import GPflow import numpy as np import unittest import tensorflow as tf class SampleGaussianTest(unittest.TestCase): def setUp(self): tf.reset_default_graph() self.f = lambda x: (0.5*np.sum(np.square(x)), x) self.x0 = np.zeros(3) def test_mean_cov(self): samples = GPflow.hmc.sample_HMC(self.f, num_samples=1000, Lmin=10, Lmax=20, epsilon=0.05, x0=self.x0, verbose=False, thin=10, burn=0) mean = samples.mean(0) cov = np.cov(samples.T) self.assertTrue(np.allclose(mean, np.zeros(3), 1e-1, 1e-1)) self.assertTrue(np.allclose(cov, np.eye(3), 1e-1, 1e-1)) def test_rng(self): """ Make sure all randomness can be atributed to the rng """ samples1 = GPflow.hmc.sample_HMC(self.f, num_samples=1000, Lmin=10, Lmax=20, epsilon=0.05, x0=self.x0, verbose=False, thin=10, burn=0, RNG=np.random.RandomState(10)) samples2 = GPflow.hmc.sample_HMC(self.f, num_samples=1000, Lmin=10, Lmax=20, epsilon=0.05, x0=self.x0, verbose=False, thin=10, burn=0, RNG=np.random.RandomState(10)) samples3 = GPflow.hmc.sample_HMC(self.f, num_samples=1000, Lmin=10, Lmax=20, epsilon=0.05, x0=self.x0, verbose=False, thin=10, burn=0, RNG=np.random.RandomState(11)) self.assertTrue(np.all(samples1 == samples2)) self.assertFalse(np.all(samples1 == samples3)) def test_burn(self): samples = GPflow.hmc.sample_HMC(self.f, num_samples=100, Lmin=10, Lmax=20, epsilon=0.05, x0=self.x0, verbose=False, thin=1, burn=10, RNG=np.random.RandomState(11)) self.assertTrue(samples.shape == (100, 3)) self.assertFalse(np.all(samples[0] == self.x0)) def test_return_logprobs(self): s, logps = GPflow.hmc.sample_HMC(self.f, num_samples=100, Lmin=10, Lmax=20, epsilon=0.05, x0=self.x0, verbose=False, thin=1, burn=10, RNG=np.random.RandomState(11), return_logprobs=True) class SampleModelTest(unittest.TestCase): """ Create a very simple model and make sure samples form is make sense. """ def setUp(self): tf.reset_default_graph() rng = np.random.RandomState(0) class Quadratic(GPflow.model.Model): def __init__(self): GPflow.model.Model.__init__(self) self.x = GPflow.param.Param(rng.randn(2)) def build_likelihood(self): return -tf.reduce_sum(tf.square(self.x)) self.m = Quadratic() def test_mean(self): samples = self.m.sample(num_samples=400, Lmin=10, Lmax=20, epsilon=0.05) self.assertTrue(samples.shape == (400, 2)) self.assertTrue(np.allclose(samples.mean(0), np.zeros(2), 1e-1, 1e-1)) def test_return_logprobs(self): s, logps = self.m.sample(num_samples=200, Lmax=20, epsilon=0.05, return_logprobs=True) class SamplesDictTest(unittest.TestCase): def setUp(self): X, Y = np.random.randn(2, 10, 1) self.m = GPflow.gpmc.GPMC(X, Y, kern=GPflow.kernels.Matern32(1), likelihood=GPflow.likelihoods.StudentT()) def test_samples_df(self): samples = self.m.sample(num_samples=20, Lmax=10, epsilon=0.05) sample_df = self.m.get_samples_df(samples) for name, trace in sample_df.iteritems(): self.assertTrue(trace.shape[0] == 20) self.assertTrue(trace.iloc[0].shape == self.m.get_parameter_dict()[name].shape) self.assertTrue(trace.iloc[10].shape == self.m.get_parameter_dict()[name].shape) def test_with_fixed(self): self.m.kern.lengthscales.fixed = True samples = self.m.sample(num_samples=20, Lmax=10, epsilon=0.05) sample_dict = self.m.get_samples_df(samples) ls_trace = sample_dict['model.kern.lengthscales'] assert np.all([np.all(v == ls_trace[0]) for v in ls_trace]) if __name__ == "__main__": unittest.main()