# Adapted from https://github.com/Lightning-AI/lightning/blob/2845e7565dbe6b765ae32870e7d2bc456529c30a/tests/tests_pytorch/utilities/test_auto_restart.py#L1397 from typing import Iterator import math import torch from torch.utils.data import RandomSampler, DistributedSampler class RandomFaultTolerantSampler(RandomSampler): def __init__(self, *args, generator=None, **kwargs): # generator = torch.Generator().manual_seed(seed) # super().__init__(*args, generator=generator, **kwargs) # TD [2022-07-17]: We don't force the seed to be zero. We generate random seed, # which should be reproducible if pl.seed_everything was called before hand. # This means that changing the seed of the experiment will also change the # sampling order. if generator is None: seed = int(torch.empty((), dtype=torch.int64).random_().item()) generator = torch.Generator().manual_seed(seed) super().__init__(*args, generator=generator, **kwargs) self.counter = 0 # self.start_counter = 0 self.restarting = False def state_dict(self): return {"random_state": self.state, "counter": self.counter} def load_state_dict(self, state_dict): self.generator.set_state(state_dict.get("random_state")) self.counter = state_dict["counter"] # self.start_counter = self.counter self.restarting = True # TD [2022-08-28] Setting the len will cause PL to think there are only a few batches left per # epoch, and subsequent epoch will have very few batches. # def __len__(self): # # We need a separate self.start_counter because PL seems to call len repeatedly. # # If we use len(self.data_source) - self.counter then PL will think the epoch ends # # when we're only half way through. # return len(self.data_source) - self.start_counter def __iter__(self) -> Iterator[int]: n = len(self.data_source) self.state = self.generator.get_state() indices = torch.randperm(n, generator=self.generator).tolist() if not self.restarting: self.counter = 0 else: indices = indices[self.counter:] self.restarting = False # self.start_counter = self.counter for index in indices: self.counter += 1 yield index self.counter = 0 # self.start_counter = self.counter class FaultTolerantDistributedSampler(DistributedSampler): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.counter = 0 # self.start_counter = 0 self.restarting = False def state_dict(self): return {"epoch": self.epoch, "counter": self.counter} def load_state_dict(self, state_dict): self.epoch = state_dict["epoch"] self.counter = state_dict["counter"] # self.start_counter = self.counter self.restarting = True # TD [2022-08-28] Setting the len will cause PL to think there are only a few batches left per # epoch, and subsequent epoch will have very few batches. # def __len__(self) -> int: # return self.num_samples - self.start_counter 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() # type: ignore[arg-type] else: indices = list(range(len(self.dataset))) # type: ignore[arg-type] if not self.drop_last: # add extra samples to make it evenly divisible padding_size = self.total_size - len(indices) if padding_size <= len(indices): indices += indices[:padding_size] else: indices += (indices * math.ceil(padding_size / len(indices)))[:padding_size] 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 if not self.restarting: self.counter = 0 else: indices = indices[self.counter:] self.restarting = False # self.start_counter = self.counter for index in indices: self.counter += 1 yield index self.counter = 0 # self.start_counter = self.counter