75 lines
2.1 KiB
Python
75 lines
2.1 KiB
Python
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# Author: Brian M. Clapper, G. Varoquaux, Lars Buitinck
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# License: BSD
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from numpy.testing import assert_array_equal
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from pytest import raises as assert_raises
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import numpy as np
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from scipy.optimize import linear_sum_assignment
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def test_linear_sum_assignment():
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for cost_matrix, expected_cost in [
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# Square
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([[400, 150, 400],
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[400, 450, 600],
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[300, 225, 300]],
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[150, 400, 300]
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),
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# Rectangular variant
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([[400, 150, 400, 1],
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[400, 450, 600, 2],
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[300, 225, 300, 3]],
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[150, 2, 300]),
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# Square
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([[10, 10, 8],
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[9, 8, 1],
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[9, 7, 4]],
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[10, 1, 7]),
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# Rectangular variant
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([[10, 10, 8, 11],
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[9, 8, 1, 1],
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[9, 7, 4, 10]],
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[10, 1, 4]),
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# n == 2, m == 0 matrix
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([[], []],
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[]),
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]:
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cost_matrix = np.array(cost_matrix)
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row_ind, col_ind = linear_sum_assignment(cost_matrix)
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assert_array_equal(row_ind, np.sort(row_ind))
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assert_array_equal(expected_cost, cost_matrix[row_ind, col_ind])
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cost_matrix = cost_matrix.T
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row_ind, col_ind = linear_sum_assignment(cost_matrix)
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assert_array_equal(row_ind, np.sort(row_ind))
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assert_array_equal(np.sort(expected_cost),
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np.sort(cost_matrix[row_ind, col_ind]))
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def test_linear_sum_assignment_input_validation():
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assert_raises(ValueError, linear_sum_assignment, [1, 2, 3])
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C = [[1, 2, 3], [4, 5, 6]]
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assert_array_equal(linear_sum_assignment(C),
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linear_sum_assignment(np.asarray(C)))
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assert_array_equal(linear_sum_assignment(C),
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linear_sum_assignment(np.matrix(C)))
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I = np.identity(3)
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assert_array_equal(linear_sum_assignment(I.astype(np.bool)),
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linear_sum_assignment(I))
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assert_raises(ValueError, linear_sum_assignment, I.astype(str))
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I[0][0] = np.nan
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assert_raises(ValueError, linear_sum_assignment, I)
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I = np.identity(3)
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I[1][1] = np.inf
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assert_raises(ValueError, linear_sum_assignment, I)
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