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Running
on
A10G
""" | |
Copyright (c) 2022, salesforce.com, inc. | |
All rights reserved. | |
SPDX-License-Identifier: BSD-3-Clause | |
For full license text, see the LICENSE_Lavis file in the repo root or https://opensource.org/licenses/BSD-3-Clause | |
""" | |
import gzip | |
import logging | |
import os | |
import random as rnd | |
import tarfile | |
import zipfile | |
import random | |
from typing import List | |
from tqdm import tqdm | |
import decord | |
from decord import VideoReader | |
import webdataset as wds | |
import numpy as np | |
import torch | |
from torch.utils.data.dataset import IterableDataset | |
from video_llama.common.registry import registry | |
from video_llama.datasets.datasets.base_dataset import ConcatDataset | |
decord.bridge.set_bridge("torch") | |
MAX_INT = registry.get("MAX_INT") | |
class ChainDataset(wds.DataPipeline): | |
r"""Dataset for chaining multiple :class:`DataPipeline` s. | |
This class is useful to assemble different existing dataset streams. The | |
chaining operation is done on-the-fly, so concatenating large-scale | |
datasets with this class will be efficient. | |
Args: | |
datasets (iterable of IterableDataset): datasets to be chained together | |
""" | |
def __init__(self, datasets: List[wds.DataPipeline]) -> None: | |
super().__init__() | |
self.datasets = datasets | |
self.prob = [] | |
self.names = [] | |
for dataset in self.datasets: | |
if hasattr(dataset, 'name'): | |
self.names.append(dataset.name) | |
else: | |
self.names.append('Unknown') | |
if hasattr(dataset, 'sample_ratio'): | |
self.prob.append(dataset.sample_ratio) | |
else: | |
self.prob.append(1) | |
logging.info("One of the datapipeline doesn't define ratio and set to 1 automatically.") | |
def __iter__(self): | |
datastreams = [iter(dataset) for dataset in self.datasets] | |
while True: | |
select_datastream = random.choices(datastreams, weights=self.prob, k=1)[0] | |
yield next(select_datastream) | |
def apply_to_sample(f, sample): | |
if len(sample) == 0: | |
return {} | |
def _apply(x): | |
if torch.is_tensor(x): | |
return f(x) | |
elif isinstance(x, dict): | |
return {key: _apply(value) for key, value in x.items()} | |
elif isinstance(x, list): | |
return [_apply(x) for x in x] | |
else: | |
return x | |
return _apply(sample) | |
def move_to_cuda(sample): | |
def _move_to_cuda(tensor): | |
return tensor.cuda() | |
return apply_to_sample(_move_to_cuda, sample) | |
def prepare_sample(samples, cuda_enabled=True): | |
if cuda_enabled: | |
samples = move_to_cuda(samples) | |
# TODO fp16 support | |
return samples | |
def reorg_datasets_by_split(datasets): | |
""" | |
Organizes datasets by split. | |
Args: | |
datasets: dict of torch.utils.data.Dataset objects by name. | |
Returns: | |
Dict of datasets by split {split_name: List[Datasets]}. | |
""" | |
# if len(datasets) == 1: | |
# return datasets[list(datasets.keys())[0]] | |
# else: | |
reorg_datasets = dict() | |
# reorganize by split | |
for _, dataset in datasets.items(): | |
for split_name, dataset_split in dataset.items(): | |
if split_name not in reorg_datasets: | |
reorg_datasets[split_name] = [dataset_split] | |
else: | |
reorg_datasets[split_name].append(dataset_split) | |
return reorg_datasets | |
def concat_datasets(datasets): | |
""" | |
Concatenates multiple datasets into a single dataset. | |
It supports may-style datasets and DataPipeline from WebDataset. Currently, does not support | |
generic IterableDataset because it requires creating separate samplers. | |
Now only supports conctenating training datasets and assuming validation and testing | |
have only a single dataset. This is because metrics should not be computed on the concatenated | |
datasets. | |
Args: | |
datasets: dict of torch.utils.data.Dataset objects by split. | |
Returns: | |
Dict of concatenated datasets by split, "train" is the concatenation of multiple datasets, | |
"val" and "test" remain the same. | |
If the input training datasets contain both map-style and DataPipeline datasets, returns | |
a tuple, where the first element is a concatenated map-style dataset and the second | |
element is a chained DataPipeline dataset. | |
""" | |
# concatenate datasets in the same split | |
for split_name in datasets: | |
if split_name != "train": | |
assert ( | |
len(datasets[split_name]) == 1 | |
), "Do not support multiple {} datasets.".format(split_name) | |
datasets[split_name] = datasets[split_name][0] | |
else: | |
iterable_datasets, map_datasets = [], [] | |
for dataset in datasets[split_name]: | |
if isinstance(dataset, wds.DataPipeline): | |
logging.info( | |
"Dataset {} is IterableDataset, can't be concatenated.".format( | |
dataset | |
) | |
) | |
iterable_datasets.append(dataset) | |
elif isinstance(dataset, IterableDataset): | |
raise NotImplementedError( | |
"Do not support concatenation of generic IterableDataset." | |
) | |
else: | |
map_datasets.append(dataset) | |
# if len(iterable_datasets) > 0: | |
# concatenate map-style datasets and iterable-style datasets separately | |
if len(iterable_datasets) > 1: | |
chained_datasets = ( | |
ChainDataset(iterable_datasets) | |
) | |
elif len(iterable_datasets) == 1: | |
chained_datasets = iterable_datasets[0] | |
else: | |
chained_datasets = None | |
concat_datasets = ( | |
ConcatDataset(map_datasets) if len(map_datasets) > 0 else None | |
) | |
train_datasets = concat_datasets, chained_datasets | |
train_datasets = tuple([x for x in train_datasets if x is not None]) | |
train_datasets = ( | |
train_datasets[0] if len(train_datasets) == 1 else train_datasets | |
) | |
datasets[split_name] = train_datasets | |
return datasets | |