Python VARBase 예제들

예제 #1

파일: test_var.py 프로젝트: cbrnr/scot

 def generate_data(self, cc=((1, 0), (0, 1))):
     var = VAR(2)
     var.coef = np.array([[0.2, 0.1, 0.4, -0.1], [0.3, -0.2, 0.1, 0]])
     l = (1000, 100)
     x = var.simulate(l, lambda: np.random.randn(2).dot(cc))
     self.assertEqual(x.shape, (l[1], 2, l[0]))
     return x, var

예제 #2

파일: test_plotting.py 프로젝트: tntroger/scot

    def test_whiteness(self):
        np.random.seed(91)

        var = VARBase(0)
        var.residuals = np.random.randn(10, 5, 100)

        pr = sp.plot_whiteness(var, 20, repeats=100)

        self.assertGreater(pr, 0.05)

예제 #3

파일: test_plotting.py 프로젝트: cbrnr/scot

    def test_whiteness(self):
        np.random.seed(91)

        var = VARBase(0)
        var.residuals = np.random.randn(10, 5, 100)

        pr = sp.plot_whiteness(var, 20, repeats=100)

        self.assertGreater(pr, 0.05)

예제 #4

파일: test_var.py 프로젝트: cbrnr/scot

    def test_stable(self):
        var = VAR(1)

        # Stable AR model -- rule of thumb: sum(coefs) < 1
        var.coef = np.asarray([[0.5, 0.3]])
        self.assertTrue(var.is_stable())

        # Unstable AR model -- rule of thumb: sum(coefs) > 1
        var.coef = np.asarray([[0.5, 0.7]])
        self.assertFalse(var.is_stable())

예제 #5

파일: test_var.py 프로젝트: bjura/scot

    def test_yulewalker(self):
        np.random.seed(7353)
        x, var0 = self.generate_data([[1, 2], [3, 4]])

        acms = [acm(x, l) for l in range(var0.p+1)]

        var = VAR(var0.p)
        var.from_yw(acms)

        # that limit is rather generous, but we don't want tests to fail due to random variation
        self.assertTrue(np.all(np.abs(var0.coef - var.coef) < 0.02))
        self.assertTrue(np.all(np.abs(var0.rescov - var.rescov) < 0.02))

예제 #6

    def test_yulewalker(self):
        np.random.seed(7353)
        x, var0 = self.generate_data([[1, 2], [3, 4]])

        acms = [acm(x, l) for l in range(var0.p + 1)]

        var = VAR(var0.p)
        var.from_yw(acms)

        # that limit is rather generous, but we don't want tests to fail due to random variation
        self.assertTrue(np.all(np.abs(var0.coef - var.coef) < 0.02))
        self.assertTrue(np.all(np.abs(var0.rescov - var.rescov) < 0.02))

예제 #7

파일: test_var.py 프로젝트: cbrnr/scot

    def test_whiteness(self):
        np.random.seed(91)
        r = np.random.randn(80, 15, 100)     # gaussian white noise
        r0 = r.copy()

        var = VAR(0, n_jobs=-1)
        var.residuals = r

        p = var.test_whiteness(20, random_state=1)

        self.assertTrue(np.all(r == r0))    # make sure we don't modify the input
        self.assertGreater(p, 0.01)         # test should be non-significant for white noise

        r[:, 1, 3:] = r[:, 0, :-3]          # create cross-correlation at lag 3
        p = var.test_whiteness(20)
        self.assertLessEqual(p, 0.01)       # now test should be significant

예제 #8

파일: test_var.py 프로젝트: bjura/scot

    def test_simulate(self):
        noisefunc = lambda: [1, 1]   # use deterministic function instead of noise
        num_samples = 100

        b = np.array([[0.2, 0.1, 0.4, -0.1], [0.3, -0.2, 0.1, 0]])

        var = VAR(2)
        var.coef = b

        np.random.seed(42)
        x = var.simulate(num_samples, noisefunc)

        # make sure we got expected values within reasonable accuracy
        for n in range(10, num_samples):
            self.assertTrue(np.all(
                np.abs(x[n, :] - 1 - np.dot(b[:, 0::2], x[n - 1, :]) - np.dot(b[:, 1::2], x[n - 2, :])) < 1e-10))

예제 #9

    def test_whiteness(self):
        np.random.seed(91)
        r = np.random.randn(100, 5, 10)  # gaussian white noise
        r0 = r.copy()

        var = VAR(0)
        var.residuals = r

        p = var.test_whiteness(20)

        self.assertTrue(np.all(r == r0))  # make sure we don't modify the input
        self.assertGreater(
            p, 0.01)  # test should be non-significant for white noise

        r[3:, 1, :] = r[:-3, 0, :]  # create cross-correlation at lag 3
        p = var.test_whiteness(20)
        self.assertLessEqual(p, 0.01)  # now test should be significant

예제 #10

    def test_simulate(self):
        noisefunc = lambda: [1, 1
                             ]  # use deterministic function instead of noise
        num_samples = 100

        b = np.array([[0.2, 0.1, 0.4, -0.1], [0.3, -0.2, 0.1, 0]])

        var = VAR(2)
        var.coef = b

        np.random.seed(42)
        x = var.simulate(num_samples, noisefunc)

        # make sure we got expected values within reasonable accuracy
        for n in range(10, num_samples):
            self.assertTrue(
                np.all(
                    np.abs(x[n, :] - 1 - np.dot(b[:, 0::2], x[n - 1, :]) -
                           np.dot(b[:, 1::2], x[n - 2, :])) < 1e-10))

예제 #11

 def generate_data(self, cc=((1, 0), (0, 1))):
     var = VAR(2)
     var.coef = np.array([[0.2, 0.1, 0.4, -0.1], [0.3, -0.2, 0.1, 0]])
     l = (1000, 100)
     x = var.simulate(l, lambda: np.random.randn(2).dot(cc))
     return x, var