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from icosagon.data import Data
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from icosagon.bulkdec import BulkDecodeLayer
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from icosagon.input import OneHotInputLayer
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from icosagon.convlayer import DecagonLayer
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import torch
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def test_bulk_decode_layer_01():
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data = Data()
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data.add_node_type('Dummy', 100)
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fam = data.add_relation_family('Dummy-Dummy', 0, 0, False)
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fam.add_relation_type('Dummy Relation 1',
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torch.rand((100, 100), dtype=torch.float32).round().to_sparse())
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in_layer = OneHotInputLayer(data)
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d_layer = DecagonLayer(in_layer.output_dim, 32, data)
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dec_layer = BulkDecodeLayer(input_dim=d_layer.output_dim, data=data,
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keep_prob=1., activation=lambda x: x)
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seq = torch.nn.Sequential(in_layer, d_layer, dec_layer)
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pred = seq(None)
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assert isinstance(pred, list)
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assert len(pred) == len(data.relation_families)
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assert isinstance(pred[0], torch.Tensor)
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assert len(pred[0].shape) == 3
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assert len(pred[0]) == len(data.relation_families[0].relation_types)
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assert pred[0].shape[1] == data.node_types[0].count
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assert pred[0].shape[2] == data.node_types[0].count
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def test_bulk_decode_layer_02():
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data = Data()
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data.add_node_type('Foo', 100)
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data.add_node_type('Bar', 50)
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fam = data.add_relation_family('Foo-Bar', 0, 1, False)
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fam.add_relation_type('Foobar Relation 1',
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torch.rand((100, 50), dtype=torch.float32).round().to_sparse(),
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torch.rand((50, 100), dtype=torch.float32).round().to_sparse())
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in_layer = OneHotInputLayer(data)
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d_layer = DecagonLayer(in_layer.output_dim, 32, data)
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dec_layer = BulkDecodeLayer(input_dim=d_layer.output_dim, data=data,
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keep_prob=1., activation=lambda x: x)
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seq = torch.nn.Sequential(in_layer, d_layer, dec_layer)
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pred = seq(None)
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assert isinstance(pred, list)
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assert len(pred) == len(data.relation_families)
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assert isinstance(pred[0], torch.Tensor)
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assert len(pred[0].shape) == 3
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assert len(pred[0]) == len(data.relation_families[0].relation_types)
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assert pred[0].shape[1] == data.node_types[0].count
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assert pred[0].shape[2] == data.node_types[1].count
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def test_bulk_decode_layer_03():
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data = Data()
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data.add_node_type('Foo', 100)
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data.add_node_type('Bar', 50)
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fam = data.add_relation_family('Foo-Bar', 0, 1, False)
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fam.add_relation_type('Foobar Relation 1',
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torch.rand((100, 50), dtype=torch.float32).round().to_sparse(),
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torch.rand((50, 100), dtype=torch.float32).round().to_sparse())
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fam.add_relation_type('Foobar Relation 2',
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torch.rand((100, 50), dtype=torch.float32).round().to_sparse(),
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torch.rand((50, 100), dtype=torch.float32).round().to_sparse())
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in_layer = OneHotInputLayer(data)
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d_layer = DecagonLayer(in_layer.output_dim, 32, data)
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dec_layer = BulkDecodeLayer(input_dim=d_layer.output_dim, data=data,
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keep_prob=1., activation=lambda x: x)
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seq = torch.nn.Sequential(in_layer, d_layer, dec_layer)
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pred = seq(None)
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assert isinstance(pred, list)
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assert len(pred) == len(data.relation_families)
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assert isinstance(pred[0], torch.Tensor)
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assert len(pred[0].shape) == 3
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assert len(pred[0]) == len(data.relation_families[0].relation_types)
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assert pred[0].shape[1] == data.node_types[0].count
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assert pred[0].shape[2] == data.node_types[1].count
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def test_bulk_decode_layer_03_big():
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data = Data()
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data.add_node_type('Foo', 2000)
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data.add_node_type('Bar', 2100)
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fam = data.add_relation_family('Foo-Bar', 0, 1, False)
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fam.add_relation_type('Foobar Relation 1',
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torch.rand((2000, 2100), dtype=torch.float32).round().to_sparse(),
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torch.rand((2100, 2000), dtype=torch.float32).round().to_sparse())
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fam.add_relation_type('Foobar Relation 2',
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torch.rand((2000, 2100), dtype=torch.float32).round().to_sparse(),
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torch.rand((2100, 2000), dtype=torch.float32).round().to_sparse())
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in_layer = OneHotInputLayer(data)
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d_layer = DecagonLayer(in_layer.output_dim, 32, data)
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dec_layer = BulkDecodeLayer(input_dim=d_layer.output_dim, data=data,
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keep_prob=1., activation=lambda x: x)
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seq = torch.nn.Sequential(in_layer, d_layer, dec_layer)
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pred = seq(None)
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assert isinstance(pred, list)
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assert len(pred) == len(data.relation_families)
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assert isinstance(pred[0], torch.Tensor)
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assert len(pred[0].shape) == 3
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assert len(pred[0]) == len(data.relation_families[0].relation_types)
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assert pred[0].shape[1] == data.node_types[0].count
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assert pred[0].shape[2] == data.node_types[1].count
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