open3d.geometry.Octree¶
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class
open3d.geometry.
Octree
¶ Octree datastructure.
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class
Type
¶ Enum class for Geometry types.
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HalfEdgeTriangleMesh
= Type.HalfEdgeTriangleMesh¶
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Image
= Type.Image¶
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LineSet
= Type.LineSet¶
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PointCloud
= Type.PointCloud¶
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RGBDImage
= Type.RGBDImage¶
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TetraMesh
= Type.TetraMesh¶
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TriangleMesh
= Type.TriangleMesh¶
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Unspecified
= Type.Unspecified¶
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VoxelGrid
= Type.VoxelGrid¶
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__init__
(*args, **kwargs)¶ Overloaded function.
__init__(self: open3d.geometry.Octree) -> None
Default constructor
__init__(self: open3d.geometry.Octree, arg0: open3d.geometry.Octree) -> None
Copy constructor
__init__(self: open3d.geometry.Octree, max_depth: int) -> None
__init__(self: open3d.geometry.Octree, max_depth: int, origin: numpy.ndarray[float64[3, 1]], size: float) -> None
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clear
(self)¶ Clear all elements in the geometry.
- Returns
open3d.geometry.Geometry
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convert_from_point_cloud
(self, point_cloud, size_expand=0.01)¶ Convert octree from point cloud.
- Parameters
point_cloud (open3d.geometry.PointCloud) – Input point cloud.
size_expand (float, optional, default=0.01) – A small expansion size such that the octree is slightly bigger than the original point cloud bounds to accmondate all points.
- Returns
None
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create_from_voxel_grid
(self)¶ - Returns
None
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dimension
(self)¶ Returns whether the geometry is 2D or 3D.
- Returns
int
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get_axis_aligned_bounding_box
(self)¶ Returns an axis-aligned bounding box of the geometry.
- Returns
open3d.geometry.AxisAlignedBoundingBox
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get_center
(self)¶ Returns the center of the geometry coordinates.
- Returns
numpy.ndarray[float64[3, 1]]
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get_geometry_type
(self)¶ Returns one of registered geometry types.
- Returns
open3d.geometry.Geometry.GeometryType
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get_max_bound
(self)¶ Returns max bounds for geometry coordinates.
- Returns
numpy.ndarray[float64[3, 1]]
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get_min_bound
(self)¶ Returns min bounds for geometry coordinates.
- Returns
numpy.ndarray[float64[3, 1]]
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get_oriented_bounding_box
(self)¶ Returns an oriented bounding box of the geometry.
- Returns
open3d.geometry.OrientedBoundingBox
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static
get_rotation_matrix_from_axis_angle
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_quaternion
(rotation: numpy.ndarray[float64[4, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_xyz
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_xzy
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_yxz
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_yzx
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_zxy
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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static
get_rotation_matrix_from_zyx
(rotation: numpy.ndarray[float64[3, 1]]) → numpy.ndarray[float64[3, 3]]¶
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insert_point
(self, point, f_init, f_update)¶ Insert a point to the octree.
- Parameters
point (numpy.ndarray[float64[3, 1]]) – Coordinates of the point.
f_init (Callable[[], open3d.geometry.OctreeLeafNode]) –
f_update (Callable[[open3d.geometry.OctreeLeafNode], None]) –
- Returns
None
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is_empty
(self)¶ Returns
True
iff the geometry is empty.- Returns
bool
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static
is_point_in_bound
(point, origin, size)¶ Return true if point within bound, that is, origin<= point < origin + size
- Parameters
point (numpy.ndarray[float64[3, 1]]) – Coordinates of the point.
origin (numpy.ndarray[float64[3, 1]]) – Origin coordinates.
size (float) – Size of the Octree.
- Returns
bool
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locate_leaf_node
(self, point)¶ Returns leaf OctreeNode and OctreeNodeInfo where the querypoint should reside.
- Parameters
point (numpy.ndarray[float64[3, 1]]) – Coordinates of the point.
- Returns
Tuple[open3d.geometry.OctreeLeafNode, open3d.geometry.OctreeNodeInfo]
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rotate
(self, R, center=True)¶ Apply rotation to the geometry coordinates and normals.
- Parameters
R (numpy.ndarray[float64[3, 3]]) – The rotation matrix
center (bool, optional, default=True) – If true, then the rotation is applied to the centered geometry
- Returns
open3d.geometry.Geometry3D
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scale
(self, scale, center=True)¶ Apply scaling to the geometry coordinates.
- Parameters
scale (float) – The scale parameter that is multiplied to the points/vertices of the geometry
center (bool, optional, default=True) – If true, then the scale is applied to the centered geometry
- Returns
open3d.geometry.Geometry3D
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to_voxel_grid
(self)¶ Convert to VoxelGrid.
- Returns
open3d.geometry.VoxelGrid
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transform
(self, arg0)¶ Apply transformation (4x4 matrix) to the geometry coordinates.
- Parameters
arg0 (numpy.ndarray[float64[4, 4]]) –
- Returns
open3d.geometry.Geometry3D
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translate
(self, translation, relative=True)¶ Apply translation to the geometry coordinates.
- Parameters
translation (numpy.ndarray[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
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HalfEdgeTriangleMesh
= Type.HalfEdgeTriangleMesh¶
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Image
= Type.Image¶
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LineSet
= Type.LineSet¶
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PointCloud
= Type.PointCloud¶
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RGBDImage
= Type.RGBDImage¶
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TetraMesh
= Type.TetraMesh¶
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TriangleMesh
= Type.TriangleMesh¶
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Unspecified
= Type.Unspecified¶
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VoxelGrid
= Type.VoxelGrid¶
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property
max_depth
¶ Maximum depth of the octree.
- Type
int
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property
origin
¶ Origin coordinate of the octree.
- Type
(3, 1) float numpy array
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property
root_node
¶ The root octree node.
- Type
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property
size
¶ Size of the octree, i.e. the size of the outer bound.
- Type
float
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class