class TestRandom(unittest.TestCase): def setUp(self): self.seed = 1 self.prng = Random() def testLogistic(self): """Testing logistic variates""" self.prng.seed(self.seed) result = self.prng.logisticvariate(0, 1) assert_almost_equal(result, -1.86290986) def testNormal(self): """Testing normal variates""" self.prng.seed(self.seed) result = self.prng.normalvariate(0, 1) assert_almost_equal(result, 0.607455857) def testCauchy(self): """Testing cauchy variates""" self.prng.seed(self.seed) result = self.prng.cauchyvariate(0, 1) assert_almost_equal(result, -2.22660116)
class TestRandom(unittest.TestCase): def setUp(self): self.seed = 1 self.prng = Random() def testLogistic(self): """Testing logistic variates""" self.prng.seed(self.seed) result = self.prng.logisticvariate(0, 1) assert_almost_equal(result, -1.86290986) def testNormal(self): """Testing normal variates""" self.prng.seed(self.seed) result = self.prng.normalvariate(0, 1) assert_almost_equal(result, 0.607455857) def testCauchy(self): """Testing cauchy variates""" self.prng.seed(self.seed) result = self.prng.cauchyvariate(0, 1) assert_almost_equal(result, -2.22660116) def testNCT(self): self.prng.seed(self.seed) result = self.prng.nctvariate(1, 0) assert_almost_equal(result, -2.22660116) self.prng.seed(1) result = self.prng.nctvariate(10, 0.5, 1, 0.5) assert_almost_equal(result, 0.68386525) def testLogisticInvalidParams(self): self.assertRaises(ValueError, self.prng.logisticvariate, 0, -1) def testCauchyInvalidParams(self): self.assertRaises(ValueError, self.prng.cauchyvariate, 0, -1) def testNCTInvalidParams(self): self.assertRaises(ValueError, self.prng.nctvariate, -5, 0) self.assertRaises(ValueError, self.prng.nctvariate, 1, 0, 1, -1) def testLognorm(self): """ Testing lognorm variates """ self.prng.seed(self.seed) result = self.prng.lognormvariate(1.) assert_almost_equal(result, 0.3308813420) def testLognormInvalidParams(self): self.assertRaises(ValueError, self.prng.lognormvariate, -1., 0., 1.) self.assertRaises(ValueError, self.prng.lognormvariate, 1., 0., -1.)
class TestRandom(unittest.TestCase): def setUp(self): self.seed = 1 self.prng = Random(self.seed, stream=0) @unittest.skip("Generator implementation specific") def testLogistic(self): """Testing logistic variates""" self.prng.seed(self.seed) result = self.prng.logisticvariate(0, 1) assert_almost_equal(result, -1.86290986) @unittest.skip("Generator implementation specific") def testNormal(self): """Testing normal variates""" self.prng.seed(self.seed) result = self.prng.normalvariate(0, 1) assert_almost_equal(result, 0.607455857) @unittest.skip("Generator implementation specific") def testCauchy(self): """Testing cauchy variates""" self.prng.seed(self.seed) result = self.prng.cauchyvariate(0, 1) assert_almost_equal(result, -2.22660116) @unittest.skip("Generator implementation specific") def testNCT(self): self.prng.seed(self.seed) result = self.prng.nctvariate(1, 0) assert_almost_equal(result, -2.22660116) self.prng.seed(1) result = self.prng.nctvariate(10, 0.5, 1, 0.5) assert_almost_equal(result, 0.68386525) def testLogisticInvalidParams(self): self.assertRaises(ValueError, self.prng.logisticvariate, 0, -1) # def testCauchyInvalidParams(self): # self.assertRaises(ValueError, self.prng.cauchyvariate, # 0, -1) # # def testNCTInvalidParams(self): # self.assertRaises(ValueError, self.prng.nctvariate, # -5, 0) # self.assertRaises(ValueError, self.prng.nctvariate, # 1, 0, 1, -1) @unittest.skip("Generator implementation specific") def testLognorm(self): """ Testing lognorm variates """ self.prng.seed(self.seed) result = self.prng.lognormvariate(1.) assert_almost_equal(result, 0.3308813420) def testLognormInvalidParams(self): self.assertRaises(ValueError, self.prng.lognormvariate, -1., 0., 1.) self.assertRaises(ValueError, self.prng.lognormvariate, 1., 0., -1.)