def test_string_repr(self): # we don't test LMNN here because it could be python_LMNN self.assertEqual(str(metric_learn.Covariance()), "Covariance()") self.assertEqual(str(metric_learn.NCA()), "NCA(learning_rate=0.01, max_iter=100, num_dims=None)") self.assertEqual(str(metric_learn.LFDA()), "LFDA(dim=None, k=7, metric='weighted')") self.assertEqual(str(metric_learn.ITML()), """ ITML(convergence_threshold=0.001, gamma=1.0, max_iters=1000, verbose=False) """.strip('\n')) self.assertEqual(str(metric_learn.ITML_Supervised()), """ ITML_Supervised(A0=None, bounds=None, convergence_threshold=0.001, gamma=1.0, max_iters=1000, num_constraints=None, num_labeled=inf, verbose=False) """.strip('\n')) self.assertEqual(str(metric_learn.LSML()), "LSML(max_iter=1000, tol=0.001, verbose=False)") self.assertEqual(str(metric_learn.LSML_Supervised()), """ LSML_Supervised(max_iter=1000, num_constraints=None, num_labeled=inf, prior=None, tol=0.001, verbose=False, weights=None) """.strip('\n')) self.assertEqual(str(metric_learn.SDML()), """ SDML(balance_param=0.5, sparsity_param=0.01, use_cov=True, verbose=False) """.strip('\n')) self.assertEqual(str(metric_learn.SDML_Supervised()), """ SDML_Supervised(balance_param=0.5, num_constraints=None, num_labeled=inf, sparsity_param=0.01, use_cov=True, verbose=False) """.strip('\n')) self.assertEqual(str(metric_learn.RCA()), "RCA(dim=None)") self.assertEqual(str(metric_learn.RCA_Supervised()), "RCA_Supervised(chunk_size=2, dim=None, num_chunks=100)") self.assertEqual(str(metric_learn.MLKR()), """ MLKR(A0=None, alpha=0.0001, epsilon=0.01, max_iter=1000, num_dims=None) """.strip('\n'))
def test_covariance(self): self.assertEqual(str(metric_learn.Covariance()), "Covariance(preprocessor=None)")
def test_covariance(self): self.assertEqual(str(metric_learn.Covariance()), "Covariance()")
def test_covariance(self): self.assertEqual(remove_spaces(str(metric_learn.Covariance())), remove_spaces("Covariance(preprocessor=None)"))
def test_covariance(self): def_kwargs = {'preprocessor': None} nndef_kwargs = {} merged_kwargs = sk_repr_kwargs(def_kwargs, nndef_kwargs) self.assertEqual(remove_spaces(str(metric_learn.Covariance())), remove_spaces(f"Covariance({merged_kwargs})"))
import numpy as np from sklearn.datasets import load_iris import metric_learn CLASSES = { 'Covariance': metric_learn.Covariance(), 'ITML_Supervised': metric_learn.ITML_Supervised(num_constraints=200), 'LFDA': metric_learn.LFDA(k=2, dim=2), 'LMNN': metric_learn.LMNN(k=5, learn_rate=1e-6, verbose=False), 'LSML_Supervised': metric_learn.LSML_Supervised(num_constraints=200), 'MLKR': metric_learn.MLKR(), 'NCA': metric_learn.NCA(max_iter=700, n_components=2), 'RCA_Supervised': metric_learn.RCA_Supervised(dim=2, num_chunks=30, chunk_size=2), 'SDML_Supervised': metric_learn.SDML_Supervised(num_constraints=1500) } class IrisDataset(object): params = [sorted(CLASSES)] param_names = ['alg']