of [-180, 180],
and linear motions (like gripper of Aloha) in nominal range of [0, 100].
"""
def load_or_run_calibration_(name, arm, arm_type):
arm_id = get_arm_id(name, arm_type)
arm_calib_path = self.calibration_dir / f"{arm_id}.json"
if arm_calib_path.exists():
with open(arm_calib_path) as f:
calibration = json.load(f)
else:
# TODO(rcadene): display a warning in __init__ if calibration file not available
print(f"Missing calibration file '{arm_calib_path}'")
if self.robot_type in ["koch", "koch_bimanual", "aloha"]:
from lerobot.common.motors.dynamixel.dynamixel_calibration import run_arm_calibration
calibration = run_arm_calibration(arm, self.robot_type, name, arm_type)
elif self.robot_type in ["so100", "moss", "lekiwi"]:
from lerobot.common.motors.feetech.feetech_calibration import (
run_full_arm_calibration,
)
calibration = run_full_arm_calibration(arm, self.robot_type, name, arm_type)
print(f"Calibration is done! Saving calibration file '{arm_calib_path}'")
arm_calib_path.parent.mkdir(parents=True, exist_ok=True)
with open(arm_calib_path, "w") as f:
json.dump(calibration, f)
return calibration
# For each follower arm
for name, arm_bus in self.follower_arms.items():
calibration = load_or_run_calibration_(name, arm_bus, "follower")
arm_bus.set_calibration(calibration)
# If this is a Feetech robot, also set the servo offset into EEPROM
if self.robot_type in ["so100", "lekiwi"]:
apply_feetech_offsets_from_calibration(arm_bus, calibration)
# For each leader arm
for name, arm_bus in self.leader_arms.items():
calibration = load_or_run_calibration_(name, arm_bus, "leader")
arm_bus.set_calibration(calibration)
# Optionally also set offset for leader if you want the servo offsets as well
if self.robot_type in ["so100", "lekiwi"]:
apply_feetech_offsets_from_calibration(arm_bus, calibration)
def set_koch_robot_preset(self):
def set_operating_mode_(arm):
from lerobot.common.motors.dynamixel.dynamixel import TorqueMode
@@ -415,6 +540,9 @@ class ManipulatorRobot:
# Set I_Coefficient and D_Coefficient to default value 0 and 32
self.follower_arms[name].write("I_Coefficient", 0)
self.follower_arms[name].write("D_Coefficient", 32)
# Close the write lock so that Maximum_Acceleration gets written to EPROM address,
# which is mandatory for Maximum_Acceleration to take effect after rebooting.
self.follower_arms[name].write("Lock", 0)
# Set Maximum_Acceleration to 254 to speedup acceleration and deceleration of
# the motors. Note: this configuration is not in the official STS3215 Memory Table
self.follower_arms[name].write("Maximum_Acceleration", 254)
@@ -452,7 +580,7 @@ class ManipulatorRobot:
# Used when record_data=True
follower_goal_pos[name] = goal_pos
goal_pos = goal_pos.numpy().astype(np.float32)
goal_pos = goal_pos.numpy().astype(np.int32)
self.follower_arms[name].write("Goal_Position", goal_pos)
self.logs[f"write_follower_{name}_goal_pos_dt_s"] = time.perf_counter() - before_fwrite_t
@@ -574,7 +702,7 @@ class ManipulatorRobot:
action_sent.append(goal_pos)
# Send goal position to each follower
goal_pos = goal_pos.numpy().astype(np.float32)
goal_pos = goal_pos.numpy().astype(np.int32)
self.follower_arms[name].write("Goal_Position", goal_pos)
return torch.cat(action_sent)

22
lerobot/common/robots/moss/README.md
View File

@@ -31,17 +31,18 @@ conda create -y -n lerobot python=3.10 && conda activate lerobot
git clone https://github.com/huggingface/lerobot.git ~/lerobot
```
5. Install ffmpeg in your environment:
When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
6. Install LeRobot with dependencies for the feetech motors:
5. Install LeRobot with dependencies for the feetech motors:
```bash
cd ~/lerobot && pip install -e ".[feetech]"
```
For Linux only (not Mac), install extra dependencies for recording datasets:
```bash
conda install -y -c conda-forge ffmpeg
pip uninstall -y opencv-python
conda install -y -c conda-forge "opencv>=4.10.0"
```
## Configure the motors
Follow steps 1 of the [assembly video](https://www.youtube.com/watch?v=DA91NJOtMic) which illustrates the use of our scripts below.
@@ -138,7 +139,7 @@ python lerobot/scripts/configure_motor.py \
--brand feetech \
--model sts3215 \
--baudrate 1000000 \
--id 1
--ID 1
```
Note: These motors are currently limitated. They can take values between 0 and 4096 only, which corresponds to a full turn. They can't turn more than that. 2048 is at the middle of this range, so we can take -2048 steps (180 degrees anticlockwise) and reach the maximum range, or take +2048 steps (180 degrees clockwise) and reach the maximum range. The configuration step also sets the homing offset to 0, so that if you misassembled the arm, you can always update the homing offset to account for a shift up to ± 2048 steps (± 180 degrees).
@@ -150,7 +151,7 @@ python lerobot/scripts/configure_motor.py \
--brand feetech \
--model sts3215 \
--baudrate 1000000 \
--id 2
--ID 2
```
Redo the process for all your motors until ID 6. Do the same for the 6 motors of the leader arm.
@@ -218,9 +219,6 @@ python lerobot/scripts/control_robot.py \
**Teleop with displaying cameras**
Follow [this guide to setup your cameras](https://github.com/huggingface/lerobot/blob/main/examples/7_get_started_with_real_robot.md#c-add-your-cameras-with-opencvcamera). Then you will be able to display the cameras on your computer while you are teleoperating by running the following code. This is useful to prepare your setup before recording your first dataset.
> **NOTE:** To visualize the data, enable `--control.display_data=true`. This streams the data using `rerun`.
```bash
python lerobot/scripts/control_robot.py \
--robot.type=moss \

2
lerobot/common/robots/moss/robot_moss.py
View File

@@ -23,9 +23,9 @@ import numpy as np
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors import TorqueMode
from lerobot.common.motors.feetech import (
FeetechMotorsBus,
TorqueMode,
apply_feetech_offsets_from_calibration,
run_full_arm_calibration,
)

36
lerobot/common/robots/robot.py
View File

@@ -1,11 +1,7 @@
import abc
from pathlib import Path
from typing import Any
import draccus
from lerobot.common.constants import HF_LEROBOT_CALIBRATION, ROBOTS
from lerobot.common.motors import MotorCalibration
from .config import RobotConfig
@@ -27,12 +23,6 @@ class Robot(abc.ABC):
)
self.calibration_dir.mkdir(parents=True, exist_ok=True)
self.calibration_fpath = self.calibration_dir / f"{self.id}.json"
self.calibration: dict[str, MotorCalibration] = {}
if self.calibration_fpath.is_file():
self._load_calibration()
def __str__(self) -> str:
return f"{self.id} {self.__class__.__name__}"
# TODO(aliberts): create a proper Feature class for this that links with datasets
@abc.abstractproperty
@@ -47,38 +37,16 @@ class Robot(abc.ABC):
def camera_features(self) -> dict[str, dict]:
pass
@abc.abstractproperty
def is_connected(self) -> bool:
pass
@abc.abstractmethod
def connect(self) -> None:
"""Connects to the robot."""
pass
@abc.abstractproperty
def is_calibrated(self) -> bool:
pass
@abc.abstractmethod
def calibrate(self) -> None:
"""Calibrates the robot."""
pass
def _load_calibration(self, fpath: Path | None = None) -> None:
fpath = self.calibration_fpath if fpath is None else fpath
with open(fpath) as f, draccus.config_type("json"):
self.calibration = draccus.load(dict[str, MotorCalibration], f)
def _save_calibration(self, fpath: Path | None = None) -> None:
fpath = self.calibration_fpath if fpath is None else fpath
with open(fpath, "w") as f, draccus.config_type("json"):
draccus.dump(self.calibration, f, indent=4)
@abc.abstractmethod
def configure(self) -> None:
pass
@abc.abstractmethod
def get_observation(self) -> dict[str, Any]:
"""Gets observation from the robot."""
@@ -93,3 +61,7 @@ class Robot(abc.ABC):
def disconnect(self) -> None:
"""Disconnects from the robot."""
pass
def __del__(self):
if getattr(self, "is_connected", False):
self.disconnect()

28
lerobot/common/robots/so100/README.md
View File

@@ -57,17 +57,17 @@ conda activate lerobot
git clone https://github.com/huggingface/lerobot.git ~/lerobot
```
#### 5. Install ffmpeg in your environment:
When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
#### 6. Install LeRobot with dependencies for the feetech motors:
#### 5. Install LeRobot with dependencies for the feetech motors:
```bash
cd ~/lerobot && pip install -e ".[feetech]"
```
*EXTRA: For Linux only (not Mac)*: install extra dependencies for recording datasets:
```bash
conda install -y -c conda-forge ffmpeg
pip uninstall -y opencv-python
conda install -y -c conda-forge "opencv>=4.10.0"
```
Great :hugs:! You are now done installing LeRobot and we can begin assembling the SO100 arms :robot:.
Every time you now want to use LeRobot you can go to the `~/lerobot` folder where we installed LeRobot and run one of the commands.
@@ -191,7 +191,7 @@ python lerobot/scripts/configure_motor.py \
--brand feetech \
--model sts3215 \
--baudrate 1000000 \
--id 1
--ID 1
```
> [!NOTE]
@@ -204,7 +204,7 @@ python lerobot/scripts/configure_motor.py \
--brand feetech \
--model sts3215 \
--baudrate 1000000 \
--id 2
--ID 2
```
Redo the process for all your motors until ID 6. Do the same for the 6 motors of the leader arm.
@@ -497,9 +497,6 @@ python lerobot/scripts/control_robot.py \
#### a. Teleop with displaying cameras
Follow [this guide to setup your cameras](https://github.com/huggingface/lerobot/blob/main/examples/7_get_started_with_real_robot.md#c-add-your-cameras-with-opencvcamera). Then you will be able to display the cameras on your computer while you are teleoperating by running the following code. This is useful to prepare your setup before recording your first dataset.
> **NOTE:** To visualize the data, enable `--control.display_data=true`. This streams the data using `rerun`.
```bash
python lerobot/scripts/control_robot.py \
--robot.type=so100 \
@@ -586,13 +583,6 @@ Let's explain it:
Training should take several hours. You will find checkpoints in `outputs/train/act_so100_test/checkpoints`.
To resume training from a checkpoint, below is an example command to resume from `last` checkpoint of the `act_so100_test` policy:
```bash
python lerobot/scripts/train.py \
--config_path=outputs/train/act_so100_test/checkpoints/last/pretrained_model/train_config.json \
--resume=true
```
## K. Evaluate your policy
You can use the `record` function from [`lerobot/scripts/control_robot.py`](../lerobot/scripts/control_robot.py) but with a policy checkpoint as input. For instance, run this command to record 10 evaluation episodes:

6
lerobot/common/robots/so100/__init__.py
View File

@@ -1,2 +1,4 @@
from .config_so100_follower import SO100FollowerConfig
from .so100_follower import SO100Follower
from .configuration_so100 import SO100RobotConfig
from .robot_so100 import SO100Robot
__all__ = ["SO100RobotConfig", "SO100Robot"]

8
lerobot/common/robots/so100/config_so100_follower.py → lerobot/common/robots/so100/configuration_so100.py
View File

@@ -5,14 +5,12 @@ from lerobot.common.cameras import CameraConfig
from ..config import RobotConfig
@RobotConfig.register_subclass("so100_follower")
@RobotConfig.register_subclass("so100")
@dataclass
class SO100FollowerConfig(RobotConfig):
# Port to connect to the arm
class SO100RobotConfig(RobotConfig):
# Port to connect to the robot
port: str
disable_torque_on_disconnect: bool = True
# `max_relative_target` limits the magnitude of the relative positional target vector for safety purposes.
# Set this to a positive scalar to have the same value for all motors, or a list that is the same length as
# the number of motors in your follower arms.

223
lerobot/common/robots/so100/robot_so100.py Normal file
View File

@@ -0,0 +1,223 @@
#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import json
import logging
import time
import numpy as np
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors.feetech import (
FeetechMotorsBus,
TorqueMode,
apply_feetech_offsets_from_calibration,
run_full_arm_calibration,
)
from ..robot import Robot
from ..utils import ensure_safe_goal_position
from .configuration_so100 import SO100RobotConfig
class SO100Robot(Robot):
"""
[SO-100 Follower Arm](https://github.com/TheRobotStudio/SO-ARM100) designed by TheRobotStudio
"""
config_class = SO100RobotConfig
name = "so100"
def __init__(self, config: SO100RobotConfig):
super().__init__(config)
self.config = config
self.robot_type = config.type
self.arm = FeetechMotorsBus(
port=self.config.port,
motors={
"shoulder_pan": (1, "sts3215"),
"shoulder_lift": (2, "sts3215"),
"elbow_flex": (3, "sts3215"),
"wrist_flex": (4, "sts3215"),
"wrist_roll": (5, "sts3215"),
"gripper": (6, "sts3215"),
},
)
self.cameras = make_cameras_from_configs(config.cameras)
self.is_connected = False
self.logs = {}
@property
def state_feature(self) -> dict:
return {
"dtype": "float32",
"shape": (len(self.arm),),
"names": {"motors": list(self.arm.motors)},
}
@property
def action_feature(self) -> dict:
return self.state_feature
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {}
for cam_key, cam in self.cameras.items():
cam_ft[cam_key] = {
"shape": (cam.height, cam.width, cam.channels),
"names": ["height", "width", "channels"],
"info": None,
}
return cam_ft
def connect(self) -> None:
if self.is_connected:
raise DeviceAlreadyConnectedError(
"ManipulatorRobot is already connected. Do not run `robot.connect()` twice."
)
logging.info("Connecting arm.")
self.arm.connect()
# We assume that at connection time, arm is in a rest position,
# and torque can be safely disabled to run calibration.
self.arm.write("Torque_Enable", TorqueMode.DISABLED.value)
self.calibrate()
# Mode=0 for Position Control
self.arm.write("Mode", 0)
# Set P_Coefficient to lower value to avoid shakiness (Default is 32)
self.arm.write("P_Coefficient", 16)
# Set I_Coefficient and D_Coefficient to default value 0 and 32
self.arm.write("I_Coefficient", 0)
self.arm.write("D_Coefficient", 32)
# Close the write lock so that Maximum_Acceleration gets written to EPROM address,
# which is mandatory for Maximum_Acceleration to take effect after rebooting.
self.arm.write("Lock", 0)
# Set Maximum_Acceleration to 254 to speedup acceleration and deceleration of
# the motors. Note: this configuration is not in the official STS3215 Memory Table
self.arm.write("Maximum_Acceleration", 254)
self.arm.write("Acceleration", 254)
logging.info("Activating torque.")
self.arm.write("Torque_Enable", TorqueMode.ENABLED.value)
# Check arm can be read
self.arm.read("Present_Position")
# Connect the cameras
for cam in self.cameras.values():
cam.connect()
self.is_connected = True
def calibrate(self) -> None:
"""After calibration all motors function in human interpretable ranges.
Rotations are expressed in degrees in nominal range of [-180, 180],
and linear motions (like gripper of Aloha) in nominal range of [0, 100].
"""
if self.calibration_fpath.exists():
with open(self.calibration_fpath) as f:
calibration = json.load(f)
else:
# TODO(rcadene): display a warning in __init__ if calibration file not available
logging.info(f"Missing calibration file '{self.calibration_fpath}'")
calibration = run_full_arm_calibration(self.arm, self.robot_type, self.name, "follower")
logging.info(f"Calibration is done! Saving calibration file '{self.calibration_fpath}'")
self.calibration_fpath.parent.mkdir(parents=True, exist_ok=True)
with open(self.calibration_fpath, "w") as f:
json.dump(calibration, f)
self.arm.set_calibration(calibration)
apply_feetech_offsets_from_calibration(self.arm, calibration)
def get_observation(self) -> dict[str, np.ndarray]:
"""The returned observations do not have a batch dimension."""
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()`."
)
obs_dict = {}
# Read arm position
before_read_t = time.perf_counter()
obs_dict[OBS_STATE] = self.arm.read("Present_Position")
self.logs["read_pos_dt_s"] = time.perf_counter() - before_read_t
# Capture images from cameras
for cam_key, cam in self.cameras.items():
before_camread_t = time.perf_counter()
obs_dict[f"{OBS_IMAGES}.{cam_key}"] = cam.async_read()
self.logs[f"read_camera_{cam_key}_dt_s"] = cam.logs["delta_timestamp_s"]
self.logs[f"async_read_camera_{cam_key}_dt_s"] = time.perf_counter() - before_camread_t
return obs_dict
def send_action(self, action: np.ndarray) -> np.ndarray:
"""Command arm to move to a target joint configuration.
The relative action magnitude may be clipped depending on the configuration parameter
`max_relative_target`. In this case, the action sent differs from original action.
Thus, this function always returns the action actually sent.
Args:
action (np.ndarray): array containing the goal positions for the motors.
Raises:
RobotDeviceNotConnectedError: if robot is not connected.
Returns:
np.ndarray: the action sent to the motors, potentially clipped.
"""
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()`."
)
goal_pos = action
# Cap goal position when too far away from present position.
# /!\ Slower fps expected due to reading from the follower.
if self.config.max_relative_target is not None:
present_pos = self.arm.read("Present_Position")
goal_pos = ensure_safe_goal_position(goal_pos, present_pos, self.config.max_relative_target)
# Send goal position to the arm
self.arm.write("Goal_Position", goal_pos.astype(np.int32))
return goal_pos
def print_logs(self):
# TODO(aliberts): move robot-specific logs logic here
pass
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()` before disconnecting."
)
self.arm.disconnect()
for cam in self.cameras.values():
cam.disconnect()
self.is_connected = False

215
lerobot/common/robots/so100/so100_follower.py
View File

@@ -1,215 +0,0 @@
#!/usr/bin/env python
# Copyright 2024 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import logging
import time
from typing import Any
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors import Motor, MotorCalibration, MotorNormMode
from lerobot.common.motors.feetech import (
FeetechMotorsBus,
OperatingMode,
)
from ..robot import Robot
from ..utils import ensure_safe_goal_position
from .config_so100_follower import SO100FollowerConfig
logger = logging.getLogger(__name__)
class SO100Follower(Robot):
"""
[SO-100 Follower Arm](https://github.com/TheRobotStudio/SO-ARM100) designed by TheRobotStudio
"""
config_class = SO100FollowerConfig
name = "so100_follower"
def __init__(self, config: SO100FollowerConfig):
super().__init__(config)
self.config = config
self.arm = FeetechMotorsBus(
port=self.config.port,
motors={
"shoulder_pan": Motor(1, "sts3215", MotorNormMode.RANGE_M100_100),
"shoulder_lift": Motor(2, "sts3215", MotorNormMode.RANGE_M100_100),
"elbow_flex": Motor(3, "sts3215", MotorNormMode.RANGE_M100_100),
"wrist_flex": Motor(4, "sts3215", MotorNormMode.RANGE_M100_100),
"wrist_roll": Motor(5, "sts3215", MotorNormMode.RANGE_M100_100),
"gripper": Motor(6, "sts3215", MotorNormMode.RANGE_0_100),
},
calibration=self.calibration,
)
self.cameras = make_cameras_from_configs(config.cameras)
@property
def state_feature(self) -> dict:
return {
"dtype": "float32",
"shape": (len(self.arm),),
"names": {"motors": list(self.arm.motors)},
}
@property
def action_feature(self) -> dict:
return self.state_feature
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {}
for cam_key, cam in self.cameras.items():
cam_ft[cam_key] = {
"shape": (cam.height, cam.width, cam.channels),
"names": ["height", "width", "channels"],
"info": None,
}
return cam_ft
@property
def is_connected(self) -> bool:
# TODO(aliberts): add cam.is_connected for cam in self.cameras
return self.arm.is_connected
def connect(self) -> None:
"""
We assume that at connection time, arm is in a rest position,
and torque can be safely disabled to run calibration.
"""
if self.is_connected:
raise DeviceAlreadyConnectedError(f"{self} already connected")
self.arm.connect()
if not self.is_calibrated:
self.calibrate()
# Connect the cameras
for cam in self.cameras.values():
cam.connect()
self.configure()
logger.info(f"{self} connected.")
@property
def is_calibrated(self) -> bool:
return self.arm.is_calibrated
def calibrate(self) -> None:
logger.info(f"\nRunning calibration of {self}")
self.arm.disable_torque()
for name in self.arm.names:
self.arm.write("Operating_Mode", name, OperatingMode.POSITION.value)
input("Move robot to the middle of its range of motion and press ENTER....")
homing_offsets = self.arm.set_half_turn_homings()
full_turn_motor = "wrist_roll"
unknown_range_motors = [name for name in self.arm.names if name != full_turn_motor]
logger.info(
f"Move all joints except '{full_turn_motor}' sequentially through their "
"entire ranges of motion.\nRecording positions. Press ENTER to stop..."
)
range_mins, range_maxes = self.arm.record_ranges_of_motion(unknown_range_motors)
range_mins[full_turn_motor] = 0
range_maxes[full_turn_motor] = 4095
self.calibration = {}
for name, motor in self.arm.motors.items():
self.calibration[name] = MotorCalibration(
id=motor.id,
drive_mode=0,
homing_offset=homing_offsets[name],
range_min=range_mins[name],
range_max=range_maxes[name],
)
self.arm.write_calibration(self.calibration)
self._save_calibration()
print("Calibration saved to", self.calibration_fpath)
def configure(self) -> None:
with self.arm.torque_disabled():
self.arm.configure_motors()
for name in self.arm.names:
self.arm.write("Operating_Mode", name, OperatingMode.POSITION.value)
# Set P_Coefficient to lower value to avoid shakiness (Default is 32)
self.arm.write("P_Coefficient", name, 16)
# Set I_Coefficient and D_Coefficient to default value 0 and 32
self.arm.write("I_Coefficient", name, 0)
self.arm.write("D_Coefficient", name, 32)
def get_observation(self) -> dict[str, Any]:
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
obs_dict = {}
# Read arm position
start = time.perf_counter()
obs_dict[OBS_STATE] = self.arm.sync_read("Present_Position")
dt_ms = (time.perf_counter() - start) * 1e3
logger.debug(f"{self} read state: {dt_ms:.1f}ms")
# Capture images from cameras
for cam_key, cam in self.cameras.items():
start = time.perf_counter()
obs_dict[f"{OBS_IMAGES}.{cam_key}"] = cam.async_read()
dt_ms = (time.perf_counter() - start) * 1e3
logger.debug(f"{self} read {cam_key}: {dt_ms:.1f}ms")
return obs_dict
def send_action(self, action: dict[str, Any]) -> dict[str, Any]:
"""Command arm to move to a target joint configuration.
The relative action magnitude may be clipped depending on the configuration parameter
`max_relative_target`. In this case, the action sent differs from original action.
Thus, this function always returns the action actually sent.
Raises:
RobotDeviceNotConnectedError: if robot is not connected.
Returns:
the action sent to the motors, potentially clipped.
"""
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
goal_pos = action
# Cap goal position when too far away from present position.
# /!\ Slower fps expected due to reading from the follower.
if self.config.max_relative_target is not None:
present_pos = self.arm.sync_read("Present_Position")
goal_present_pos = {key: (g_pos, present_pos[key]) for key, g_pos in goal_pos.items()}
goal_pos = ensure_safe_goal_position(goal_present_pos, self.config.max_relative_target)
# Send goal position to the arm
self.arm.sync_write("Goal_Position", goal_pos)
return goal_pos
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
self.arm.disconnect(self.config.disable_torque_on_disconnect)
for cam in self.cameras.values():
cam.disconnect()
logger.info(f"{self} disconnected.")

18
lerobot/common/robots/stretch3/README.md
View File

@@ -43,19 +43,21 @@ conda create -y -n lerobot python=3.10 && conda activate lerobot
git clone https://github.com/huggingface/lerobot.git ~/lerobot
```
6. When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
7. Install LeRobot with stretch dependencies:
6. Install LeRobot with stretch dependencies:
```bash
cd ~/lerobot && pip install -e ".[stretch]"
```
> **Note:** If you get this message, you can ignore it: `ERROR: pip's dependency resolver does not currently take into account all the packages that are installed.`
8. Run a [system check](https://docs.hello-robot.com/0.3/getting_started/stretch_hardware_overview/#system-check) to make sure your robot is ready:
For Linux only (not Mac), install extra dependencies for recording datasets:
```bash
conda install -y -c conda-forge ffmpeg
pip uninstall -y opencv-python
conda install -y -c conda-forge "opencv>=4.10.0"
```
7. Run a [system check](https://docs.hello-robot.com/0.3/getting_started/stretch_hardware_overview/#system-check) to make sure your robot is ready:
```bash
stretch_system_check.py
```
@@ -102,8 +104,6 @@ This is equivalent to running `stretch_robot_home.py`
Before trying teleoperation, you need activate the gamepad controller by pressing the middle button. For more info, see Stretch's [doc](https://docs.hello-robot.com/0.3/getting_started/hello_robot/#gamepad-teleoperation).
Now try out teleoperation (see above documentation to learn about the gamepad controls):
> **NOTE:** To visualize the data, enable `--control.display_data=true`. This streams the data using `rerun`.
```bash
python lerobot/scripts/control_robot.py \
--robot.type=stretch \

57
lerobot/common/robots/utils.py
View File

@@ -1,7 +1,8 @@
import logging
from pprint import pformat
from typing import Protocol
import numpy as np
from lerobot.common.robots import RobotConfig
@@ -30,20 +31,20 @@ def make_robot_config(robot_type: str, **kwargs) -> RobotConfig:
from .aloha.configuration_aloha import AlohaRobotConfig
return AlohaRobotConfig(**kwargs)
elif robot_type == "koch_follower":
from .koch.config_koch_follower import KochFollowerConfig
elif robot_type == "koch":
from .koch.configuration_koch import KochRobotConfig
return KochFollowerConfig(**kwargs)
return KochRobotConfig(**kwargs)
# elif robot_type == "koch_bimanual":
# return KochBimanualRobotConfig(**kwargs)
elif robot_type == "moss":
from .moss.configuration_moss import MossRobotConfig
return MossRobotConfig(**kwargs)
elif robot_type == "so100_leader":
from .so100.config_so100_follower import SO100FollowerConfig
elif robot_type == "so100":
from .so100.configuration_so100 import SO100RobotConfig
return SO100FollowerConfig(**kwargs)
return SO100RobotConfig(**kwargs)
elif robot_type == "stretch":
from .stretch3.configuration_stretch3 import Stretch3RobotConfig
@@ -80,38 +81,20 @@ def make_robot(robot_type: str, **kwargs) -> Robot:
def ensure_safe_goal_position(
goal_present_pos: dict[str, tuple[float, float]], max_relative_target: float | dict[float]
) -> dict[str, float]:
"""Caps relative action target magnitude for safety."""
goal_pos: np.ndarray, present_pos: np.ndarray, max_relative_target: float | list[float]
):
# Cap relative action target magnitude for safety.
diff = goal_pos - present_pos
max_relative_target = np.array(max_relative_target)
safe_diff = np.min(diff, max_relative_target)
safe_diff = np.max(safe_diff, -max_relative_target)
safe_goal_pos = present_pos + safe_diff
if isinstance(max_relative_target, float):
diff_cap = dict.fromkeys(goal_present_pos, max_relative_target)
elif isinstance(max_relative_target, dict):
if not set(goal_present_pos) == set(max_relative_target):
raise ValueError("max_relative_target keys must match those of goal_present_pos.")
diff_cap = max_relative_target
else:
raise TypeError(max_relative_target)
warnings_dict = {}
safe_goal_positions = {}
for key, (goal_pos, present_pos) in goal_present_pos.items():
diff = goal_pos - present_pos
max_diff = diff_cap[key]
safe_diff = min(diff, max_diff)
safe_diff = max(safe_diff, -max_diff)
safe_goal_pos = present_pos + safe_diff
safe_goal_positions[key] = safe_goal_pos
if abs(safe_goal_pos - goal_pos) > 1e-4:
warnings_dict[key] = {
"original goal_pos": goal_pos,
"safe goal_pos": safe_goal_pos,
}
if warnings_dict:
if not np.allclose(goal_pos, safe_goal_pos):
logging.warning(
"Relative goal position magnitude had to be clamped to be safe.\n"
f"{pformat(warnings_dict, indent=4)}"
f" requested relative goal position target: {diff}\n"
f" clamped relative goal position target: {safe_diff}"
)
return safe_goal_positions
return safe_goal_pos

17
lerobot/common/robots/viperx/README.md
View File

@@ -30,16 +30,18 @@ conda create -y -n lerobot python=3.10 && conda activate lerobot
git clone https://github.com/huggingface/lerobot.git ~/lerobot
```
5. When using `miniconda`, install `ffmpeg` in your environment:
```bash
conda install ffmpeg -c conda-forge
```
6. Install LeRobot with dependencies for the Aloha motors (dynamixel) and cameras (intelrealsense):
5. Install LeRobot with dependencies for the Aloha motors (dynamixel) and cameras (intelrealsense):
```bash
cd ~/lerobot && pip install -e ".[dynamixel, intelrealsense]"
```
For Linux only (not Mac), install extra dependencies for recording datasets:
```bash
conda install -y -c conda-forge ffmpeg
pip uninstall -y opencv-python
conda install -y -c conda-forge "opencv>=4.10.0"
```
## Teleoperate
**/!\ FOR SAFETY, READ THIS /!\**
@@ -48,9 +50,6 @@ Teleoperation consists in manually operating the leader arms to move the followe
2. Our code assumes that your robot has been assembled following Trossen Robotics instructions. This allows us to skip calibration, as we use the pre-defined calibration files in `.cache/calibration/aloha_default`. If you replace a motor, make sure you follow the exact instructions from Trossen Robotics.
By running the following code, you can start your first **SAFE** teleoperation:
> **NOTE:** To visualize the data, enable `--control.display_data=true`. This streams the data using `rerun`.
```bash
python lerobot/scripts/control_robot.py \
--robot.type=aloha \

2
lerobot/common/robots/viperx/__init__.py
View File

@@ -1,2 +0,0 @@
from .config_viperx import ViperXConfig
from .viperx import ViperX

18
lerobot/common/robots/viperx/config_viperx.py → lerobot/common/robots/viperx/configuration_viperx.py
View File

@@ -7,11 +7,7 @@ from ..config import RobotConfig
@RobotConfig.register_subclass("viperx")
@dataclass
class ViperXConfig(RobotConfig):
port: str # Port to connect to the arm
disable_torque_on_disconnect: bool = True
class ViperXRobotConfig(RobotConfig):
# /!\ FOR SAFETY, READ THIS /!\
# `max_relative_target` limits the magnitude of the relative positional target vector for safety purposes.
# Set this to a positive scalar to have the same value for all motors, or a list that is the same length as
@@ -24,8 +20,20 @@ class ViperXConfig(RobotConfig):
# then to gradually add more motors (by uncommenting), until you can teleoperate both arms fully
max_relative_target: int | None = 5
waist: tuple = (1, "xm540-w270")
shoulder: tuple = (2, "xm540-w270")
shoulder_shadow: tuple = (3, "xm540-w270")
elbow: tuple = (4, "xm540-w270")
elbow_shadow: tuple = (5, "xm540-w270")
forearm_roll: tuple = (6, "xm540-w270")
wrist_angle: tuple = (7, "xm540-w270")
wrist_rotate: tuple = (8, "xm430-w350")
gripper: tuple = (9, "xm430-w350")
# cameras
cameras: dict[str, CameraConfig] = field(default_factory=dict)
# Troubleshooting: If one of your IntelRealSense cameras freeze during
# data recording due to bandwidth limit, you might need to plug the camera
# on another USB hub or PCIe card.
mock: bool = False

238
lerobot/common/robots/viperx/robot_viperx.py Normal file
View File

@@ -0,0 +1,238 @@
"""Contains logic to instantiate a robot, read information from its motors and cameras,
and send orders to its motors.
"""
# TODO(rcadene, aliberts): reorganize the codebase into one file per robot, with the associated
# calibration procedure, to make it easy for people to add their own robot.
import json
import logging
import time
import numpy as np
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors.dynamixel import (
DynamixelMotorsBus,
TorqueMode,
run_arm_calibration,
)
from ..robot import Robot
from ..utils import ensure_safe_goal_position
from .configuration_viperx import ViperXRobotConfig
class ViperXRobot(Robot):
"""
[ViperX](https://www.trossenrobotics.com/viperx-300) developed by Trossen Robotics
"""
config_class = ViperXRobotConfig
name = "viperx"
def __init__(
self,
config: ViperXRobotConfig,
):
super().__init__(config)
self.config = config
self.robot_type = config.type
self.arm = DynamixelMotorsBus(
port=self.config.port,
motors={
"waist": config.waist,
"shoulder": config.shoulder,
"shoulder_shadow": config.shoulder_shadow,
"elbow": config.elbow,
"elbow_shadow": config.elbow_shadow,
"forearm_roll": config.forearm_roll,
"wrist_angle": config.wrist_angle,
"wrist_rotate": config.wrist_rotate,
"gripper": config.gripper,
},
)
self.cameras = make_cameras_from_configs(config.cameras)
self.is_connected = False
self.logs = {}
@property
def state_feature(self) -> dict:
return {
"dtype": "float32",
"shape": (len(self.arm),),
"names": {"motors": list(self.arm.motors)},
}
@property
def action_feature(self) -> dict:
return self.state_feature
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {}
for cam_key, cam in self.cameras.items():
key = f"observation.images.{cam_key}"
cam_ft[key] = {
"shape": (cam.height, cam.width, cam.channels),
"names": ["height", "width", "channels"],
"info": None,
}
return cam_ft
def _set_shadow_motors(self):
"""
Set secondary/shadow ID for shoulder and elbow. These joints have two motors.
As a result, if only one of them is required to move to a certain position,
the other will follow. This is to avoid breaking the motors.
"""
shoulder_idx = self.config.shoulder[0]
self.arm.write("Secondary_ID", shoulder_idx, "shoulder_shadow")
elbow_idx = self.config.elbow[0]
self.arm.write("Secondary_ID", elbow_idx, "elbow_shadow")
def connect(self):
if self.is_connected:
raise DeviceAlreadyConnectedError(
"ManipulatorRobot is already connected. Do not run `robot.connect()` twice."
)
logging.info("Connecting arm.")
self.arm.connect()
# We assume that at connection time, arm is in a rest position,
# and torque can be safely disabled to run calibration.
self.arm.write("Torque_Enable", TorqueMode.DISABLED.value)
self.calibrate()
self._set_shadow_motors()
# Set a velocity limit of 131 as advised by Trossen Robotics
self.arm.write("Velocity_Limit", 131)
# Use 'extended position mode' for all motors except gripper, because in joint mode the servos can't
# rotate more than 360 degrees (from 0 to 4095) And some mistake can happen while assembling the arm,
# you could end up with a servo with a position 0 or 4095 at a crucial point See [
# https://emanual.robotis.com/docs/en/dxl/x/x_series/#operating-mode11]
all_motors_except_gripper = [name for name in self.arm.motor_names if name != "gripper"]
if len(all_motors_except_gripper) > 0:
# 4 corresponds to Extended Position on Aloha motors
self.arm.write("Operating_Mode", 4, all_motors_except_gripper)
# Use 'position control current based' for follower gripper to be limited by the limit of the current.
# It can grasp an object without forcing too much even tho,
# it's goal position is a complete grasp (both gripper fingers are ordered to join and reach a touch).
# 5 corresponds to Current Controlled Position on Aloha gripper follower "xm430-w350"
self.arm.write("Operating_Mode", 5, "gripper")
# Note: We can't enable torque on the leader gripper since "xc430-w150" doesn't have
# a Current Controlled Position mode.
logging.info("Activating torque.")
self.arm.write("Torque_Enable", TorqueMode.ENABLED.value)
# Check arm can be read
self.arm.read("Present_Position")
# Connect the cameras
for cam in self.cameras.values():
cam.connect()
self.is_connected = True
def calibrate(self):
"""After calibration all motors function in human interpretable ranges.
Rotations are expressed in degrees in nominal range of [-180, 180],
and linear motions (like gripper of Aloha) in nominal range of [0, 100].
"""
if self.calibration_fpath.exists():
with open(self.calibration_fpath) as f:
calibration = json.load(f)
else:
# TODO(rcadene): display a warning in __init__ if calibration file not available
logging.info(f"Missing calibration file '{self.calibration_fpath}'")
calibration = run_arm_calibration(self.arm, self.robot_type, self.name, "follower")
logging.info(f"Calibration is done! Saving calibration file '{self.calibration_fpath}'")
self.calibration_fpath.parent.mkdir(parents=True, exist_ok=True)
with open(self.calibration_fpath, "w") as f:
json.dump(calibration, f)
self.arm.set_calibration(calibration)
def get_observation(self) -> dict[str, np.ndarray]:
"""The returned observations do not have a batch dimension."""
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()`."
)
obs_dict = {}
# Read arm position
before_read_t = time.perf_counter()
obs_dict[OBS_STATE] = self.arm.read("Present_Position")
self.logs["read_pos_dt_s"] = time.perf_counter() - before_read_t
# Capture images from cameras
for cam_key, cam in self.cameras.items():
before_camread_t = time.perf_counter()
obs_dict[f"{OBS_IMAGES}.{cam_key}"] = cam.async_read()
self.logs[f"read_camera_{cam_key}_dt_s"] = cam.logs["delta_timestamp_s"]
self.logs[f"async_read_camera_{cam_key}_dt_s"] = time.perf_counter() - before_camread_t
return obs_dict
def send_action(self, action: np.ndarray) -> np.ndarray:
"""Command arm to move to a target joint configuration.
The relative action magnitude may be clipped depending on the configuration parameter
`max_relative_target`. In this case, the action sent differs from original action.
Thus, this function always returns the action actually sent.
Args:
action (np.ndarray): array containing the goal positions for the motors.
Raises:
RobotDeviceNotConnectedError: if robot is not connected.
Returns:
np.ndarray: the action sent to the motors, potentially clipped.
"""
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()`."
)
goal_pos = action
# Cap goal position when too far away from present position.
# /!\ Slower fps expected due to reading from the follower.
if self.config.max_relative_target is not None:
present_pos = self.arm.read("Present_Position")
goal_pos = ensure_safe_goal_position(goal_pos, present_pos, self.config.max_relative_target)
# Send goal position to the arm
self.arm.write("Goal_Position", goal_pos.astype(np.int32))
return goal_pos
def print_logs(self):
# TODO(aliberts): move robot-specific logs logic here
pass
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(
"ManipulatorRobot is not connected. You need to run `robot.connect()` before disconnecting."
)
self.arm.disconnect()
for cam in self.cameras.values():
cam.disconnect()
self.is_connected = False

229
lerobot/common/robots/viperx/viperx.py
View File

@@ -1,229 +0,0 @@
"""Contains logic to instantiate a robot, read information from its motors and cameras,
and send orders to its motors.
"""
# TODO(rcadene, aliberts): reorganize the codebase into one file per robot, with the associated
# calibration procedure, to make it easy for people to add their own robot.
import logging
import time
from typing import Any
from lerobot.common.cameras.utils import make_cameras_from_configs
from lerobot.common.constants import OBS_IMAGES, OBS_STATE
from lerobot.common.errors import DeviceAlreadyConnectedError, DeviceNotConnectedError
from lerobot.common.motors import Motor, MotorCalibration, MotorNormMode
from lerobot.common.motors.dynamixel import (
DynamixelMotorsBus,
OperatingMode,
)
from ..robot import Robot
from ..utils import ensure_safe_goal_position
from .config_viperx import ViperXConfig
logger = logging.getLogger(__name__)
class ViperX(Robot):
"""
[ViperX](https://www.trossenrobotics.com/viperx-300) developed by Trossen Robotics
"""
config_class = ViperXConfig
name = "viperx"
def __init__(
self,
config: ViperXConfig,
):
super().__init__(config)
self.config = config
self.arm = DynamixelMotorsBus(
port=self.config.port,
motors={
"waist": Motor(1, "xm540-w270", MotorNormMode.RANGE_M100_100),
"shoulder": Motor(2, "xm540-w270", MotorNormMode.RANGE_M100_100),
"shoulder_shadow": Motor(3, "xm540-w270", MotorNormMode.RANGE_M100_100),
"elbow": Motor(4, "xm540-w270", MotorNormMode.RANGE_M100_100),
"elbow_shadow": Motor(5, "xm540-w270", MotorNormMode.RANGE_M100_100),
"forearm_roll": Motor(6, "xm540-w270", MotorNormMode.RANGE_M100_100),
"wrist_angle": Motor(7, "xm540-w270", MotorNormMode.RANGE_M100_100),
"wrist_rotate": Motor(8, "xm430-w350", MotorNormMode.RANGE_M100_100),
"gripper": Motor(9, "xm430-w350", MotorNormMode.RANGE_0_100),
},
)
self.cameras = make_cameras_from_configs(config.cameras)
@property
def state_feature(self) -> dict:
return {
"dtype": "float32",
"shape": (len(self.arm),),
"names": {"motors": list(self.arm.motors)},
}
@property
def action_feature(self) -> dict:
return self.state_feature
@property
def camera_features(self) -> dict[str, dict]:
cam_ft = {}
for cam_key, cam in self.cameras.items():
key = f"observation.images.{cam_key}"
cam_ft[key] = {
"shape": (cam.height, cam.width, cam.channels),
"names": ["height", "width", "channels"],
"info": None,
}
return cam_ft
@property
def is_connected(self) -> bool:
# TODO(aliberts): add cam.is_connected for cam in self.cameras
return self.arm.is_connected
def connect(self) -> None:
"""
We assume that at connection time, arm is in a rest position,
and torque can be safely disabled to run calibration.
"""
if self.is_connected:
raise DeviceAlreadyConnectedError(f"{self} already connected")
self.arm.connect()
if not self.is_calibrated:
self.calibrate()
for cam in self.cameras.values():
cam.connect()
self.configure()
logger.info(f"{self} connected.")
@property
def is_calibrated(self) -> bool:
return self.arm.is_calibrated
def calibrate(self) -> None:
raise NotImplementedError # TODO(aliberts): adapt code below (copied from koch
logger.info(f"\nRunning calibration of {self}")
self.arm.disable_torque()
for name in self.arm.names:
self.arm.write("Operating_Mode", name, OperatingMode.EXTENDED_POSITION.value)
input("Move robot to the middle of its range of motion and press ENTER....")
homing_offsets = self.arm.set_half_turn_homings()
full_turn_motors = ["shoulder_pan", "wrist_roll"]
unknown_range_motors = [name for name in self.arm.names if name not in full_turn_motors]
logger.info(
f"Move all joints except {full_turn_motors} sequentially through their entire "
"ranges of motion.\nRecording positions. Press ENTER to stop..."
)
range_mins, range_maxes = self.arm.record_ranges_of_motion(unknown_range_motors)
for name in full_turn_motors:
range_mins[name] = 0
range_maxes[name] = 4095
self.calibration = {}
for name, motor in self.arm.motors.items():
self.calibration[name] = MotorCalibration(
id=motor.id,
drive_mode=0,
homing_offset=homing_offsets[name],
range_min=range_mins[name],
range_max=range_maxes[name],
)
self.arm.write_calibration(self.calibration)
self._save_calibration()
logger.info(f"Calibration saved to {self.calibration_fpath}")
def configure(self) -> None:
with self.arm.torque_disabled():
self.arm.configure_motors()
# Set secondary/shadow ID for shoulder and elbow. These joints have two motors.
# As a result, if only one of them is required to move to a certain position,
# the other will follow. This is to avoid breaking the motors.
self.arm.write("Secondary_ID", "shoulder_shadow", 2)
self.arm.write("Secondary_ID", "elbow_shadow", 4)
# Set a velocity limit of 131 as advised by Trossen Robotics
# TODO(aliberts): remove as it's actually useless in position control
self.arm.write("Velocity_Limit", 131)
# Use 'extended position mode' for all motors except gripper, because in joint mode the servos
# can't rotate more than 360 degrees (from 0 to 4095) And some mistake can happen while assembling
# the arm, you could end up with a servo with a position 0 or 4095 at a crucial point.
# See: https://emanual.robotis.com/docs/en/dxl/x/x_series/#operating-mode11
for name in self.arm.names:
if name != "gripper":
self.arm.write("Operating_Mode", name, OperatingMode.EXTENDED_POSITION.value)
# Use 'position control current based' for follower gripper to be limited by the limit of the
# current. It can grasp an object without forcing too much even tho, it's goal position is a
# complete grasp (both gripper fingers are ordered to join and reach a touch).
self.arm.write("Operating_Mode", "gripper", OperatingMode.CURRENT_POSITION.value)
def get_observation(self) -> dict[str, Any]:
"""The returned observations do not have a batch dimension."""
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
obs_dict = {}
# Read arm position
start = time.perf_counter()
obs_dict[OBS_STATE] = self.arm.sync_read("Present_Position")
dt_ms = (time.perf_counter() - start) * 1e3
logger.debug(f"{self} read state: {dt_ms:.1f}ms")
# Capture images from cameras
for cam_key, cam in self.cameras.items():
start = time.perf_counter()
obs_dict[f"{OBS_IMAGES}.{cam_key}"] = cam.async_read()
dt_ms = (time.perf_counter() - start) * 1e3
logger.debug(f"{self} read {cam_key}: {dt_ms:.1f}ms")
return obs_dict
def send_action(self, action: dict[str, float]) -> dict[str, float]:
"""Command arm to move to a target joint configuration.
The relative action magnitude may be clipped depending on the configuration parameter
`max_relative_target`. In this case, the action sent differs from original action.
Thus, this function always returns the action actually sent.
Args:
action (dict[str, float]): The goal positions for the motors.
Returns:
dict[str, float]: The action sent to the motors, potentially clipped.
"""
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
goal_pos = action
# Cap goal position when too far away from present position.
# /!\ Slower fps expected due to reading from the follower.
if self.config.max_relative_target is not None:
present_pos = self.arm.sync_read("Present_Position")
goal_present_pos = {key: (g_pos, present_pos[key]) for key, g_pos in goal_pos.items()}
goal_pos = ensure_safe_goal_position(goal_present_pos, self.config.max_relative_target)
# Send goal position to the arm
self.arm.sync_write("Goal_Position", goal_pos)
return goal_pos
def disconnect(self):
if not self.is_connected:
raise DeviceNotConnectedError(f"{self} is not connected.")
self.arm.disconnect(self.config.disable_torque_on_disconnect)
for cam in self.cameras.values():
cam.disconnect()
logger.info(f"{self} disconnected.")

35
lerobot/common/teleoperators/keyboard/teleop_keyboard.py
View File

@@ -18,7 +18,6 @@ import logging
import os
import sys
import time
from queue import Queue
import numpy as np
@@ -29,6 +28,7 @@ from .configuration_keyboard import KeyboardTeleopConfig
PYNPUT_AVAILABLE = True
try:
# Only import if there's a valid X server or if we're not on a Pi
if ("DISPLAY" not in os.environ) and ("linux" in sys.platform):
logging.info("No DISPLAY set. Skipping pynput import.")
raise ImportError("pynput blocked intentionally due to no display.")
@@ -56,8 +56,7 @@ class KeyboardTeleop(Teleoperator):
self.config = config
self.robot_type = config.type
self.event_queue = Queue()
self.current_pressed = {}
self.pressed_keys = {}
self.listener = None
self.is_connected = False
self.logs = {}
@@ -98,35 +97,23 @@ class KeyboardTeleop(Teleoperator):
def on_press(self, key):
if hasattr(key, "char"):
self.event_queue.put((key.char, True))
self.pressed_keys[key.char] = True
def on_release(self, key):
if hasattr(key, "char"):
self.event_queue.put((key.char, False))
self.pressed_keys[key.char] = False
if key == keyboard.Key.esc:
logging.info("ESC pressed, disconnecting.")
self.disconnect()
def _drain_pressed_keys(self):
while not self.event_queue.empty():
key_char, is_pressed = self.event_queue.get_nowait()
self.current_pressed[key_char] = is_pressed
def get_action(self) -> np.ndarray:
before_read_t = time.perf_counter()
if not self.is_connected:
raise DeviceNotConnectedError(
"KeyboardTeleop is not connected. You need to run `connect()` before `get_action()`."
)
self._drain_pressed_keys()
# Generate action based on current key states
action = {key for key, val in self.current_pressed.items() if val}
# pressed_keys.items is wrapped in a list to avoid any RuntimeError due to dictionary changing size
# during iteration
action = {key for key, val in list(self.pressed_keys.items()) if val}
self.logs["read_pos_dt_s"] = time.perf_counter() - before_read_t
return np.array(list(action))
return action
def send_feedback(self, feedback: np.ndarray) -> None:
pass
@@ -134,9 +121,7 @@ class KeyboardTeleop(Teleoperator):
def disconnect(self) -> None:
if not self.is_connected:
raise DeviceNotConnectedError(
"KeyboardTeleop is not connected. You need to run `robot.connect()` before `disconnect()`."
"ManipulatorRobot is not connected. You need to run `robot.connect()` before disconnecting."
)
if self.listener is not None:
self.listener.stop()
self.listener.stop()
self.is_connected = False

28
lerobot/common/teleoperators/keyboard/teleop_keyboard_app.py
View File

@@ -1,28 +0,0 @@
import logging
import time
from lerobot.common.teleoperators.keyboard import KeyboardTeleop, KeyboardTeleopConfig
def main():
logging.info("Configuring Keyboard Teleop")
keyboard_config = KeyboardTeleopConfig()
keyboard = KeyboardTeleop(keyboard_config)
logging.info("Connecting Keyboard Teleop")
keyboard.connect()
logging.info("Starting Keyboard capture")
i = 0
while i < 20:
action = keyboard.get_action()
print("Captured keys: %s", action)
time.sleep(1)
i += 1
keyboard.disconnect()
logging.info("Finished LeKiwiRobot cleanly")
if __name__ == "__main__":
main()

6
lerobot/common/teleoperators/koch/__init__.py
View File

@@ -1,2 +1,4 @@
from .config_koch_leader import KochLeaderConfig
from .koch_leader import KochLeader
from .configuration_koch import KochTeleopConfig
from .teleop_koch import KochTeleop
__all__ = ["KochTeleopConfig", "KochTeleop"]

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