Exemplo n.º 1
0
    def test_curvature(self):
        group = self.matrix_so3
        metric = InvariantMetric(group=group)
        x, y, z = metric.normal_basis(group.lie_algebra.basis)

        result = metric.curvature_at_identity(x, y, x)
        expected = 1.0 / 8 * y
        self.assertAllClose(result, expected)

        tan_a = gs.stack([x, x])
        tan_b = gs.stack([y] * 2)
        result = metric.curvature(tan_a, tan_b, tan_a)
        self.assertAllClose(result, gs.array([expected] * 2))

        point = group.random_uniform()
        translation_map = group.tangent_translation_map(point)
        tan_a = translation_map(x)
        tan_b = translation_map(y)
        result = metric.curvature(tan_a, tan_b, tan_a, point)
        expected = translation_map(expected)
        self.assertAllClose(result, expected)

        result = metric.curvature(y, y, z)
        expected = gs.zeros_like(z)
        self.assertAllClose(result, expected)
Exemplo n.º 2
0
 def test_curvature(self, group, tangent_vec_a, tangent_vec_b,
                    tangent_vec_c, expected):
     metric = InvariantMetric(group)
     result = metric.curvature(tangent_vec_a,
                               tangent_vec_b,
                               tangent_vec_c,
                               base_point=None)
     self.assertAllClose(result, expected)
Exemplo n.º 3
0
 def test_curvature_translation_point(self, group, tangent_vec_a,
                                      tangent_vec_b, tangent_vec_c, point,
                                      expected):
     metric = InvariantMetric(group)
     translation_map = group.tangent_translation_map(point)
     tan_a = translation_map(tangent_vec_a)
     tan_b = translation_map(tangent_vec_b)
     tan_c = translation_map(tangent_vec_c)
     result = metric.curvature(tan_a, tan_b, tan_c, point)
     expected = translation_map(expected)
     self.assertAllClose(result, expected)