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decagon-pytorch/tests/icosagon/test_decode.py

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  1. from icosagon.decode import DEDICOMDecoder, \

  2.     DistMultDecoder, \

  3.     BilinearDecoder, \

  4.     InnerProductDecoder

  5. import decagon_pytorch.decode.pairwise

  6. import torch

  7. 

  8. 

  9. def test_dedicom_decoder_01():

  10.     repr_ = torch.rand(20, 32)

  11.     dec_1 = DEDICOMDecoder(32, 7, keep_prob=1.,

  12.         activation=torch.sigmoid)

  13.     dec_2 = decagon_pytorch.decode.pairwise.DEDICOMDecoder(32, 7, drop_prob=0.,

  14.         activation=torch.sigmoid)

  15.     dec_2.global_interaction = dec_1.global_interaction

  16.     dec_2.local_variation = dec_1.local_variation

  17. 

  18.     res_1 = [ dec_1(repr_, repr_, k) for k in range(7) ]

  19.     res_2 = dec_2(repr_, repr_)

  20. 

  21.     assert isinstance(res_1, list)

  22.     assert isinstance(res_2, list)

  23. 

  24.     assert len(res_1) == len(res_2)

  25. 

  26.     for i in range(len(res_1)):

  27.         assert torch.all(res_1[i] == res_2[i])

  28. 

  29. 

  30. def test_dist_mult_decoder_01():

  31.     repr_ = torch.rand(20, 32)

  32.     dec_1 = DistMultDecoder(32, 7, keep_prob=1.,

  33.         activation=torch.sigmoid)

  34.     dec_2 = decagon_pytorch.decode.pairwise.DistMultDecoder(32, 7, drop_prob=0.,

  35.         activation=torch.sigmoid)

  36.     dec_2.relation = dec_1.relation

  37. 

  38.     res_1 = [ dec_1(repr_, repr_, k) for k in range(7) ]

  39.     res_2 = dec_2(repr_, repr_)

  40. 

  41.     assert isinstance(res_1, list)

  42.     assert isinstance(res_2, list)

  43. 

  44.     assert len(res_1) == len(res_2)

  45. 

  46.     for i in range(len(res_1)):

  47.         assert torch.all(res_1[i] == res_2[i])

  48. 

  49. 

  50. def test_bilinear_decoder_01():

  51.     repr_ = torch.rand(20, 32)

  52.     dec_1 = BilinearDecoder(32, 7, keep_prob=1.,

  53.         activation=torch.sigmoid)

  54.     dec_2 = decagon_pytorch.decode.pairwise.BilinearDecoder(32, 7, drop_prob=0.,

  55.         activation=torch.sigmoid)

  56.     dec_2.relation = dec_1.relation

  57. 

  58.     res_1 = [ dec_1(repr_, repr_, k) for k in range(7) ]

  59.     res_2 = dec_2(repr_, repr_)

  60. 

  61.     assert isinstance(res_1, list)

  62.     assert isinstance(res_2, list)

  63. 

  64.     assert len(res_1) == len(res_2)

  65. 

  66.     for i in range(len(res_1)):

  67.         assert torch.all(res_1[i] == res_2[i])

  68. 

  69. 

  70. def test_inner_product_decoder_01():

  71.     repr_ = torch.rand(20, 32)

  72.     dec_1 = InnerProductDecoder(32, 7, keep_prob=1.,

  73.         activation=torch.sigmoid)

  74.     dec_2 = decagon_pytorch.decode.pairwise.InnerProductDecoder(32, 7, drop_prob=0.,

  75.         activation=torch.sigmoid)

  76. 

  77.     res_1 = [ dec_1(repr_, repr_, k) for k in range(7) ]

  78.     res_2 = dec_2(repr_, repr_)

  79. 

  80.     assert isinstance(res_1, list)

  81.     assert isinstance(res_2, list)

  82. 

  83.     assert len(res_1) == len(res_2)

  84. 

  85.     for i in range(len(res_1)):

  86.         assert torch.all(res_1[i] == res_2[i])

  87. 

  88. 

  89. def test_is_dedicom_not_symmetric_01():

  90.     repr_1 = torch.rand(20, 32)

  91.     repr_2 = torch.rand(20, 32)

  92.     dec = DEDICOMDecoder(32, 7, keep_prob=1.,

  93.         activation=torch.sigmoid)

  94. 

  95.     res_1 = [ dec(repr_1, repr_2, k) for k in range(7) ]

  96.     res_2 = [ dec(repr_2, repr_1, k) for k in range(7) ]

  97. 

  98. 

  99.     assert isinstance(res_1, list)

  100.     assert isinstance(res_2, list)

  101. 

  102.     assert len(res_1) == len(res_2)

  103. 

  104.     for i in range(len(res_1)):

  105.         assert not torch.all(res_1[i] - res_2[i] < 0.000001)

  106. 

  107. 

  108. def test_is_dist_mult_symmetric_01():

  109.     repr_1 = torch.rand(20, 32)

  110.     repr_2 = torch.rand(20, 32)

  111.     dec = DistMultDecoder(32, 7, keep_prob=1.,

  112.         activation=torch.sigmoid)

  113. 

  114.     res_1 = [ dec(repr_1, repr_2, k) for k in range(7) ]

  115.     res_2 = [ dec(repr_2, repr_1, k) for k in range(7) ]

  116. 

  117. 

  118.     assert isinstance(res_1, list)

  119.     assert isinstance(res_2, list)

  120. 

  121.     assert len(res_1) == len(res_2)

  122. 

  123.     for i in range(len(res_1)):

  124.         assert torch.all(res_1[i] - res_2[i] < 0.000001)

  125. 

  126. 

  127. def test_is_bilinear_not_symmetric_01():

  128.     repr_1 = torch.rand(20, 32)

  129.     repr_2 = torch.rand(20, 32)

  130.     dec = BilinearDecoder(32, 7, keep_prob=1.,

  131.         activation=torch.sigmoid)

  132. 

  133.     res_1 = [ dec(repr_1, repr_2, k) for k in range(7) ]

  134.     res_2 = [ dec(repr_2, repr_1, k) for k in range(7) ]

  135. 

  136.     assert isinstance(res_1, list)

  137.     assert isinstance(res_2, list)

  138. 

  139.     assert len(res_1) == len(res_2)

  140. 

  141.     for i in range(len(res_1)):

  142.         assert not torch.all(res_1[i] - res_2[i] < 0.000001)

  143. 

  144. 

  145. def test_is_inner_product_symmetric_01():

  146.     repr_1 = torch.rand(20, 32)

  147.     repr_2 = torch.rand(20, 32)

  148.     dec = InnerProductDecoder(32, 7, keep_prob=1.,

  149.         activation=torch.sigmoid)

  150. 

  151.     res_1 = [ dec(repr_1, repr_2, k) for k in range(7) ]

  152.     res_2 = [ dec(repr_2, repr_1, k) for k in range(7) ]

  153. 

  154.     assert isinstance(res_1, list)

  155.     assert isinstance(res_2, list)

  156. 

  157.     assert len(res_1) == len(res_2)

  158. 

  159.     for i in range(len(res_1)):

  160.         assert torch.all(res_1[i] - res_2[i] < 0.000001)

  161. 

  162. 

  163. def test_empty_dedicom_decoder_01():

  164.     repr_ = torch.rand(0, 32)

  165.     dec = DEDICOMDecoder(32, 7, keep_prob=1.,

  166.         activation=torch.sigmoid)

  167. 

  168.     res = [ dec(repr_, repr_, k) for k in range(7) ]

  169. 

  170.     assert isinstance(res, list)

  171. 

  172.     for i in range(len(res)):

  173.         assert res[i].shape == (0,)

  174. 

  175. 

  176. def test_empty_dist_mult_decoder_01():

  177.     repr_ = torch.rand(0, 32)

  178.     dec = DistMultDecoder(32, 7, keep_prob=1.,

  179.         activation=torch.sigmoid)

  180. 

  181.     res = [ dec(repr_, repr_, k) for k in range(7) ]

  182. 

  183.     assert isinstance(res, list)

  184. 

  185.     for i in range(len(res)):

  186.         assert res[i].shape == (0,)

  187. 

  188. 

  189. def test_empty_bilinear_decoder_01():

  190.     repr_ = torch.rand(0, 32)

  191.     dec = BilinearDecoder(32, 7, keep_prob=1.,

  192.         activation=torch.sigmoid)

  193. 

  194.     res = [ dec(repr_, repr_, k) for k in range(7) ]

  195. 

  196.     assert isinstance(res, list)

  197. 

  198.     for i in range(len(res)):

  199.         assert res[i].shape == (0,)

  200. 

  201. 

  202. def test_empty_inner_product_decoder_01():

  203.     repr_ = torch.rand(0, 32)

  204.     dec = InnerProductDecoder(32, 7, keep_prob=1.,

  205.         activation=torch.sigmoid)

  206. 

  207.     res = [ dec(repr_, repr_, k) for k in range(7) ]

  208. 

  209.     assert isinstance(res, list)

  210. 

  211.     for i in range(len(res)):

  212.         assert res[i].shape == (0,)

  213. 

  214. 

  215. def test_dedicom_decoder_parameter_count_01():

  216.     dec = DEDICOMDecoder(32, 7, keep_prob=1.,

  217.         activation=torch.sigmoid)

  218. 

  219.     assert len(list(dec.parameters())) == 8

  220. 

  221. 

  222. def test_dist_mult_decoder_parameter_count_01():

  223.     dec = DistMultDecoder(32, 7, keep_prob=1.,

  224.         activation=torch.sigmoid)

  225. 

  226.     assert len(list(dec.parameters())) == 7

  227. 

  228. 

  229. def test_bilinear_decoder_parameter_count_01():

  230.     dec = BilinearDecoder(32, 7, keep_prob=1.,

  231.         activation=torch.sigmoid)

  232. 

  233.     assert len(list(dec.parameters())) == 7

  234. 

  235. 

  236. def test_inner_product_decoder_parameter_count_01():

  237.     dec = InnerProductDecoder(32, 7, keep_prob=1.,

  238.         activation=torch.sigmoid)

  239. 

  240.     assert len(list(dec.parameters())) == 0