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decagon-pytorch/tests/icosagon/test_sampling.py

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  1. import tensorflow as tf

  2. import numpy as np

  3. from collections import defaultdict

  4. import torch

  5. import torch.utils.data

  6. from typing import List, \

  7.     Union

  8. import icosagon.sampling

  9. import scipy.stats

  10. 

  11. 

  12. def test_unigram_01():

  13.     range_max = 7

  14.     distortion = 0.75

  15.     batch_size = 500

  16.     unigrams = [ 1, 3, 2, 1, 2, 1, 3]

  17.     num_true = 1

  18. 

  19.     true_classes = np.zeros((batch_size, num_true), dtype=np.int64)

  20.     for i in range(batch_size):

  21.         true_classes[i, 0] = i % range_max

  22.     true_classes = tf.convert_to_tensor(true_classes)

  23. 

  24.     neg_samples, _, _ = tf.nn.fixed_unigram_candidate_sampler(

  25.         true_classes=true_classes,

  26.         num_true=num_true,

  27.         num_sampled=batch_size,

  28.         unique=False,

  29.         range_max=range_max,

  30.         distortion=distortion,

  31.         unigrams=unigrams)

  32. 

  33.     assert neg_samples.shape == (batch_size,)

  34. 

  35.     for i in range(batch_size):

  36.         assert neg_samples[i] != true_classes[i, 0]

  37. 

  38.     counts = defaultdict(int)

  39.     with tf.Session() as sess:

  40.         neg_samples = neg_samples.eval()

  41.     for x in neg_samples:

  42.         counts[x] += 1

  43. 

  44.     print('counts:', counts)

  45. 

  46.     assert counts[0] < counts[1] and \

  47.         counts[0] < counts[2] and \

  48.         counts[0] < counts[4] and \

  49.         counts[0] < counts[6]

  50. 

  51.     assert counts[2] < counts[1] and \

  52.         counts[0] < counts[6]

  53. 

  54.     assert counts[3] < counts[1] and \

  55.         counts[3] < counts[2] and \

  56.         counts[3] < counts[4] and \

  57.         counts[3] < counts[6]

  58. 

  59.     assert counts[4] < counts[1] and \

  60.         counts[4] < counts[6]

  61. 

  62.     assert counts[5] < counts[1] and \

  63.         counts[5] < counts[2] and \

  64.         counts[5] < counts[4] and \

  65.         counts[5] < counts[6]

  66. 

  67. 

  68. def test_unigram_02():

  69.     range_max = 7

  70.     distortion = 0.75

  71.     batch_size = 500

  72.     unigrams = [ 1, 3, 2, 1, 2, 1, 3]

  73.     num_true = 1

  74. 

  75.     true_classes = np.zeros((batch_size, num_true), dtype=np.int64)

  76.     for i in range(batch_size):

  77.         true_classes[i, 0] = i % range_max

  78.     true_classes = torch.tensor(true_classes)

  79. 

  80.     neg_samples = icosagon.sampling.fixed_unigram_candidate_sampler(

  81.         true_classes=true_classes,

  82.         unigrams=unigrams,

  83.         distortion=distortion)

  84. 

  85.     assert neg_samples.shape == (batch_size,)

  86. 

  87.     for i in range(batch_size):

  88.         assert neg_samples[i] != true_classes[i, 0]

  89. 

  90.     counts = defaultdict(int)

  91.     for x in neg_samples:

  92.         counts[x.item()] += 1

  93. 

  94.     print('counts:', counts)

  95. 

  96.     assert counts[0] < counts[1] and \

  97.         counts[0] < counts[2] and \

  98.         counts[0] < counts[4] and \

  99.         counts[0] < counts[6]

  100. 

  101.     assert counts[2] < counts[1] and \

  102.         counts[0] < counts[6]

  103. 

  104.     assert counts[3] < counts[1] and \

  105.         counts[3] < counts[2] and \

  106.         counts[3] < counts[4] and \

  107.         counts[3] < counts[6]

  108. 

  109.     assert counts[4] < counts[1] and \

  110.         counts[4] < counts[6]

  111. 

  112.     assert counts[5] < counts[1] and \

  113.         counts[5] < counts[2] and \

  114.         counts[5] < counts[4] and \

  115.         counts[5] < counts[6]

  116. 

  117. 

  118. def test_unigram_03():

  119.     range_max = 7

  120.     distortion = 0.75

  121.     batch_size = 2500

  122.     unigrams = [ 1, 3, 2, 1, 2, 1, 3]

  123.     num_true = 1

  124. 

  125.     true_classes = np.zeros((batch_size, num_true), dtype=np.int64)

  126.     for i in range(batch_size):

  127.         true_classes[i, 0] = i % range_max

  128. 

  129.     true_classes_tf = tf.convert_to_tensor(true_classes)

  130.     true_classes_torch = torch.tensor(true_classes)

  131. 

  132.     counts_tf = torch.zeros(range_max)

  133.     counts_torch = torch.zeros(range_max)

  134. 

  135.     for i in range(10):

  136.         neg_samples, _, _ = tf.nn.fixed_unigram_candidate_sampler(

  137.             true_classes=true_classes_tf,

  138.             num_true=num_true,

  139.             num_sampled=batch_size,

  140.             unique=False,

  141.             range_max=range_max,

  142.             distortion=distortion,

  143.             unigrams=unigrams)

  144. 

  145.         counts = torch.zeros(range_max)

  146.         with tf.Session() as sess:

  147.             neg_samples = neg_samples.eval()

  148.         for x in neg_samples:

  149.             counts[x.item()] += 1

  150.         counts_tf += counts

  151. 

  152.         neg_samples = icosagon.sampling.fixed_unigram_candidate_sampler(

  153.             true_classes=true_classes,

  154.             distortion=distortion,

  155.             unigrams=unigrams)

  156. 

  157.         counts = torch.zeros(range_max)

  158.         for x in neg_samples:

  159.             counts[x.item()] += 1

  160.         counts_torch += counts

  161. 

  162.     print('counts_tf:', counts_tf)

  163.     print('counts_torch:', counts_torch)

  164. 

  165.     distance = scipy.stats.wasserstein_distance(counts_tf, counts_torch)

  166.     assert distance < 2000