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distributed.py
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distributed.py
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import math
import torch
from . import Sampler
import torch.distributed as dist
class DistributedSampler(Sampler):
r"""Sampler that restricts data loading to a subset of the dataset.
It is especially useful in conjunction with
:class:`torch.nn.parallel.DistributedDataParallel`. In such a case, each
process can pass a :class:`~torch.utils.data.DistributedSampler` instance as a
:class:`~torch.utils.data.DataLoader` sampler, and load a subset of the
original dataset that is exclusive to it.
.. note::
Dataset is assumed to be of constant size.
Arguments:
dataset: Dataset used for sampling.
num_replicas (int, optional): Number of processes participating in
distributed training. By default, :attr:`rank` is retrieved from the
current distributed group.
rank (int, optional): Rank of the current process within :attr:`num_replicas`.
By default, :attr:`rank` is retrieved from the current distributed
group.
shuffle (bool, optional): If ``True`` (default), sampler will shuffle the
indices.
seed (int, optional): random seed used to shuffle the sampler if
:attr:`shuffle=True`. This number should be identical across all
processes in the distributed group. Default: ``0``.
drop_last (bool, optional): if ``True``, then the sampler will drop the
tail of the data to make it evenly divisible across the number of
replicas. If ``False``, the sampler will add extra indices to make
the data evenly divisible across the replicas. Default: ``False``.
.. warning::
In distributed mode, calling the :meth:`set_epoch` method at
the beginning of each epoch **before** creating the :class:`DataLoader` iterator
is necessary to make shuffling work properly across multiple epochs. Otherwise,
the same ordering will be always used.
Example::
>>> sampler = DistributedSampler(dataset) if is_distributed else None
>>> loader = DataLoader(dataset, shuffle=(sampler is None),
... sampler=sampler)
>>> for epoch in range(start_epoch, n_epochs):
... if is_distributed:
... sampler.set_epoch(epoch)
... train(loader)
"""
def __init__(self, dataset, num_replicas=None, rank=None, shuffle=True, seed=0, drop_last=False):
if num_replicas is None:
if not dist.is_available():
raise RuntimeError("Requires distributed package to be available")
num_replicas = dist.get_world_size()
if rank is None:
if not dist.is_available():
raise RuntimeError("Requires distributed package to be available")
rank = dist.get_rank()
self.dataset = dataset
self.num_replicas = num_replicas
self.rank = rank
self.epoch = 0
self.drop_last = drop_last
# If the dataset length is evenly divisible by # of replicas, then there
# is no need to drop any data, since the dataset will be split equally.
if self.drop_last and len(self.dataset) % self.num_replicas != 0:
# Split to nearest available length that is evenly divisible.
# This is to ensure each rank receives the same amount of data when
# using this Sampler.
self.num_samples = math.ceil(
(len(self.dataset) - self.num_replicas) / self.num_replicas
)
else:
self.num_samples = math.ceil(len(self.dataset) / self.num_replicas)
self.total_size = self.num_samples * self.num_replicas
self.shuffle = shuffle
self.seed = seed
def __iter__(self):
if self.shuffle:
# deterministically shuffle based on epoch and seed
g = torch.Generator()
g.manual_seed(self.seed + self.epoch)
indices = torch.randperm(len(self.dataset), generator=g).tolist()
else:
indices = list(range(len(self.dataset)))
if not self.drop_last:
# add extra samples to make it evenly divisible
indices += indices[:(self.total_size - len(indices))]
else:
# remove tail of data to make it evenly divisible.
indices = indices[:self.total_size]
assert len(indices) == self.total_size
# subsample
indices = indices[self.rank:self.total_size:self.num_replicas]
assert len(indices) == self.num_samples
return iter(indices)
def __len__(self):
return self.num_samples
def set_epoch(self, epoch):
r"""
Sets the epoch for this sampler. When :attr:`shuffle=True`, this ensures all replicas
use a different random ordering for each epoch. Otherwise, the next iteration of this
sampler will yield the same ordering.
Arguments:
epoch (int): Epoch number.
"""
self.epoch = epoch