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""" Dataset parser interface that wraps TFDS datasets
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Wraps many (most?) TFDS image-classification datasets
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from https://github.com/tensorflow/datasets
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https://www.tensorflow.org/datasets/catalog/overview#image_classification
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Hacked together by / Copyright 2020 Ross Wightman
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"""
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import math
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import torch
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from PIL import Image
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try:
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import tensorflow as tf
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tf.config.set_visible_devices([], 'GPU') # Hands off my GPU! (or pip install tensorflow-cpu)
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import tensorflow_datasets as tfds
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try:
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tfds.even_splits('', 1, drop_remainder=False) # non-buggy even_splits has drop_remainder arg
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has_buggy_even_splits = False
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except TypeError:
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print("Warning: This version of tfds doesn't have the latest even_splits impl. "
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"Please update or use tfds-nightly for better fine-grained split behaviour.")
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has_buggy_even_splits = True
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# NOTE uncomment below if having file limit issues on dataset build (or alter your OS defaults)
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# import resource
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# low, high = resource.getrlimit(resource.RLIMIT_NOFILE)
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# resource.setrlimit(resource.RLIMIT_NOFILE, (high, high))
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except ImportError as e:
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print(e)
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print("Please install tensorflow_datasets package `pip install tensorflow-datasets`.")
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exit(1)
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from .parser import Parser
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from timm.bits import get_global_device, is_global_device
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MAX_TP_SIZE = 8 # maximum TF threadpool size, only doing jpeg decodes and queuing activities
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SHUFFLE_SIZE = 8192 # examples to shuffle in DS queue
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PREFETCH_SIZE = 2048 # examples to prefetch
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def even_split_indices(split, n, num_examples):
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partitions = [round(i * num_examples / n) for i in range(n + 1)]
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return [f"{split}[{partitions[i]}:{partitions[i + 1]}]" for i in range(n)]
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def get_class_labels(info):
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if 'label' not in info.features:
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return {}
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class_label = info.features['label']
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class_to_idx = {n: class_label.str2int(n) for n in class_label.names}
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return class_to_idx
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class ParserTfds(Parser):
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""" Wrap Tensorflow Datasets for use in PyTorch
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There several things to be aware of:
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* To prevent excessive examples being dropped per epoch w/ distributed training or multiplicity of
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dataloader workers, the train iterator wraps to avoid returning partial batches that trigger drop_last
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https://github.com/pytorch/pytorch/issues/33413
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* With PyTorch IterableDatasets, each worker in each replica operates in isolation, the final batch
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from each worker could be a different size. For training this is worked around by option above, for
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validation extra examples are inserted iff distributed mode is enabled so that the batches being reduced
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across replicas are of same size. This will slightly alter the results, distributed validation will not be
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100% correct. This is similar to common handling in DistributedSampler for normal Datasets but a bit worse
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since there are up to N * J extra examples with IterableDatasets.
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* The sharding (splitting of dataset into TFRecord) files imposes limitations on the number of
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replicas and dataloader workers you can use. For really small datasets that only contain a few shards
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you may have to train non-distributed w/ 1-2 dataloader workers. This is likely not a huge concern as the
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benefit of distributed training or fast dataloading should be much less for small datasets.
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* This wrapper is currently configured to return individual, decompressed image examples from the TFDS
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dataset. The augmentation (transforms) and batching is still done in PyTorch. It would be possible
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to specify TF augmentation fn and return augmented batches w/ some modifications to other downstream
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components.
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"""
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def __init__(
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self,
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root,
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name,
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split='train',
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is_training=False,
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batch_size=None,
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download=False,
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repeats=0,
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seed=42,
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input_name='image',
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input_image='RGB',
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target_name='label',
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target_image='',
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prefetch_size=None,
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shuffle_size=None,
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max_threadpool_size=None
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):
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""" Tensorflow-datasets Wrapper
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Args:
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root: root data dir (ie your TFDS_DATA_DIR. not dataset specific sub-dir)
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name: tfds dataset name (eg `imagenet2012`)
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split: tfds dataset split (can use all TFDS split strings eg `train[:10%]`)
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is_training: training mode, shuffle enabled, dataset len rounded by batch_size
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batch_size: batch_size to use to unsure total examples % batch_size == 0 in training across all dis nodes
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download: download and build TFDS dataset if set, otherwise must use tfds CLI
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repeats: iterate through (repeat) the dataset this many times per iteration (once if 0 or 1)
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seed: common seed for shard shuffle across all distributed/worker instances
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input_name: name of Feature to return as data (input)
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input_image: image mode if input is an image (currently PIL mode string)
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target_name: name of Feature to return as target (label)
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target_image: image mode if target is an image (currently PIL mode string)
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prefetch_size: override default tf.data prefetch buffer size
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shuffle_size: override default tf.data shuffle buffer size
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max_threadpool_size: override default threadpool size for tf.data
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"""
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super().__init__()
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self.root = root
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self.split = split
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self.is_training = is_training
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if self.is_training:
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assert batch_size is not None, \
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"Must specify batch_size in training mode for reasonable behaviour w/ TFDS wrapper"
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self.batch_size = batch_size
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self.repeats = repeats
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self.common_seed = seed # a seed that's fixed across all worker / distributed instances
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# Performance settings
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self.prefetch_size = prefetch_size or PREFETCH_SIZE
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self.shuffle_size = shuffle_size or SHUFFLE_SIZE
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self.max_threadpool_size = max_threadpool_size or MAX_TP_SIZE
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# TFDS builder and split information
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self.input_name = input_name # FIXME support tuples / lists of inputs and targets and full range of Feature
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self.input_image = input_image
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self.target_name = target_name
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self.target_image = target_image
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self.builder = tfds.builder(name, data_dir=root)
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# NOTE: the tfds command line app can be used download & prepare datasets if you don't enable download flag
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if download:
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self.builder.download_and_prepare()
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self.class_to_idx = get_class_labels(self.builder.info) if self.target_name == 'label' else {}
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self.split_info = self.builder.info.splits[split]
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self.num_examples = self.split_info.num_examples
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# Distributed world state
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self.dist_rank = 0
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self.dist_num_replicas = 1
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if is_global_device():
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dev_env = get_global_device()
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if dev_env.distributed and dev_env.world_size > 1:
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self.dist_rank = dev_env.global_rank
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self.dist_num_replicas = dev_env.world_size
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else:
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# FIXME warn if we fallback to torch distributed?
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import torch.distributed as dist
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if dist.is_available() and dist.is_initialized() and dist.get_world_size() > 1:
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self.dist_rank = dist.get_rank()
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self.dist_num_replicas = dist.get_world_size()
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# Attributes that are updated in _lazy_init, including the tf.data pipeline itself
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self.global_num_workers = 1
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self.worker_info = None
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self.worker_seed = 0 # seed unique to each work instance
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self.subsplit = None # set when data is distributed across workers using sub-splits
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self.ds = None # initialized lazily on each dataloader worker process
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self.init_count = 0
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self.reinit_each_iter = False # self.is_training # FIXME evaluating shuffle across epochs
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def _lazy_init(self):
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""" Lazily initialize the dataset.
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This is necessary to init the Tensorflow dataset pipeline in the (dataloader) process that
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will be using the dataset instance. The __init__ method is called on the main process,
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this will be called in a dataloader worker process.
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NOTE: There will be problems if you try to re-use this dataset across different loader/worker
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instances once it has been initialized. Do not call any dataset methods that can call _lazy_init
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before it is passed to dataloader.
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"""
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# setup input context to split dataset across distributed processes
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if self.worker_info is None:
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worker_info = torch.utils.data.get_worker_info()
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assert worker_info is not None
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self.worker_info = worker_info
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self.worker_seed = worker_info.seed
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num_workers = worker_info.num_workers
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self.global_num_workers = self.dist_num_replicas * num_workers
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global_worker_id = self.dist_rank * num_workers + worker_info.id
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""" Data sharding
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InputContext will assign subset of underlying TFRecord files to each 'pipeline' if used.
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My understanding is that using split, the underling TFRecord files will shuffle (shuffle_files=True)
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between the splits each iteration, but that understanding could be wrong.
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I am currently using a mix of InputContext shard assignment and fine-grained sub-splits for distributing
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the data across workers. For training InputContext is used to assign shards to nodes unless num_shards
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in dataset < total number of workers. Otherwise sub-split API is used for datasets without enough shards or
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for validation where we can't drop examples and need to avoid minimize uneven splits to avoid padding.
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"""
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should_subsplit = self.global_num_workers > 1 and (
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self.split_info.num_shards < self.global_num_workers or not self.is_training)
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if should_subsplit:
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# split the dataset w/o using sharding for more even examples / worker, can result in less optimal
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# read patterns for distributed training (overlap across shards) so better to use InputContext there
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if has_buggy_even_splits:
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# my even_split workaround doesn't work on subsplits, upgrade tfds!
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if not isinstance(self.split_info, tfds.core.splits.SubSplitInfo):
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subsplits = even_split_indices(self.split, self.global_num_workers, self.num_examples)
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self.subsplit = subsplits[global_worker_id]
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else:
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subsplits = tfds.even_splits(self.split, self.global_num_workers)
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self.subsplit = subsplits[global_worker_id]
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else:
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num_workers = self.worker_info.num_workers
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global_worker_id = self.dist_rank * num_workers + self.worker_info.id
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input_context = None
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if self.global_num_workers > 1 and self.subsplit is None:
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# set input context to divide shards among distributed replicas
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input_context = tf.distribute.InputContext(
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num_input_pipelines=self.global_num_workers,
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input_pipeline_id=global_worker_id,
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num_replicas_in_sync=self.dist_num_replicas # FIXME does this arg have any impact?
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)
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read_config = tfds.ReadConfig(
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shuffle_seed=self.common_seed + self.init_count,
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shuffle_reshuffle_each_iteration=not self.reinit_each_iter,
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input_context=input_context)
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ds = self.builder.as_dataset(
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split=self.subsplit or self.split, shuffle_files=self.is_training, read_config=read_config)
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# avoid overloading threading w/ combo of TF ds threads + PyTorch workers
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options = tf.data.Options()
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thread_member = 'threading' if hasattr(options, 'threading') else 'experimental_threading'
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getattr(options, thread_member).private_threadpool_size = max(1, self.max_threadpool_size // num_workers)
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getattr(options, thread_member).max_intra_op_parallelism = 1
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ds = ds.with_options(options)
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if self.is_training or self.repeats > 1:
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# to prevent excessive drop_last batch behaviour w/ IterableDatasets
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# see warnings at https://pytorch.org/docs/stable/data.html#multi-process-data-loading
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ds = ds.repeat() # allow wrap around and break iteration manually
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if self.is_training:
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ds = ds.shuffle(
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min(self.num_examples, self.shuffle_size) // self.global_num_workers,
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seed=self.worker_seed + self.init_count)
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ds = ds.prefetch(min(self.num_examples // self.global_num_workers, self.prefetch_size))
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self.ds = tfds.as_numpy(ds)
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self.init_count += 1
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def __iter__(self):
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if self.ds is None or self.reinit_each_iter:
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self._lazy_init()
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# Compute a rounded up sample count that is used to:
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# 1. make batches even cross workers & replicas in distributed validation.
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# This adds extra examples and will slightly alter validation results.
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# 2. determine loop ending condition in training w/ repeat enabled so that only full batch_size
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# batches are produced (underlying tfds iter wraps around)
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target_example_count = math.ceil(max(1, self.repeats) * self.num_examples / self.global_num_workers)
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if self.is_training:
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# round up to nearest batch_size per worker-replica
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target_example_count = math.ceil(target_example_count / self.batch_size) * self.batch_size
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# Iterate until exhausted or sample count hits target when training (ds.repeat enabled)
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example_count = 0
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for example in self.ds:
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input_data = example[self.input_name]
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if self.input_image:
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input_data = Image.fromarray(input_data, mode=self.input_image)
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target_data = example[self.target_name]
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if self.target_image:
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target_data = Image.fromarray(target_data, mode=self.target_image)
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yield input_data, target_data
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example_count += 1
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if self.is_training and example_count >= target_example_count:
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# Need to break out of loop when repeat() is enabled for training w/ oversampling
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# this results in extra examples per epoch but seems more desirable than dropping
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# up to N*J batches per epoch (where N = num distributed processes, and J = num worker processes)
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break
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# Pad across distributed nodes (make counts equal by adding examples)
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if not self.is_training and self.dist_num_replicas > 1 and self.subsplit is not None and \
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0 < example_count < target_example_count:
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# Validation batch padding only done for distributed training where results are reduced across nodes.
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# For single process case, it won't matter if workers return different batch sizes.
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# If using input_context or % based splits, sample count can vary significantly across workers and this
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# approach should not be used (hence disabled if self.subsplit isn't set).
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while example_count < target_example_count:
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yield input_data, target_data # yield prev sample again
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example_count += 1
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def __len__(self):
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# this is just an estimate and does not factor in extra examples added to pad batches based on
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# complete worker & replica info (not available until init in dataloader).
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return math.ceil(max(1, self.repeats) * self.num_examples / self.dist_num_replicas)
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def _filename(self, index, basename=False, absolute=False):
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assert False, "Not supported" # no random access to examples
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def filenames(self, basename=False, absolute=False):
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""" Return all filenames in dataset, overrides base"""
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if self.ds is None:
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self._lazy_init()
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names = []
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for sample in self.ds:
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if len(names) > self.num_examples:
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break # safety for ds.repeat() case
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if 'file_name' in sample:
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name = sample['file_name']
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elif 'filename' in sample:
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name = sample['filename']
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elif 'id' in sample:
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name = sample['id']
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else:
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assert False, "No supported name field present"
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names.append(name)
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return names
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