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decagon-pytorch/tests/decagon_pytorch/test_decode.py

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  1. import decagon_pytorch.decode.cartesian

  2. import decagon.deep.layers

  3. import numpy as np

  4. import tensorflow as tf

  5. import torch

  6. 

  7. 

  8. def _common(decoder_torch, decoder_tf):

  9.     inputs = np.random.rand(20, 10).astype(np.float32)

  10.     inputs_torch = torch.tensor(inputs)

  11.     inputs_tf = {

  12.         0: tf.convert_to_tensor(inputs)

  13.     }

  14.     out_torch = decoder_torch(inputs_torch, inputs_torch)

  15.     out_tf = decoder_tf(inputs_tf)

  16. 

  17.     assert len(out_torch) == len(out_tf)

  18.     assert len(out_tf) == 7

  19. 

  20.     for i in range(len(out_torch)):

  21.         assert out_torch[i].shape == out_tf[i].shape

  22. 

  23.     sess = tf.Session()

  24.     for i in range(len(out_torch)):

  25.         item_torch = out_torch[i].detach().numpy()

  26.         item_tf = out_tf[i].eval(session=sess)

  27.         print('item_torch:', item_torch)

  28.         print('item_tf:', item_tf)

  29.         assert np.all(item_torch - item_tf < .000001)

  30.     sess.close()

  31. 

  32. 

  33. def test_dedicom_decoder():

  34.     dedicom_torch = decagon_pytorch.decode.cartesian.DEDICOMDecoder(input_dim=10,

  35.         num_relation_types=7)

  36.     dedicom_tf = decagon.deep.layers.DEDICOMDecoder(input_dim=10, num_types=7,

  37.         edge_type=(0, 0))

  38. 

  39.     dedicom_tf.vars['global_interaction'] = \

  40.         tf.convert_to_tensor(dedicom_torch.global_interaction.detach().numpy())

  41.     for i in range(dedicom_tf.num_types):

  42.         dedicom_tf.vars['local_variation_%d' % i] = \

  43.             tf.convert_to_tensor(dedicom_torch.local_variation[i].detach().numpy())

  44. 

  45.     _common(dedicom_torch, dedicom_tf)

  46. 

  47. 

  48. def test_dist_mult_decoder():

  49.     distmult_torch = decagon_pytorch.decode.cartesian.DistMultDecoder(input_dim=10,

  50.         num_relation_types=7)

  51.     distmult_tf = decagon.deep.layers.DistMultDecoder(input_dim=10, num_types=7,

  52.         edge_type=(0, 0))

  53. 

  54.     for i in range(distmult_tf.num_types):

  55.         distmult_tf.vars['relation_%d' % i] = \

  56.             tf.convert_to_tensor(distmult_torch.relation[i].detach().numpy())

  57. 

  58.     _common(distmult_torch, distmult_tf)

  59. 

  60. 

  61. def test_bilinear_decoder():

  62.     bilinear_torch = decagon_pytorch.decode.cartesian.BilinearDecoder(input_dim=10,

  63.         num_relation_types=7)

  64.     bilinear_tf = decagon.deep.layers.BilinearDecoder(input_dim=10, num_types=7,

  65.         edge_type=(0, 0))

  66. 

  67.     for i in range(bilinear_tf.num_types):

  68.         bilinear_tf.vars['relation_%d' % i] = \

  69.             tf.convert_to_tensor(bilinear_torch.relation[i].detach().numpy())

  70. 

  71.     _common(bilinear_torch, bilinear_tf)

  72. 

  73. 

  74. def test_inner_product_decoder():

  75.     inner_torch = decagon_pytorch.decode.cartesian.InnerProductDecoder(input_dim=10,

  76.         num_relation_types=7)

  77.     inner_tf = decagon.deep.layers.InnerProductDecoder(input_dim=10, num_types=7,

  78.         edge_type=(0, 0))

  79. 

  80.     _common(inner_torch, inner_tf)