def test_calc_mixing_coeff(self): data = np.random.multivariate_normal([0, 0], [[2, 1], [1, 1]], 3) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) resps = np.array([1, 2, 3]) self.assertEqual(model.calc_mixing_coeff(resps), 2)
def test_set_resps(self): data = np.array([[1, 3], [1, 6]]) mean1 = np.array([1, 5]) C_det1 = 0.75 C_inv1 = np.array([[4, -2], [-2, 4]]) / 3 mean2 = np.array([2, 2]) C_det2 = 1 C_inv2 = np.array([[1, 0], [0, 1]]) mixture = PCAMixture(data, 2, 2) model1 = PCAModel(mixture, 2) model2 = PCAModel(mixture, 2) mixture.models = [model1, model2] model1.mean = mean1 model1.C_det = C_det1 model1.C_inv = C_inv1 model2.mean = mean2 model2.C_det = C_det2 model2.C_inv = C_inv2 mixture.set_resps() resps1 = mixture.resps[0] resps2 = mixture.resps[1] self.assertAlmostEqual(resps1[0], 0.1790458078) self.assertAlmostEqual(resps1[1], 0.99965691) self.assertAlmostEqual(resps2[0], 0.8209541918) self.assertAlmostEqual(resps2[1], 3.43090081e-04)
def test_set_mixing_coefficients(self): data = np.array([[1, 3], [1, 6]]) mean1 = np.array([1, 5]) C_det1 = 0.75 C_inv1 = np.array([[4, -2], [-2, 4]]) / 3 mean2 = np.array([2, 2]) C_det2 = 1 C_inv2 = np.array([[1, 0], [0, 1]]) mixture = PCAMixture(data, 2, 2) model1 = PCAModel(mixture, 2) model2 = PCAModel(mixture, 2) mixture.models = [model1, model2] model1.mean = mean1 model1.C_det = C_det1 model1.C_inv = C_inv1 model2.mean = mean2 model2.C_det = C_det2 model2.C_inv = C_inv2 mixture.set_resps() mixture.set_mixing_coefficients() mixing_coeffs = mixture.mixing_coeffs self.assertAlmostEqual(mixing_coeffs[0], 0.5893513589) self.assertAlmostEqual(mixing_coeffs[1], 0.41064864094)
def test_set_mean(self): data = np.array([[1, 3], [1, 6]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model_resps = np.array([1, 2]) model.set_mean(model_resps) self.assertTrue(np.array_equal(model.mean, np.array([1, 5])))
def test_update_M_inv(self): data = np.array([[1, 3], [1, 6]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model.var = 3 model.W = np.array([[1, 2], [2, 1], [1, 3]]) model.update_M_inv() M_inv = np.array([[17, -7], [-7, 9]]) / 104 res = np.isclose(model.M_inv, M_inv) self.assertTrue(res.all())
def test_set_C_det(self): data = np.array([[1, 3], [1, 6]]) var = 2 W = np.array([[2, 3], [1, 0], [2, 1]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model.var = var model.W = W model.set_C_det() C_det = 136 self.assertAlmostEqual(model.C_det, C_det)
def test_set_W(self): S = np.array([[0, 0], [0, 2]]) M_inv = np.array([[17, -7], [-7, 9]]) / 104 W = np.array([[1, 1], [3, 2]]) data = np.array([[1, 3], [1, 6]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model.var = 3 model.S = S model.M_inv = M_inv model.W = W model.set_W() new_W = model.W #print(new_W) res = np.isclose(new_W, np.array([[0, 0], [104 / 87, 208 / 261]])) self.assertTrue(res.all())
def test_calc_prob_data(self): data = np.array([[1, 3], [1, 6]]) mean = np.array([1, 5]) C_det = 0.75 C_inv = np.array([[4, -2], [-2, 4]]) / 3 mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model.mean = mean model.C_det = C_det model.C_inv = C_inv prob = model.calc_prob_data(data[0]) correct_prob = 0.0127694115 self.assertAlmostEqual(prob, correct_prob)
def test_set_C_inv(self): data = np.array([[1, 3], [1, 6]]) M_inv = np.array([[17, -7], [-7, 9]]) / 104 W = np.array([[0, 0], [104 / 87, 208 / 261]]) var = 1 + 2 / 87 mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model.M_inv = M_inv model.W = W model.var = var model.set_C_inv() C_inv = np.array([[1, 0], [0, 19067 / 22707]]) / var res = np.isclose(model.C_inv, C_inv) self.assertTrue(res.all())
def test_set_var(self): S = np.array([[0, 0], [0, 2]]) data = np.array([[1, 3], [1, 6]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model.S = S W_old = np.array([[1, 1], [3, 2]]) M_inv_old = np.array([[17, -7], [-7, 9]]) / 104 model.W = np.array([[0, 0], [104 / 87, 208 / 261]]) model.set_var(W_old, M_inv_old) self.assertAlmostEqual(model.var, 52 / 87)
def test_set_S(self): data = np.array([[1, 3], [1, 6]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) model_resps = np.array([1, 2]) mixture.resps = [model_resps] model.set_mean(model_resps) mixture.mixing_coeffs = [3 / 2] mixing_coeff = mixture.mixing_coeffs[0] model_resps = mixture.resps[0] model.set_S(mixing_coeff, model_resps) self.assertTrue(np.array_equal(model.S, np.array([[0, 0], [0, 2]])))
def test_calc_resp(self): data = np.random.multivariate_normal([0, 0], [[2, 1], [1, 1]], 2) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) self.assertEqual(model.calc_resp(0.5, 2, 0.5), 0.125)
def test_get_model_resps(self): # Test 1 # ---------------------------------- data = np.array([[1, 3], [1, 6]]) mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) mean = np.array([1, 5]) C_det = 0.75 C_inv = np.array([[4, -2], [-2, 4]]) / 3 mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) mixture.models = [model] model.mean = mean model.C_det = C_det model.C_inv = C_inv resps = mixture.get_model_resps(model) res = np.array_equal(resps, np.array([1, 1])) self.assertTrue(res) # Test 2 # --------------------------------- data = np.array([[1, 3], [1, 6]]) mean1 = np.array([1, 5]) C_det1 = 0.75 C_inv1 = np.array([[4, -2], [-2, 4]]) / 3 mean2 = np.array([2, 2]) C_det2 = 1 C_inv2 = np.array([[1, 0], [0, 1]]) mixture = PCAMixture(data, 2, 2) model1 = PCAModel(mixture, 2) model2 = PCAModel(mixture, 2) mixture.models = [model1, model2] model1.mean = mean1 model1.C_det = C_det1 model1.C_inv = C_inv1 model2.mean = mean2 model2.C_det = C_det2 model2.C_inv = C_inv2 resps1 = mixture.get_model_resps(model1) self.assertAlmostEqual(resps1[0], 0.1790458078) self.assertAlmostEqual(resps1[1], 0.99965691) resps2 = mixture.get_model_resps(model2) self.assertAlmostEqual(resps2[0], 0.8209541918) self.assertAlmostEqual(resps2[1], 3.43090081e-04)
def test_calc_prob_data(self): data = np.array([[1, 3], [1, 6]]) mean = np.array([1, 5]) C_det = 0.75 C_inv = np.array([[4, -2], [-2, 4]]) / 3 mixture = PCAMixture(data, 1, 2) model = PCAModel(mixture, 2) mixture.models = [model] model.mean = mean model.C_det = C_det model.C_inv = C_inv prob = mixture.calc_prob_data(data[0]) real_prob = 0.0127694115 self.assertAlmostEqual(prob, real_prob) data = np.array([[1, 3], [1, 6]]) mean1 = np.array([1, 5]) C_det1 = 0.75 C_inv1 = np.array([[4, -2], [-2, 4]]) / 3 mean2 = np.array([2, 2]) C_det2 = 1 C_inv2 = np.array([[1, 0], [0, 1]]) mixture = PCAMixture(data, 2, 2) model1 = PCAModel(mixture, 2) model2 = PCAModel(mixture, 2) mixture.models = [model1, model2] model1.mean = mean1 model1.C_det = C_det1 model1.C_inv = C_inv1 model2.mean = mean2 model2.C_det = C_det2 model2.C_inv = C_inv2 prob = mixture.calc_prob_data(data[0]) real_prob = 0.0356596215 self.assertAlmostEqual(real_prob, prob)