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# Copyright (c) Facebook, Inc. and its affiliates. | |
# | |
# This source code is licensed under the MIT license found in the | |
# LICENSE file in the root directory of this source tree. | |
import collections | |
import unittest | |
import numpy as np | |
from fairseq.data import ListDataset, ResamplingDataset | |
class TestResamplingDataset(unittest.TestCase): | |
def setUp(self): | |
self.strings = ["ab", "c", "def", "ghij"] | |
self.weights = [4.0, 2.0, 7.0, 1.5] | |
self.size_ratio = 2 | |
self.dataset = ListDataset( | |
self.strings, np.array([len(s) for s in self.strings]) | |
) | |
def _test_common(self, resampling_dataset, iters): | |
assert len(self.dataset) == len(self.strings) == len(self.weights) | |
assert len(resampling_dataset) == self.size_ratio * len(self.strings) | |
results = {"ordered_by_size": True, "max_distribution_diff": 0.0} | |
totalfreqs = 0 | |
freqs = collections.defaultdict(int) | |
for epoch_num in range(iters): | |
resampling_dataset.set_epoch(epoch_num) | |
indices = resampling_dataset.ordered_indices() | |
assert len(indices) == len(resampling_dataset) | |
prev_size = -1 | |
for i in indices: | |
cur_size = resampling_dataset.size(i) | |
# Make sure indices map to same sequences within an epoch | |
assert resampling_dataset[i] == resampling_dataset[i] | |
# Make sure length of sequence is correct | |
assert cur_size == len(resampling_dataset[i]) | |
freqs[resampling_dataset[i]] += 1 | |
totalfreqs += 1 | |
if prev_size > cur_size: | |
results["ordered_by_size"] = False | |
prev_size = cur_size | |
assert set(freqs.keys()) == set(self.strings) | |
for s, weight in zip(self.strings, self.weights): | |
freq = freqs[s] / totalfreqs | |
expected_freq = weight / sum(self.weights) | |
results["max_distribution_diff"] = max( | |
results["max_distribution_diff"], abs(expected_freq - freq) | |
) | |
return results | |
def test_resampling_dataset_batch_by_size_false(self): | |
resampling_dataset = ResamplingDataset( | |
self.dataset, | |
self.weights, | |
size_ratio=self.size_ratio, | |
batch_by_size=False, | |
seed=0, | |
) | |
results = self._test_common(resampling_dataset, iters=1000) | |
# For batch_by_size = False, the batches should be returned in | |
# arbitrary order of size. | |
assert not results["ordered_by_size"] | |
# Allow tolerance in distribution error of 2%. | |
assert results["max_distribution_diff"] < 0.02 | |
def test_resampling_dataset_batch_by_size_true(self): | |
resampling_dataset = ResamplingDataset( | |
self.dataset, | |
self.weights, | |
size_ratio=self.size_ratio, | |
batch_by_size=True, | |
seed=0, | |
) | |
results = self._test_common(resampling_dataset, iters=1000) | |
# For batch_by_size = True, the batches should be returned in | |
# increasing order of size. | |
assert results["ordered_by_size"] | |
# Allow tolerance in distribution error of 2%. | |
assert results["max_distribution_diff"] < 0.02 | |
if __name__ == "__main__": | |
unittest.main() | |