Example #1
0
    def test_frozen(self):
        # Test that the frozen and non-frozen Wishart gives the same answers

        # Construct an arbitrary positive definite scale matrix
        dim = 4
        scale = np.diag(np.arange(dim)+1)
        scale[np.tril_indices(dim, k=-1)] = np.arange(dim * (dim-1) // 2)
        scale = np.dot(scale.T, scale)

        # Construct a collection of positive definite matrices to test the PDF
        X = []
        for i in range(5):
            x = np.diag(np.arange(dim)+(i+1)**2)
            x[np.tril_indices(dim, k=-1)] = np.arange(dim * (dim-1) // 2)
            x = np.dot(x.T, x)
            X.append(x)
        X = np.array(X).T

        # Construct a 1D and 2D set of parameters
        parameters = [
            (10, 1, np.linspace(0.1, 10, 5)),  # 1D case
            (10, scale, X)
        ]

        for (df, scale, x) in parameters:
            w = wishart(df, scale)
            assert_equal(w.var(), wishart.var(df, scale))
            assert_equal(w.mean(), wishart.mean(df, scale))
            assert_equal(w.mode(), wishart.mode(df, scale))
            assert_equal(w.entropy(), wishart.entropy(df, scale))
            assert_equal(w.pdf(x), wishart.pdf(x, df, scale))
Example #2
0
    def test_frozen(self):
        # Test that the frozen and non-frozen Wishart gives the same answers

        # Construct an arbitrary positive definite scale matrix
        dim = 4
        scale = np.diag(np.arange(dim) + 1)
        scale[np.tril_indices(dim, k=-1)] = np.arange(dim * (dim - 1) // 2)
        scale = np.dot(scale.T, scale)

        # Construct a collection of positive definite matrices to test the PDF
        X = []
        for i in range(5):
            x = np.diag(np.arange(dim) + (i + 1)**2)
            x[np.tril_indices(dim, k=-1)] = np.arange(dim * (dim - 1) // 2)
            x = np.dot(x.T, x)
            X.append(x)
        X = np.array(X).T

        # Construct a 1D and 2D set of parameters
        parameters = [
            (10, 1, np.linspace(0.1, 10, 5)),  # 1D case
            (10, scale, X)
        ]

        for (df, scale, x) in parameters:
            w = wishart(df, scale)
            assert_equal(w.var(), wishart.var(df, scale))
            assert_equal(w.mean(), wishart.mean(df, scale))
            assert_equal(w.mode(), wishart.mode(df, scale))
            assert_equal(w.entropy(), wishart.entropy(df, scale))
            assert_equal(w.pdf(x), wishart.pdf(x, df, scale))