open3d.geometry.LineSet

class open3d.geometry.LineSet

LineSet define a sets of lines in 3D. A typical application is to display the point cloud correspondence pairs.

class Type

Enum class for Geometry types.

HalfEdgeTriangleMesh = <Type.HalfEdgeTriangleMesh: 7>

Image = <Type.Image: 8>

LineSet = <Type.LineSet: 4>

PointCloud = <Type.PointCloud: 1>

RGBDImage = <Type.RGBDImage: 9>

TetraMesh = <Type.TetraMesh: 10>

TriangleMesh = <Type.TriangleMesh: 6>

Unspecified = <Type.Unspecified: 0>

VoxelGrid = <Type.VoxelGrid: 2>

property value

__init__(*args, **kwargs)

Overloaded function.

1. __init__(self: open3d.cpu.pybind.geometry.LineSet) -> None

Default constructor

2. __init__(self: open3d.cpu.pybind.geometry.LineSet, arg0: open3d.cpu.pybind.geometry.LineSet) -> None

Copy constructor

3. __init__(self: open3d.cpu.pybind.geometry.LineSet, points: open3d.cpu.pybind.utility.Vector3dVector, lines: open3d.cpu.pybind.utility.Vector2iVector) -> None

Create a LineSet from given points and line indices

clear(self)

Clear all elements in the geometry.

Returns

open3d.geometry.Geometry

static create_camera_visualization(*args, **kwargs)

Overloaded function.

1. create_camera_visualization(view_width_px: int, view_height_px: int, intrinsic: numpy.ndarray[numpy.float64[3, 3]], extrinsic: numpy.ndarray[numpy.float64[4, 4]], scale: float = 1.0) -> open3d.cpu.pybind.geometry.LineSet

Factory function to create a LineSet from intrinsic and extrinsic camera matrices

2. create_camera_visualization(intrinsic: open3d.cpu.pybind.camera.PinholeCameraIntrinsic, extrinsic: numpy.ndarray[numpy.float64[4, 4]], scale: float = 1.0) -> open3d.cpu.pybind.geometry.LineSet

Factory function to create a LineSet from intrinsic and extrinsic camera matrices

static create_from_axis_aligned_bounding_box(box)

Factory function to create a LineSet from an AxisAlignedBoundingBox.

Parameters

box (open3d.geometry.AxisAlignedBoundingBox) – The input bounding box.

Returns

open3d.geometry.LineSet

static create_from_oriented_bounding_box(box)

Factory function to create a LineSet from an OrientedBoundingBox.

Parameters

box (open3d.geometry.OrientedBoundingBox) – The input bounding box.

Returns

open3d.geometry.LineSet

static create_from_point_cloud_correspondences(cloud0, cloud1, correspondences)

Factory function to create a LineSet from two pointclouds and a correspondence set.

Parameters

• cloud0 (open3d.geometry.PointCloud) – First point cloud.

• cloud1 (open3d.geometry.PointCloud) – Second point cloud.

• correspondences (List[Tuple[int, int]]) – Set of correspondences.

Returns

open3d.geometry.LineSet

static create_from_tetra_mesh(mesh)

Factory function to create a LineSet from edges of a tetra mesh.

Parameters

mesh (open3d.geometry.TetraMesh) – The input tetra mesh.

Returns

open3d.geometry.LineSet

static create_from_triangle_mesh(mesh)

Factory function to create a LineSet from edges of a triangle mesh.

Parameters

mesh (open3d.geometry.TriangleMesh) – The input triangle mesh.

Returns

open3d.geometry.LineSet

dimension(self)

Returns whether the geometry is 2D or 3D.

Returns

int

get_axis_aligned_bounding_box(self)

Returns an axis-aligned bounding box of the geometry.

Returns

open3d.geometry.AxisAlignedBoundingBox

get_center(self)

Returns the center of the geometry coordinates.

Returns

numpy.ndarray[numpy.float64[3, 1]]

get_geometry_type(self)

Returns one of registered geometry types.

Returns

open3d.geometry.Geometry.GeometryType

get_line_coordinate(self, line_index)

Parameters

line_index (int) – Index of the line.

Returns

Tuple[numpy.ndarray[numpy.float64[3, 1]], numpy.ndarray[numpy.float64[3, 1]]]

get_max_bound(self)

Returns max bounds for geometry coordinates.

Returns

numpy.ndarray[numpy.float64[3, 1]]

get_min_bound(self)

Returns min bounds for geometry coordinates.

Returns

numpy.ndarray[numpy.float64[3, 1]]

get_oriented_bounding_box(self: open3d.cpu.pybind.geometry.Geometry3D, robust: bool = False) → open3d::geometry::OrientedBoundingBox

Returns the oriented bounding box for the geometry.

Computes the oriented bounding box based on the PCA of the convex hull. The returned bounding box is an approximation to the minimal bounding box.

Parameters

robust (bool) – If set to true uses a more robust method which works in degenerate cases but introduces noise to the points coordinates.

Returns

The oriented bounding box. The bounding box is oriented such that the axes are ordered with respect to the principal components.

Return type

open3d.geometry.OrientedBoundingBox

static get_rotation_matrix_from_axis_angle(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_quaternion(rotation: numpy.ndarray[numpy.float64[4, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_xyz(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_xzy(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_yxz(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_yzx(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_zxy(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

static get_rotation_matrix_from_zyx(rotation: numpy.ndarray[numpy.float64[3, 1]]) → numpy.ndarray[numpy.float64[3, 3]]

has_colors(self)

Returns True if the object’s lines contain colors.

Returns

bool

has_lines(self)

Returns True if the object contains lines.

Returns

bool

has_points(self)

Returns True if the object contains points.

Returns

bool

is_empty(self)

Returns True iff the geometry is empty.

Returns

bool

paint_uniform_color(self, color)

Assigns each line in the line set the same color.

Parameters

color (numpy.ndarray[numpy.float64[3, 1]]) – Color for the LineSet.

Returns

open3d.geometry.LineSet

rotate(*args, **kwargs)

Overloaded function.

1. rotate(self, R)

   Apply rotation to the geometry coordinates and normals.

Parameters

R (numpy.ndarray[numpy.float64[3, 3]]) – The rotation matrix

Returns

open3d.geometry.Geometry3D

2. rotate(self, R, center)

   Apply rotation to the geometry coordinates and normals.

Parameters

• R (numpy.ndarray[numpy.float64[3, 3]]) – The rotation matrix

• center (numpy.ndarray[numpy.float64[3, 1]]) – Rotation center used for transformation.

Returns

open3d.geometry.Geometry3D

scale(*args, **kwargs)

Overloaded function.

1. scale(self, scale, center)

   Apply scaling to the geometry coordinates.

Parameters

• scale (float) – The scale parameter that is multiplied to the points/vertices of the geometry.

• center (numpy.ndarray[numpy.float64[3, 1]]) – Scale center used for transformation.

Returns

open3d.geometry.Geometry3D

2. scale(self, scale, center)

   Apply scaling to the geometry coordinates.

Parameters

• scale (float) – The scale parameter that is multiplied to the points/vertices of the geometry.

• center (numpy.ndarray[numpy.float64[3, 1]]) – Scale center used for transformation.

Returns

open3d.geometry.Geometry3D

transform(self, arg0)

Apply transformation (4x4 matrix) to the geometry coordinates.

Parameters

arg0 (numpy.ndarray[numpy.float64[4, 4]]) –

Returns

open3d.geometry.Geometry3D

translate(self, translation, relative=True)

Apply translation to the geometry coordinates.

Parameters

• translation (numpy.ndarray[numpy.float64[3, 1]]) – A 3D vector to transform the geometry

• relative (bool, optional, default=True) – If true, the translation vector is directly added to the geometry coordinates. Otherwise, the center is moved to the translation vector.

Returns

open3d.geometry.Geometry3D

HalfEdgeTriangleMesh = <Type.HalfEdgeTriangleMesh: 7>

Image = <Type.Image: 8>

LineSet = <Type.LineSet: 4>

PointCloud = <Type.PointCloud: 1>

RGBDImage = <Type.RGBDImage: 9>

TetraMesh = <Type.TetraMesh: 10>

TriangleMesh = <Type.TriangleMesh: 6>

Unspecified = <Type.Unspecified: 0>

VoxelGrid = <Type.VoxelGrid: 2>

property colors

RGB colors of lines.

Type

float64 array of shape (num_lines, 3), range [0, 1] , use numpy.asarray() to access data

property lines

Lines denoted by the index of points forming the line.

Type

int array of shape (num_lines, 2), use numpy.asarray() to access data

property points

Points coordinates.

Type

float64 array of shape (num_points, 3), use numpy.asarray() to access data