import numpy as np from scipy.sparse import issparse from scipy.sparse import coo_matrix from scipy.sparse import csc_matrix from scipy.sparse import csr_matrix from scipy.sparse import dok_matrix from scipy.sparse import lil_matrix from sklearn.utils.multiclass import type_of_target from sklearn.utils.testing import assert_array_equal from sklearn.utils.testing import assert_equal from sklearn.utils.testing import assert_true from sklearn.utils.testing import assert_raises from sklearn.utils.testing import assert_raise_message from sklearn.utils.testing import ignore_warnings from sklearn.preprocessing.label import LabelBinarizer from sklearn.preprocessing.label import MultiLabelBinarizer from sklearn.preprocessing.label import LabelEncoder from sklearn.preprocessing.label import label_binarize from sklearn.preprocessing.label import _inverse_binarize_thresholding from sklearn.preprocessing.label import _inverse_binarize_multiclass from sklearn import datasets iris = datasets.load_iris() def toarray(a): if hasattr(a, "toarray"): a = a.toarray() return a def test_label_binarizer(): # one-class case defaults to negative label # For dense case: inp = ["pos", "pos", "pos", "pos"] lb = LabelBinarizer(sparse_output=False) expected = np.array([[0, 0, 0, 0]]).T got = lb.fit_transform(inp) assert_array_equal(lb.classes_, ["pos"]) assert_array_equal(expected, got) assert_array_equal(lb.inverse_transform(got), inp) # For sparse case: lb = LabelBinarizer(sparse_output=True) got = lb.fit_transform(inp) assert_true(issparse(got)) assert_array_equal(lb.classes_, ["pos"]) assert_array_equal(expected, got.toarray()) assert_array_equal(lb.inverse_transform(got.toarray()), inp) lb = LabelBinarizer(sparse_output=False) # two-class case inp = ["neg", "pos", "pos", "neg"] expected = np.array([[0, 1, 1, 0]]).T got = lb.fit_transform(inp) assert_array_equal(lb.classes_, ["neg", "pos"]) assert_array_equal(expected, got) to_invert = np.array([[1, 0], [0, 1], [0, 1], [1, 0]]) assert_array_equal(lb.inverse_transform(to_invert), inp) # multi-class case inp = ["spam", "ham", "eggs", "ham", "0"] expected = np.array([[0, 0, 0, 1], [0, 0, 1, 0], [0, 1, 0, 0], [0, 0, 1, 0], [1, 0, 0, 0]]) got = lb.fit_transform(inp) assert_array_equal(lb.classes_, ['0', 'eggs', 'ham', 'spam']) assert_array_equal(expected, got) assert_array_equal(lb.inverse_transform(got), inp) def test_label_binarizer_unseen_labels(): lb = LabelBinarizer() expected = np.array([[1, 0, 0], [0, 1, 0], [0, 0, 1]]) got = lb.fit_transform(['b', 'd', 'e']) assert_array_equal(expected, got) expected = np.array([[0, 0, 0], [1, 0, 0], [0, 0, 0], [0, 1, 0], [0, 0, 1], [0, 0, 0]]) got = lb.transform(['a', 'b', 'c', 'd', 'e', 'f']) assert_array_equal(expected, got) def test_label_binarizer_set_label_encoding(): lb = LabelBinarizer(neg_label=-2, pos_label=0) # two-class case with pos_label=0 inp = np.array([0, 1, 1, 0]) expected = np.array([[-2, 0, 0, -2]]).T got = lb.fit_transform(inp) assert_array_equal(expected, got) assert_array_equal(lb.inverse_transform(got), inp) lb = LabelBinarizer(neg_label=-2, pos_label=2) # multi-class case inp = np.array([3, 2, 1, 2, 0]) expected = np.array([[-2, -2, -2, +2], [-2, -2, +2, -2], [-2, +2, -2, -2], [-2, -2, +2, -2], [+2, -2, -2, -2]]) got = lb.fit_transform(inp) assert_array_equal(expected, got) assert_array_equal(lb.inverse_transform(got), inp) @ignore_warnings def test_label_binarizer_errors(): # Check that invalid arguments yield ValueError one_class = np.array([0, 0, 0, 0]) lb = LabelBinarizer().fit(one_class) multi_label = [(2, 3), (0,), (0, 2)] assert_raises(ValueError, lb.transform, multi_label) lb = LabelBinarizer() assert_raises(ValueError, lb.transform, []) assert_raises(ValueError, lb.inverse_transform, []) assert_raises(ValueError, LabelBinarizer, neg_label=2, pos_label=1) assert_raises(ValueError, LabelBinarizer, neg_label=2, pos_label=2) assert_raises(ValueError, LabelBinarizer, neg_label=1, pos_label=2, sparse_output=True) # Fail on y_type assert_raises(ValueError, _inverse_binarize_thresholding, y=csr_matrix([[1, 2], [2, 1]]), output_type="foo", classes=[1, 2], threshold=0) # Sequence of seq type should raise ValueError y_seq_of_seqs = [[], [1, 2], [3], [0, 1, 3], [2]] assert_raises(ValueError, LabelBinarizer().fit_transform, y_seq_of_seqs) # Fail on the number of classes assert_raises(ValueError, _inverse_binarize_thresholding, y=csr_matrix([[1, 2], [2, 1]]), output_type="foo", classes=[1, 2, 3], threshold=0) # Fail on the dimension of 'binary' assert_raises(ValueError, _inverse_binarize_thresholding, y=np.array([[1, 2, 3], [2, 1, 3]]), output_type="binary", classes=[1, 2, 3], threshold=0) # Fail on multioutput data assert_raises(ValueError, LabelBinarizer().fit, np.array([[1, 3], [2, 1]])) assert_raises(ValueError, label_binarize, np.array([[1, 3], [2, 1]]), [1, 2, 3]) def test_label_encoder(): # Test LabelEncoder's transform and inverse_transform methods le = LabelEncoder() le.fit([1, 1, 4, 5, -1, 0]) assert_array_equal(le.classes_, [-1, 0, 1, 4, 5]) assert_array_equal(le.transform([0, 1, 4, 4, 5, -1, -1]), [1, 2, 3, 3, 4, 0, 0]) assert_array_equal(le.inverse_transform([1, 2, 3, 3, 4, 0, 0]), [0, 1, 4, 4, 5, -1, -1]) assert_raises(ValueError, le.transform, [0, 6]) le.fit(["apple", "orange"]) msg = "bad input shape" assert_raise_message(ValueError, msg, le.transform, "apple") def test_label_encoder_fit_transform(): # Test fit_transform le = LabelEncoder() ret = le.fit_transform([1, 1, 4, 5, -1, 0]) assert_array_equal(ret, [2, 2, 3, 4, 0, 1]) le = LabelEncoder() ret = le.fit_transform(["paris", "paris", "tokyo", "amsterdam"]) assert_array_equal(ret, [1, 1, 2, 0]) def test_label_encoder_errors(): # Check that invalid arguments yield ValueError le = LabelEncoder() assert_raises(ValueError, le.transform, []) assert_raises(ValueError, le.inverse_transform, []) # Fail on unseen labels le = LabelEncoder() le.fit([1, 2, 3, 1, -1]) assert_raises(ValueError, le.inverse_transform, [-1]) def test_sparse_output_multilabel_binarizer(): # test input as iterable of iterables inputs = [ lambda: [(2, 3), (1,), (1, 2)], lambda: (set([2, 3]), set([1]), set([1, 2])), lambda: iter([iter((2, 3)), iter((1,)), set([1, 2])]), ] indicator_mat = np.array([[0, 1, 1], [1, 0, 0], [1, 1, 0]]) inverse = inputs[0]() for sparse_output in [True, False]: for inp in inputs: # With fit_tranform mlb = MultiLabelBinarizer(sparse_output=sparse_output) got = mlb.fit_transform(inp()) assert_equal(issparse(got), sparse_output) if sparse_output: got = got.toarray() assert_array_equal(indicator_mat, got) assert_array_equal([1, 2, 3], mlb.classes_) assert_equal(mlb.inverse_transform(got), inverse) # With fit mlb = MultiLabelBinarizer(sparse_output=sparse_output) got = mlb.fit(inp()).transform(inp()) assert_equal(issparse(got), sparse_output) if sparse_output: got = got.toarray() assert_array_equal(indicator_mat, got) assert_array_equal([1, 2, 3], mlb.classes_) assert_equal(mlb.inverse_transform(got), inverse) assert_raises(ValueError, mlb.inverse_transform, csr_matrix(np.array([[0, 1, 1], [2, 0, 0], [1, 1, 0]]))) def test_multilabel_binarizer(): # test input as iterable of iterables inputs = [ lambda: [(2, 3), (1,), (1, 2)], lambda: (set([2, 3]), set([1]), set([1, 2])), lambda: iter([iter((2, 3)), iter((1,)), set([1, 2])]), ] indicator_mat = np.array([[0, 1, 1], [1, 0, 0], [1, 1, 0]]) inverse = inputs[0]() for inp in inputs: # With fit_tranform mlb = MultiLabelBinarizer() got = mlb.fit_transform(inp()) assert_array_equal(indicator_mat, got) assert_array_equal([1, 2, 3], mlb.classes_) assert_equal(mlb.inverse_transform(got), inverse) # With fit mlb = MultiLabelBinarizer() got = mlb.fit(inp()).transform(inp()) assert_array_equal(indicator_mat, got) assert_array_equal([1, 2, 3], mlb.classes_) assert_equal(mlb.inverse_transform(got), inverse) def test_multilabel_binarizer_empty_sample(): mlb = MultiLabelBinarizer() y = [[1, 2], [1], []] Y = np.array([[1, 1], [1, 0], [0, 0]]) assert_array_equal(mlb.fit_transform(y), Y) def test_multilabel_binarizer_unknown_class(): mlb = MultiLabelBinarizer() y = [[1, 2]] assert_raises(KeyError, mlb.fit(y).transform, [[0]]) mlb = MultiLabelBinarizer(classes=[1, 2]) assert_raises(KeyError, mlb.fit_transform, [[0]]) def test_multilabel_binarizer_given_classes(): inp = [(2, 3), (1,), (1, 2)] indicator_mat = np.array([[0, 1, 1], [1, 0, 0], [1, 0, 1]]) # fit_transform() mlb = MultiLabelBinarizer(classes=[1, 3, 2]) assert_array_equal(mlb.fit_transform(inp), indicator_mat) assert_array_equal(mlb.classes_, [1, 3, 2]) # fit().transform() mlb = MultiLabelBinarizer(classes=[1, 3, 2]) assert_array_equal(mlb.fit(inp).transform(inp), indicator_mat) assert_array_equal(mlb.classes_, [1, 3, 2]) # ensure works with extra class mlb = MultiLabelBinarizer(classes=[4, 1, 3, 2]) assert_array_equal(mlb.fit_transform(inp), np.hstack(([[0], [0], [0]], indicator_mat))) assert_array_equal(mlb.classes_, [4, 1, 3, 2]) # ensure fit is no-op as iterable is not consumed inp = iter(inp) mlb = MultiLabelBinarizer(classes=[1, 3, 2]) assert_array_equal(mlb.fit(inp).transform(inp), indicator_mat) def test_multilabel_binarizer_same_length_sequence(): # Ensure sequences of the same length are not interpreted as a 2-d array inp = [[1], [0], [2]] indicator_mat = np.array([[0, 1, 0], [1, 0, 0], [0, 0, 1]]) # fit_transform() mlb = MultiLabelBinarizer() assert_array_equal(mlb.fit_transform(inp), indicator_mat) assert_array_equal(mlb.inverse_transform(indicator_mat), inp) # fit().transform() mlb = MultiLabelBinarizer() assert_array_equal(mlb.fit(inp).transform(inp), indicator_mat) assert_array_equal(mlb.inverse_transform(indicator_mat), inp) def test_multilabel_binarizer_non_integer_labels(): tuple_classes = np.empty(3, dtype=object) tuple_classes[:] = [(1,), (2,), (3,)] inputs = [ ([('2', '3'), ('1',), ('1', '2')], ['1', '2', '3']), ([('b', 'c'), ('a',), ('a', 'b')], ['a', 'b', 'c']), ([((2,), (3,)), ((1,),), ((1,), (2,))], tuple_classes), ] indicator_mat = np.array([[0, 1, 1], [1, 0, 0], [1, 1, 0]]) for inp, classes in inputs: # fit_transform() mlb = MultiLabelBinarizer() assert_array_equal(mlb.fit_transform(inp), indicator_mat) assert_array_equal(mlb.classes_, classes) assert_array_equal(mlb.inverse_transform(indicator_mat), inp) # fit().transform() mlb = MultiLabelBinarizer() assert_array_equal(mlb.fit(inp).transform(inp), indicator_mat) assert_array_equal(mlb.classes_, classes) assert_array_equal(mlb.inverse_transform(indicator_mat), inp) mlb = MultiLabelBinarizer() assert_raises(TypeError, mlb.fit_transform, [({}), ({}, {'a': 'b'})]) def test_multilabel_binarizer_non_unique(): inp = [(1, 1, 1, 0)] indicator_mat = np.array([[1, 1]]) mlb = MultiLabelBinarizer() assert_array_equal(mlb.fit_transform(inp), indicator_mat) def test_multilabel_binarizer_inverse_validation(): inp = [(1, 1, 1, 0)] mlb = MultiLabelBinarizer() mlb.fit_transform(inp) # Not binary assert_raises(ValueError, mlb.inverse_transform, np.array([[1, 3]])) # The following binary cases are fine, however mlb.inverse_transform(np.array([[0, 0]])) mlb.inverse_transform(np.array([[1, 1]])) mlb.inverse_transform(np.array([[1, 0]])) # Wrong shape assert_raises(ValueError, mlb.inverse_transform, np.array([[1]])) assert_raises(ValueError, mlb.inverse_transform, np.array([[1, 1, 1]])) def test_label_binarize_with_class_order(): out = label_binarize([1, 6], classes=[1, 2, 4, 6]) expected = np.array([[1, 0, 0, 0], [0, 0, 0, 1]]) assert_array_equal(out, expected) # Modified class order out = label_binarize([1, 6], classes=[1, 6, 4, 2]) expected = np.array([[1, 0, 0, 0], [0, 1, 0, 0]]) assert_array_equal(out, expected) out = label_binarize([0, 1, 2, 3], classes=[3, 2, 0, 1]) expected = np.array([[0, 0, 1, 0], [0, 0, 0, 1], [0, 1, 0, 0], [1, 0, 0, 0]]) assert_array_equal(out, expected) def check_binarized_results(y, classes, pos_label, neg_label, expected): for sparse_output in [True, False]: if ((pos_label == 0 or neg_label != 0) and sparse_output): assert_raises(ValueError, label_binarize, y, classes, neg_label=neg_label, pos_label=pos_label, sparse_output=sparse_output) continue # check label_binarize binarized = label_binarize(y, classes, neg_label=neg_label, pos_label=pos_label, sparse_output=sparse_output) assert_array_equal(toarray(binarized), expected) assert_equal(issparse(binarized), sparse_output) # check inverse y_type = type_of_target(y) if y_type == "multiclass": inversed = _inverse_binarize_multiclass(binarized, classes=classes) else: inversed = _inverse_binarize_thresholding(binarized, output_type=y_type, classes=classes, threshold=((neg_label + pos_label) / 2.)) assert_array_equal(toarray(inversed), toarray(y)) # Check label binarizer lb = LabelBinarizer(neg_label=neg_label, pos_label=pos_label, sparse_output=sparse_output) binarized = lb.fit_transform(y) assert_array_equal(toarray(binarized), expected) assert_equal(issparse(binarized), sparse_output) inverse_output = lb.inverse_transform(binarized) assert_array_equal(toarray(inverse_output), toarray(y)) assert_equal(issparse(inverse_output), issparse(y)) def test_label_binarize_binary(): y = [0, 1, 0] classes = [0, 1] pos_label = 2 neg_label = -1 expected = np.array([[2, -1], [-1, 2], [2, -1]])[:, 1].reshape((-1, 1)) yield check_binarized_results, y, classes, pos_label, neg_label, expected # Binary case where sparse_output = True will not result in a ValueError y = [0, 1, 0] classes = [0, 1] pos_label = 3 neg_label = 0 expected = np.array([[3, 0], [0, 3], [3, 0]])[:, 1].reshape((-1, 1)) yield check_binarized_results, y, classes, pos_label, neg_label, expected def test_label_binarize_multiclass(): y = [0, 1, 2] classes = [0, 1, 2] pos_label = 2 neg_label = 0 expected = 2 * np.eye(3) yield check_binarized_results, y, classes, pos_label, neg_label, expected assert_raises(ValueError, label_binarize, y, classes, neg_label=-1, pos_label=pos_label, sparse_output=True) def test_label_binarize_multilabel(): y_ind = np.array([[0, 1, 0], [1, 1, 1], [0, 0, 0]]) classes = [0, 1, 2] pos_label = 2 neg_label = 0 expected = pos_label * y_ind y_sparse = [sparse_matrix(y_ind) for sparse_matrix in [coo_matrix, csc_matrix, csr_matrix, dok_matrix, lil_matrix]] for y in [y_ind] + y_sparse: yield (check_binarized_results, y, classes, pos_label, neg_label, expected) assert_raises(ValueError, label_binarize, y, classes, neg_label=-1, pos_label=pos_label, sparse_output=True) def test_invalid_input_label_binarize(): assert_raises(ValueError, label_binarize, [0, 2], classes=[0, 2], pos_label=0, neg_label=1) def test_inverse_binarize_multiclass(): got = _inverse_binarize_multiclass(csr_matrix([[0, 1, 0], [-1, 0, -1], [0, 0, 0]]), np.arange(3)) assert_array_equal(got, np.array([1, 1, 0]))