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- from icosagon.normalize import add_eye_sparse, \
- norm_adj_mat_one_node_type_sparse, \
- norm_adj_mat_one_node_type_dense, \
- norm_adj_mat_one_node_type
- import decagon_pytorch.normalize
- import torch
- import pytest
- import numpy as np
- from math import sqrt
-
-
- def test_add_eye_sparse_01():
- adj_mat_dense = torch.rand((10, 10))
- adj_mat_sparse = adj_mat_dense.to_sparse()
-
- adj_mat_dense += torch.eye(10)
- adj_mat_sparse = add_eye_sparse(adj_mat_sparse)
-
- assert torch.all(adj_mat_sparse.to_dense() == adj_mat_dense)
-
-
- def test_add_eye_sparse_02():
- adj_mat_dense = torch.rand((10, 20))
- adj_mat_sparse = adj_mat_dense.to_sparse()
-
- with pytest.raises(ValueError):
- _ = add_eye_sparse(adj_mat_sparse)
-
-
- def test_add_eye_sparse_03():
- adj_mat_dense = torch.rand((10, 10))
-
- with pytest.raises(ValueError):
- _ = add_eye_sparse(adj_mat_dense)
-
-
- def test_add_eye_sparse_04():
- adj_mat_dense = np.random.rand(10, 10)
-
- with pytest.raises(ValueError):
- _ = add_eye_sparse(adj_mat_dense)
-
-
- def test_norm_adj_mat_one_node_type_sparse_01():
- adj_mat = torch.rand((10, 10))
- adj_mat = (adj_mat > .5)
- adj_mat = adj_mat.to_sparse()
- _ = norm_adj_mat_one_node_type_sparse(adj_mat)
-
-
- def test_norm_adj_mat_one_node_type_sparse_02():
- adj_mat_dense = torch.rand((10, 10))
- adj_mat_dense = (adj_mat_dense > .5)
- adj_mat_sparse = adj_mat_dense.to_sparse()
- adj_mat_sparse = norm_adj_mat_one_node_type_sparse(adj_mat_sparse)
- adj_mat_dense = norm_adj_mat_one_node_type_dense(adj_mat_dense)
- assert torch.all(adj_mat_sparse.to_dense() - adj_mat_dense < 0.000001)
-
-
- def test_norm_adj_mat_one_node_type_dense_01():
- adj_mat = torch.rand((10, 10))
- adj_mat = (adj_mat > .5)
- _ = norm_adj_mat_one_node_type_dense(adj_mat)
-
-
- def test_norm_adj_mat_one_node_type_dense_02():
- adj_mat = torch.tensor([
- [0, 1, 1, 0], # 3
- [1, 0, 1, 0], # 3
- [1, 1, 0, 1], # 4
- [0, 0, 1, 0] # 2
- # 3 3 4 2
- ])
- expect_denom = np.array([
- [ 3, 3, sqrt(3)*2, sqrt(6) ],
- [ 3, 3, sqrt(3)*2, sqrt(6) ],
- [ sqrt(3)*2, sqrt(3)*2, 4, sqrt(2)*2 ],
- [ sqrt(6), sqrt(6), sqrt(2)*2, 2 ]
- ], dtype=np.float32)
- expect = (adj_mat.detach().cpu().numpy().astype(np.float32) + np.eye(4)) / expect_denom
- # expect = np.array([
- # [1/3, 1/3, 1/3, 0],
- # [1/3, 1/3, 1/3, 0],
- # [1/4, 1/4, 1/4, 1/4],
- # [0, 0, 1/2, 1/2]
- # ], dtype=np.float32)
- res = decagon_pytorch.normalize.norm_adj_mat_one_node_type(adj_mat)
- res = res.todense().astype(np.float32)
- print('res:', res)
- print('expect:', expect)
- assert np.all(res - expect < 0.000001)
-
-
- def test_norm_adj_mat_one_node_type_dense_03():
- # adj_mat = torch.rand((10, 10))
- adj_mat = torch.tensor([
- [0, 1, 1, 0, 0],
- [1, 0, 1, 0, 1],
- [1, 1, 0, .5, .5],
- [0, 0, .5, 0, 1],
- [0, 1, .5, 1, 0]
- ])
- # adj_mat = (adj_mat > .5)
- adj_mat_dec = decagon_pytorch.normalize.norm_adj_mat_one_node_type(adj_mat)
- adj_mat_ico = norm_adj_mat_one_node_type_dense(adj_mat)
- adj_mat_dec = adj_mat_dec.todense()
- adj_mat_ico = adj_mat_ico.detach().cpu().numpy()
- print('adj_mat_dec:', adj_mat_dec)
- print('adj_mat_ico:', adj_mat_ico)
- assert np.all(adj_mat_dec - adj_mat_ico < 0.000001)
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