def test_reverse_log_sampling_random_state(): f = hp_module.Float('f', 1e-3, 1e3, sampling='reverse_log') rand_sample = f.random_sample() assert rand_sample >= f.min_value assert rand_sample <= f.max_value val = 1e-3 prob = hp_module.value_to_cumulative_prob(val, f) assert prob == 0 new_val = hp_module.cumulative_prob_to_value(prob, f) assert np.isclose(val, new_val) val = 1 prob = hp_module.value_to_cumulative_prob(val, f) assert prob > 0 and prob < 1 new_val = hp_module.cumulative_prob_to_value(prob, f) assert np.isclose(val, new_val)
def test_log_sampling_random_state(): f = hp_module.Float("f", 1e-3, 1e3, sampling="log") rand_sample = f.random_sample() assert rand_sample >= f.min_value assert rand_sample <= f.max_value val = 1e-3 prob = hp_module.value_to_cumulative_prob(val, f) assert prob == 0 new_val = hp_module.cumulative_prob_to_value(prob, f) assert np.isclose(val, new_val) val = 1 prob = hp_module.value_to_cumulative_prob(val, f) assert prob == 0.5 new_val = hp_module.cumulative_prob_to_value(prob, f) assert np.isclose(val, new_val) val = 1e3 prob = hp_module.value_to_cumulative_prob(val, f) assert prob == 1 new_val = hp_module.cumulative_prob_to_value(prob, f) assert np.isclose(val, new_val)