Exemplo n.º 1
0
    def test_point(self):
        """Single data point
        """
        for kind in ('linear', 'spline'):
            interp_1d = RegularInterpolator(x=(1.,), y=(2.,), kind=kind)
            self.assertEqual(interp_1d(1), 2)
            self.assertEqual(RegularInterpolator.eval(x=1, xp=(1.,), yp=(2.,), kind=kind), 2)

            self.assertEqual(interp_1d(5), 2)  # value outside domain
            self.assertEqual(RegularInterpolator.eval(x=5, xp=(1.,), yp=(2.,), kind=kind), 2)

            assert_allclose(interp_1d(x=(1, 1, 1)), (2, 2, 2))
            assert_allclose(interp_1d(x=(0, 1, 2)), (2, 2, 2))  # some values outside domain
            assert_allclose(interp_1d(np.array((1, 1, 1))), (2, 2, 2))  # numpy array
            assert_allclose(interp_1d(()), ())  # empty table

            interp_2d = RegularInterpolator(x=(1.,), y=(2.,), z=(3.,), kind=kind)
            self.assertEqual(interp_2d(1, 2), 3)
            self.assertEqual(interp_2d(5, 0), 3)  # value outside domain
            assert_allclose(interp_2d((1, 1, 1), (2, 2, 2)), (3, 3, 3))
            test_y = RegularInterpolator.eval(x=(1, 1, 1), y=(2, 2, 2), xp=(1.,), yp=(2.,), zp=(3.,), kind=kind)
            assert_allclose(test_y, (3, 3, 3))
            assert_allclose(interp_2d((0, 1, 2), (0, 1, 2)), (3, 3, 3))  # some values outside domain
            assert_allclose(interp_2d(np.array((1, 1, 1)), np.array((2, 2, 2))), (3, 3, 3))  # numpy array
            assert_allclose(interp_2d((), ()), ())  # empty table
Exemplo n.º 2
0
    def test_point(self):
        """Single data point
        """
        for kind in ('linear', 'spline'):
            interp_1d = RegularInterpolator(x=(1., ), y=(2., ), kind=kind)
            self.assertEqual(interp_1d(1), 2)
            self.assertEqual(
                RegularInterpolator.eval(x=1, xp=(1., ), yp=(2., ), kind=kind),
                2)

            self.assertEqual(interp_1d(5), 2)  # value outside domain
            self.assertEqual(
                RegularInterpolator.eval(x=5, xp=(1., ), yp=(2., ), kind=kind),
                2)

            assert_allclose(interp_1d(x=(1, 1, 1)), (2, 2, 2))
            assert_allclose(interp_1d(x=(0, 1, 2)),
                            (2, 2, 2))  # some values outside domain
            assert_allclose(interp_1d(np.array((1, 1, 1))),
                            (2, 2, 2))  # numpy array
            assert_allclose(interp_1d(()), ())  # empty table

            interp_2d = RegularInterpolator(x=(1., ),
                                            y=(2., ),
                                            z=(3., ),
                                            kind=kind)
            self.assertEqual(interp_2d(1, 2), 3)
            self.assertEqual(interp_2d(5, 0), 3)  # value outside domain
            assert_allclose(interp_2d((1, 1, 1), (2, 2, 2)), (3, 3, 3))
            test_y = RegularInterpolator.eval(x=(1, 1, 1),
                                              y=(2, 2, 2),
                                              xp=(1., ),
                                              yp=(2., ),
                                              zp=(3., ),
                                              kind=kind)
            assert_allclose(test_y, (3, 3, 3))
            assert_allclose(interp_2d((0, 1, 2), (0, 1, 2)),
                            (3, 3, 3))  # some values outside domain
            assert_allclose(interp_2d(np.array((1, 1, 1)), np.array(
                (2, 2, 2))), (3, 3, 3))  # numpy array
            assert_allclose(interp_2d((), ()), ())  # empty table
Exemplo n.º 3
0
    def test_2d_2xnel(self):
        """
        Should partially fallback to linear interpolation
        """
        for kind in ('linear', 'spline'):
            interp_2d = RegularInterpolator(x=(1., 3., 10.),
                                            y=(-2.0, 2.0),
                                            z=((2, 2), (3, 3), (4, 4)),
                                            kind=kind)
            assert_allclose(interp_2d(1, -2), 2)
            assert_allclose(interp_2d(1, 0), 2)
            assert_allclose(interp_2d(1, 2), 2)

            assert_allclose(interp_2d(3, -2), 3)
            assert_allclose(interp_2d(3, 0), 3)
            assert_allclose(interp_2d(3, 2), 3)
            assert_allclose(interp_2d(x=(3, 3, 3), y=(-2, 0, 2)), (3, 3, 3))

            assert_allclose(interp_2d(2, -2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 0), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 2), 2.5, atol=0.1)
            assert_allclose(RegularInterpolator.eval(x=2,
                                                     y=2,
                                                     xp=(1., 3., 10.),
                                                     yp=(-2.0, 2.0),
                                                     zp=((2, 2), (3, 3), (4,
                                                                          4)),
                                                     kind=kind),
                            2.5,
                            atol=0.1)

            interp_2d = RegularInterpolator(x=(1., 3.),
                                            y=(-2.0, 2.0, 10.0),
                                            z=((2, 2, 2), (3, 3, 3)),
                                            kind=kind)
            assert_allclose(interp_2d(1, -2), 2)
            assert_allclose(interp_2d(1, 0), 2)
            assert_allclose(interp_2d(1, 2), 2)
            assert_allclose(interp_2d(1, 10), 2)

            assert_allclose(interp_2d(3, -2), 3)
            assert_allclose(interp_2d(3, 0), 3)
            assert_allclose(interp_2d(3, 2), 3)
            assert_allclose(interp_2d(3, 10), 3)

            assert_allclose(interp_2d(2, -2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 0), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 10), 2.5, atol=0.1)
Exemplo n.º 4
0
    def test_2d_nxnel():
        for kind in ('linear', 'spline'):
            interp_2d = RegularInterpolator(x=(1., 3., 10.),
                                            y=(-2.0, 0.0, 2.0),
                                            z=((2, 2, 2), (3, 3, 3), (4, 4,
                                                                      4)),
                                            kind=kind)

            assert_allclose(interp_2d(1, -2), 2)
            assert_allclose(interp_2d(1, 0), 2)
            assert_allclose(interp_2d(1, 2), 2)

            assert_allclose(interp_2d(3, -2), 3)
            assert_allclose(interp_2d(3, 0), 3)
            assert_allclose(interp_2d(3, 2), 3)
            assert_allclose(interp_2d(x=(3, 3, 3), y=(-2, 0, 2)), (3, 3, 3))

            assert_allclose(interp_2d(2, -2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 0), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 2), 2.5, atol=0.1)
            assert_allclose(RegularInterpolator.eval(x=2,
                                                     y=2,
                                                     xp=(1., 3., 10.),
                                                     yp=(-2.0, 2.0),
                                                     zp=((2, 2), (3, 3), (4,
                                                                          4)),
                                                     kind=kind),
                            2.5,
                            atol=0.1)

            interp_2d = RegularInterpolator(x=(1., 3.),
                                            y=(-2.0, 2.0, 10.0),
                                            z=((2, 2, 2), (3, 3, 3)),
                                            kind=kind)
            assert_allclose(interp_2d(1, -2), 2)
            assert_allclose(interp_2d(1, 0), 2)
            assert_allclose(interp_2d(1, 2), 2)
            assert_allclose(interp_2d(1, 10), 2)

            assert_allclose(interp_2d(3, -2), 3)
            assert_allclose(interp_2d(3, 0), 3)
            assert_allclose(interp_2d(3, 2), 3)
            assert_allclose(interp_2d(3, 10), 3)

            assert_allclose(interp_2d(2, -2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 0), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 10), 2.5, atol=0.1)
Exemplo n.º 5
0
    def test_2d_nxnel(self):
        for kind in ('linear', 'spline'):
            interp_2d = RegularInterpolator(x=(1., 3., 10.),
                                            y=(-2.0, 0.0, 2.0),
                                            z=((2, 2, 2), (3, 3, 3), (4, 4, 4)),
                                            kind=kind)

            assert_allclose(interp_2d(1, -2), 2)
            assert_allclose(interp_2d(1, 0), 2)
            assert_allclose(interp_2d(1, 2), 2)

            assert_allclose(interp_2d(3, -2), 3)
            assert_allclose(interp_2d(3, 0), 3)
            assert_allclose(interp_2d(3, 2), 3)
            assert_allclose(interp_2d(x=(3, 3, 3), y=(-2, 0, 2)), (3, 3, 3))

            assert_allclose(interp_2d(2, -2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 0), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 2), 2.5, atol=0.1)
            assert_allclose(RegularInterpolator.eval(x=2,
                                                     y=2,
                                                     xp=(1., 3., 10.),
                                                     yp=(-2.0, 2.0),
                                                     zp=((2, 2), (3, 3), (4, 4)),
                                                     kind=kind),
                            2.5,
                            atol=0.1)

            interp_2d = RegularInterpolator(x=(1., 3.), y=(-2.0, 2.0, 10.0), z=((2, 2, 2), (3, 3, 3)), kind=kind)
            assert_allclose(interp_2d(1, -2), 2)
            assert_allclose(interp_2d(1, 0), 2)
            assert_allclose(interp_2d(1, 2), 2)
            assert_allclose(interp_2d(1, 10), 2)

            assert_allclose(interp_2d(3, -2), 3)
            assert_allclose(interp_2d(3, 0), 3)
            assert_allclose(interp_2d(3, 2), 3)
            assert_allclose(interp_2d(3, 10), 3)

            assert_allclose(interp_2d(2, -2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 0), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 2), 2.5, atol=0.1)
            assert_allclose(interp_2d(2, 10), 2.5, atol=0.1)