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chore: import upstream snapshot with attribution
2026-07-13 13:10:22 +08:00

78 lines
3.2 KiB
Python

import torch
import numpy as np
import h5py
from typing import Iterator, Tuple
def get_batch_iterator(data_path: str, batch_size: int, context_length: int, device: str = "cpu") -> Iterator[Tuple[torch.Tensor, torch.Tensor]]:
"""
Creates an iterator for generating batches of data from an HDF5 file.
Args:
data_path (str): Path to the HDF5 file containing tokenized data.
batch_size (int): Number of sequences in each batch.
context_length (int): Length of each sequence.
device (str, optional): Device to load the data onto ('cpu' or 'cuda'). Defaults to "cpu".
Yields:
tuple: A tuple containing input sequences (xb) and target sequences (yb).
"""
# Open the HDF5 file in read mode
with h5py.File(data_path, 'r') as hdf5_file:
# Extract the dataset of tokenized sequences
dataset = hdf5_file['tokens']
# Get the total size of the dataset
dataset_size = dataset.shape[0]
# Calculate the number of examples (sequences) that can be made from the data
n_examples = (dataset_size - 1) // context_length
# Create an array of indices for examples and shuffle them for randomness
example_idxs = np.arange(n_examples)
np.random.shuffle(example_idxs)
# Initialize epoch counter and example counter
epochs = 0
counter = 0
while True:
# Check if the current batch exceeds the number of available examples
if counter + batch_size > n_examples:
# Shuffle the indices again and reset the counter to 0
np.random.shuffle(example_idxs)
counter = 0
print(f"Finished epoch {epochs}") # Print epoch number when an epoch finishes
epochs += 1 # Increment the epoch counter
# Select a batch of random indices to generate sequences
random_indices = example_idxs[counter:counter+batch_size] * context_length
# Retrieve sequences from the dataset based on the random indices
random_samples = torch.tensor(np.array([dataset[idx:idx+context_length+1] for idx in random_indices]))
# Separate the input sequences (xb) and target sequences (yb)
xb = random_samples[:, :context_length].to(device) # Input sequence (first half of the random sample)
yb = random_samples[:, 1:context_length+1].to(device) # Target sequence (second half of the random sample)
# Increment the counter to move to the next batch
counter += batch_size
# Yield the input and target sequences as a tuple for the current batch
yield xb, yb
if __name__ == '__main__':
# Example Usage (requires a dummy HDF5 file for testing)
# Create a dummy HDF5 file
import os
dummy_data_path = "dummy_data.h5"
if not os.path.exists(dummy_data_path):
with h5py.File(dummy_data_path, 'w') as f:
f.create_dataset('tokens', data=np.arange(1000))
batch_size = 4
context_length = 10
for xb, yb in get_batch_iterator(dummy_data_path, batch_size, context_length):
print("Input Batch Shape:", xb.shape)
print("Target Batch Shape:", yb.shape)
break