Exemple #1
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    def update_points(self):
        """If self.vectors has been modified (either resigned to a new array or
        the array's contents have been altered) then this be called after."""
        vertices = flatten_all_but_last(self.vectors)
        self.temp.append(vertices)

        self.points.SetData(numpy_to_vtk(vertices))
Exemple #2
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    def __init__(self,
                 x,
                 y,
                 z,
                 scalars=None,
                 color=None,
                 opacity=None,
                 texture_map=None,
                 fig="gcf"):
        super().__init__(fig)

        points = nuts_and_bolts.zip_axes(x, y, z)
        flat_points = nuts_and_bolts.flatten_all_but_last(points)

        shape = points.shape[:-1]
        unflatten_map = np.arange(np.prod(shape)).reshape(shape)

        corners = (
            unflatten_map[:-1, :-1],
            unflatten_map[1:, :-1],
            unflatten_map[1:, 1:],
            unflatten_map[:-1, 1:],
        )

        args = np.concatenate([i[..., np.newaxis] for i in corners], axis=-1)

        self.polydata.points = flat_points
        self.polydata.polygons = args
        self.polydata.texture_map = texture_map
        self.colors = scalars

        self.add_to_plot()
        self.color_opacity(color, opacity)
Exemple #3
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def orthogonal_bases(vector0):
    vector0 = np.asarray(vector0)

    old_shape = vector0.shape
    vector0 = nuts_and_bolts.flatten_all_but_last(vector0)
    vector0 = normalised(vector0)
    if not np.isfinite(vector0).all():
        raise ValueError("vector0 must have non zero magnitude")

    to_do_mask = np.ones(vector0.shape[:-1], bool)
    vector1 = np.empty_like(vector0)
    vector2 = np.empty_like(vector0)

    while to_do_mask.any():
        temp = np.random.uniform(-1, 1, 3)

        vector1[to_do_mask] = np.cross(temp, vector0[to_do_mask])
        vector1[to_do_mask] /= distance(vector1)[..., np.newaxis]

        vector2[to_do_mask] = np.cross(vector0[to_do_mask],
                                       vector1[to_do_mask])
        vector2[to_do_mask] /= distance(vector2)[..., np.newaxis]

        to_do_mask &= np.logical_not(np.isfinite(vector2).all(-1))

    return vector0.reshape(old_shape), vector1.reshape(
        old_shape), vector2.reshape(old_shape)
Exemple #4
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    def __init__(self, vertices, color=None, opacity=None, fig="gcf"):
        super().__init__(fig)

        # The implementation of this is actually exactly the same as Lines plot
        # but sets args to polydata.polygons rather than polydata.lines
        shape = vertices.shape[:-1]
        points = _numpy_vtk.contiguous_safe(
            nuts_and_bolts.flatten_all_but_last(vertices))
        self.temp.append(points)

        args = nuts_and_bolts.flatten_all_but_last(
            np.arange(np.prod(shape)).reshape(shape))

        self.polydata.points = points
        self.polydata.polygons = args

        self.add_to_plot()

        self.color_opacity(color, opacity)
Exemple #5
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    def __init__(self, vertices, color=None, opacity=None, line_width=1.0, join_ends=False, fig="gcf"):
        super().__init__(fig)


        shape = vertices.shape[:-1]
        points = _numpy_vtk.contiguous_safe(nuts_and_bolts.flatten_all_but_last(vertices))
        self.temp.append(points)

        args = nuts_and_bolts.flatten_all_but_last(np.arange(np.prod(shape)).reshape(shape))

        self.polydata.points = points
        if join_ends:
            self.polydata.lines = join_line_ends(args)
        else:
            self.polydata.lines = args

#        assert np.array_equal(points[args], vertices)


        self.add_to_plot()

        self.color_opacity(color, opacity)
        self.property.SetLineWidth(line_width)
Exemple #6
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def pack_lengths(itr_of_arrays):
    if not isinstance(itr_of_arrays, (list, np.ndarray)):
        itr_of_arrays = list(itr_of_arrays)
    itr_of_arrays = np.asarray(itr_of_arrays)

    if itr_of_arrays.dtype == object:
        parts = itertools.chain(*[([len(i)], i) for i in itr_of_arrays.flat])
        return np.concatenate(list(parts))

    else:
        from vtkplotlib.nuts_and_bolts import flatten_all_but_last

        itr_of_arrays = flatten_all_but_last(itr_of_arrays)
        n, m = itr_of_arrays.shape
        lengths = np.empty((n, 1), int)
        lengths[:] = m
        return np.concatenate([lengths, itr_of_arrays], axis=1)
Exemple #7
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def _iter_colors(colors, shape):
    """Check if colors is a single value or is to be iterated over. If it is
    single then creates a generator that yields that value repeatedly."""
    size = int(np.prod(shape))

    if colors is None:
        return (None for i in range(size))

    if isinstance(colors, (tuple, list, str)):
        return (colors for i in range(size))

    colors = np.asarray(colors)

    if colors.dtype == object:
        raise ValueError("colors type not understood")

    if colors.shape[:-1] == shape:
        return nuts_and_bolts.flatten_all_but_last(colors)

    else:
        raise ValueError("colors type not understood")
Exemple #8
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 def colors(self, s):
     if s is not None and s.ndim > 2:
         s = nuts_and_bolts.flatten_all_but_last(s)
     self.polydata.point_colors = s
Exemple #9
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def _iter_points(points):
    """Fixes the array shape to (n, 3)."""
    points = np.asarray(points)
    return nuts_and_bolts.flatten_all_but_last(points)