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lerobot/tests/processor/test_vqbet_processor.py
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Adil Zouitine d32b76cc66 refactor(processor): improve processor pipeline typing with generic type (#1810) 
* refactor(processor): introduce generic type for to_output

- Always return `TOutput`
- Remove `_prepare_transition`, so `__call__` now always returns `TOutput`
- Update tests accordingly
- This refactor paves the way for adding settings for `to_transition` and `to_output` in `make_processor` and the post-processor

* refactor(processor): consolidate ProcessorKwargs usage across policies

- Removed the ProcessorTypes module and integrated ProcessorKwargs directly into the processor pipeline.
- Updated multiple policy files to utilize the new ProcessorKwargs structure for preprocessor and postprocessor arguments.
- Simplified the handling of processor kwargs by initializing them to empty dictionaries when not provided.
2025-09-02 12:57:14 +02:00

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#!/usr/bin/env python
# Copyright 2025 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.
"""Tests for VQBeT policy processor."""
import tempfile
import pytest
import torch
from lerobot.configs.types import FeatureType, NormalizationMode, PolicyFeature
from lerobot.constants import ACTION, OBS_IMAGE, OBS_STATE
from lerobot.policies.vqbet.configuration_vqbet import VQBeTConfig
from lerobot.policies.vqbet.processor_vqbet import make_vqbet_pre_post_processors
from lerobot.processor import (
DeviceProcessor,
NormalizerProcessor,
RenameProcessor,
RobotProcessor,
ToBatchProcessor,
UnnormalizerProcessor,
)
from lerobot.processor.pipeline import TransitionKey
def create_transition(observation=None, action=None, **kwargs):
"""Helper function to create a transition dictionary."""
transition = {}
if observation is not None:
transition[TransitionKey.OBSERVATION] = observation
if action is not None:
transition[TransitionKey.ACTION] = action
for key, value in kwargs.items():
if hasattr(TransitionKey, key.upper()):
transition[getattr(TransitionKey, key.upper())] = value
return transition
def create_default_config():
"""Create a default VQBeT configuration for testing."""
config = VQBeTConfig()
config.input_features = {
OBS_STATE: PolicyFeature(type=FeatureType.STATE, shape=(8,)),
OBS_IMAGE: PolicyFeature(type=FeatureType.VISUAL, shape=(3, 224, 224)),
}
config.output_features = {
ACTION: PolicyFeature(type=FeatureType.ACTION, shape=(7,)),
}
config.normalization_mapping = {
FeatureType.STATE: NormalizationMode.MEAN_STD,
FeatureType.VISUAL: NormalizationMode.IDENTITY,
FeatureType.ACTION: NormalizationMode.MIN_MAX,
}
config.device = "cpu"
return config
def create_default_stats():
"""Create default dataset statistics for testing."""
return {
OBS_STATE: {"mean": torch.zeros(8), "std": torch.ones(8)},
OBS_IMAGE: {}, # No normalization for images
ACTION: {"min": torch.full((7,), -1.0), "max": torch.ones(7)},
}
def test_make_vqbet_processor_basic():
"""Test basic creation of VQBeT processor."""
config = create_default_config()
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Check processor names
assert preprocessor.name == "robot_preprocessor"
assert postprocessor.name == "robot_postprocessor"
# Check steps in preprocessor
assert len(preprocessor.steps) == 4
assert isinstance(preprocessor.steps[0], RenameProcessor)
assert isinstance(preprocessor.steps[1], NormalizerProcessor)
assert isinstance(preprocessor.steps[2], ToBatchProcessor)
assert isinstance(preprocessor.steps[3], DeviceProcessor)
# Check steps in postprocessor
assert len(postprocessor.steps) == 2
assert isinstance(postprocessor.steps[0], DeviceProcessor)
assert isinstance(postprocessor.steps[1], UnnormalizerProcessor)
def test_vqbet_processor_with_images():
"""Test VQBeT processor with image and state observations."""
config = create_default_config()
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Create test data with images and states
observation = {
OBS_STATE: torch.randn(8),
OBS_IMAGE: torch.randn(3, 224, 224),
}
action = torch.randn(7)
transition = create_transition(observation, action)
# Process through preprocessor
processed = preprocessor(transition)
# Check that data is batched
assert processed[TransitionKey.OBSERVATION][OBS_STATE].shape == (1, 8)
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].shape == (1, 3, 224, 224)
assert processed[TransitionKey.ACTION].shape == (1, 7)
@pytest.mark.skipif(not torch.cuda.is_available(), reason="CUDA not available")
def test_vqbet_processor_cuda():
"""Test VQBeT processor with CUDA device."""
config = create_default_config()
config.device = "cuda"
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Create CPU data
observation = {
OBS_STATE: torch.randn(8),
OBS_IMAGE: torch.randn(3, 224, 224),
}
action = torch.randn(7)
transition = create_transition(observation, action)
# Process through preprocessor
processed = preprocessor(transition)
# Check that data is on CUDA
assert processed[TransitionKey.OBSERVATION][OBS_STATE].device.type == "cuda"
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].device.type == "cuda"
assert processed[TransitionKey.ACTION].device.type == "cuda"
# Process through postprocessor
action_transition = create_transition(action=processed[TransitionKey.ACTION])
postprocessed = postprocessor(action_transition)
# Check that action is back on CPU
assert postprocessed[TransitionKey.ACTION].device.type == "cpu"
@pytest.mark.skipif(not torch.cuda.is_available(), reason="CUDA not available")
def test_vqbet_processor_accelerate_scenario():
"""Test VQBeT processor in simulated Accelerate scenario."""
config = create_default_config()
config.device = "cuda:0"
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Simulate Accelerate: data already on GPU and batched
device = torch.device("cuda:0")
observation = {
OBS_STATE: torch.randn(1, 8).to(device),
OBS_IMAGE: torch.randn(1, 3, 224, 224).to(device),
}
action = torch.randn(1, 7).to(device)
transition = create_transition(observation, action)
# Process through preprocessor
processed = preprocessor(transition)
# Check that data stays on same GPU
assert processed[TransitionKey.OBSERVATION][OBS_STATE].device == device
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].device == device
assert processed[TransitionKey.ACTION].device == device
@pytest.mark.skipif(torch.cuda.device_count() < 2, reason="Requires at least 2 GPUs")
def test_vqbet_processor_multi_gpu():
"""Test VQBeT processor with multi-GPU setup."""
config = create_default_config()
config.device = "cuda:0"
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Simulate data on different GPU
device = torch.device("cuda:1")
observation = {
OBS_STATE: torch.randn(1, 8).to(device),
OBS_IMAGE: torch.randn(1, 3, 224, 224).to(device),
}
action = torch.randn(1, 7).to(device)
transition = create_transition(observation, action)
# Process through preprocessor
processed = preprocessor(transition)
# Check that data stays on cuda:1
assert processed[TransitionKey.OBSERVATION][OBS_STATE].device == device
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].device == device
assert processed[TransitionKey.ACTION].device == device
def test_vqbet_processor_without_stats():
"""Test VQBeT processor creation without dataset statistics."""
config = create_default_config()
# Get the steps from the factory function
factory_preprocessor, factory_postprocessor = make_vqbet_pre_post_processors(config, dataset_stats=None)
# Create new processors with EnvTransition input/output
preprocessor = RobotProcessor(
factory_preprocessor.steps,
name=factory_preprocessor.name,
to_transition=lambda x: x,
to_output=lambda x: x,
)
postprocessor = RobotProcessor(
factory_postprocessor.steps,
name=factory_postprocessor.name,
to_transition=lambda x: x,
to_output=lambda x: x,
)
# Should still create processors
assert preprocessor is not None
assert postprocessor is not None
# Process should still work
observation = {
OBS_STATE: torch.randn(8),
OBS_IMAGE: torch.randn(3, 224, 224),
}
action = torch.randn(7)
transition = create_transition(observation, action)
processed = preprocessor(transition)
assert processed is not None
def test_vqbet_processor_save_and_load():
"""Test saving and loading VQBeT processor."""
config = create_default_config()
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
with tempfile.TemporaryDirectory() as tmpdir:
# Save preprocessor
preprocessor.save_pretrained(tmpdir)
# Load preprocessor
loaded_preprocessor = RobotProcessor.from_pretrained(
tmpdir, to_transition=lambda x: x, to_output=lambda x: x
)
# Test that loaded processor works
observation = {
OBS_STATE: torch.randn(8),
OBS_IMAGE: torch.randn(3, 224, 224),
}
action = torch.randn(7)
transition = create_transition(observation, action)
processed = loaded_preprocessor(transition)
assert processed[TransitionKey.OBSERVATION][OBS_STATE].shape == (1, 8)
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].shape == (1, 3, 224, 224)
assert processed[TransitionKey.ACTION].shape == (1, 7)
@pytest.mark.skipif(not torch.cuda.is_available(), reason="CUDA not available")
def test_vqbet_processor_mixed_precision():
"""Test VQBeT processor with mixed precision."""
config = create_default_config()
config.device = "cuda"
stats = create_default_stats()
# Create processor
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Replace DeviceProcessor with one that uses float16
for i, step in enumerate(preprocessor.steps):
if isinstance(step, DeviceProcessor):
preprocessor.steps[i] = DeviceProcessor(device=config.device, float_dtype="float16")
# Create test data
observation = {
OBS_STATE: torch.randn(8, dtype=torch.float32),
OBS_IMAGE: torch.randn(3, 224, 224, dtype=torch.float32),
}
action = torch.randn(7, dtype=torch.float32)
transition = create_transition(observation, action)
# Process through preprocessor
processed = preprocessor(transition)
# Check that data is converted to float16
assert processed[TransitionKey.OBSERVATION][OBS_STATE].dtype == torch.float16
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].dtype == torch.float16
assert processed[TransitionKey.ACTION].dtype == torch.float16
def test_vqbet_processor_large_batch():
"""Test VQBeT processor with large batch sizes."""
config = create_default_config()
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Test with large batch
batch_size = 128
observation = {
OBS_STATE: torch.randn(batch_size, 8),
OBS_IMAGE: torch.randn(batch_size, 3, 224, 224),
}
action = torch.randn(batch_size, 7)
transition = create_transition(observation, action)
# Process through preprocessor
processed = preprocessor(transition)
# Check that batch dimension is preserved
assert processed[TransitionKey.OBSERVATION][OBS_STATE].shape == (batch_size, 8)
assert processed[TransitionKey.OBSERVATION][OBS_IMAGE].shape == (batch_size, 3, 224, 224)
assert processed[TransitionKey.ACTION].shape == (batch_size, 7)
def test_vqbet_processor_sequential_processing():
"""Test VQBeT processor with sequential data processing."""
config = create_default_config()
stats = create_default_stats()
preprocessor, postprocessor = make_vqbet_pre_post_processors(
config,
stats,
preprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
postprocessor_kwargs={"to_transition": lambda x: x, "to_output": lambda x: x},
)
# Process multiple samples sequentially
results = []
for _ in range(5):
observation = {
OBS_STATE: torch.randn(8),
OBS_IMAGE: torch.randn(3, 224, 224),
}
action = torch.randn(7)
transition = create_transition(observation, action)
processed = preprocessor(transition)
results.append(processed)
# Check that all results are consistent
for result in results:
assert result[TransitionKey.OBSERVATION][OBS_STATE].shape == (1, 8)
assert result[TransitionKey.OBSERVATION][OBS_IMAGE].shape == (1, 3, 224, 224)
assert result[TransitionKey.ACTION].shape == (1, 7)
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