vedo 2021.0.7-1 source package in Ubuntu
Changelog
vedo (2021.0.7-1) unstable; urgency=medium * New upstream release. - Build-Depends: python3-deprecated (provides decorators for deprecated functions, doesn't mean vedo is deprecated!) - versioned Build-Depends python3-vtk9 (<< 9.1.0) Mark as (<< 9.1.1) since python3-vtk9 versioning is corrupted. * Standards-Version: 4.6.0 -- Drew Parsons <email address hidden> Sat, 04 Dec 2021 13:33:18 +0100
Upload details
- Uploaded by:
- Debian Science Team
- Uploaded to:
- Sid
- Original maintainer:
- Debian Science Team
- Architectures:
- all
- Section:
- misc
- Urgency:
- Medium Urgency
See full publishing history Publishing
Series | Published | Component | Section | |
---|---|---|---|---|
Jammy | release | universe | misc |
Downloads
File | Size | SHA-256 Checksum |
---|---|---|
vedo_2021.0.7-1.dsc | 2.1 KiB | 6afb2daa26a30433f51cb9996646c8829729a85bcb752372051465677444ac86 |
vedo_2021.0.7.orig.tar.gz | 10.9 MiB | ff704cd7bfb59f3e88e8aa948bdfbc0fb627b79f190503193260f2cb803b5219 |
vedo_2021.0.7-1.debian.tar.xz | 12.0 KiB | dc54be7580ab433e16d127115d8ea688baa5f6d2cf0a5ed090641228d7e4248f |
Available diffs
- diff from 2021.0.3-1 to 2021.0.7-1 (183.8 KiB)
No changes file available.
Binary packages built by this source
- python3-vedo: python module for 3D scientific visualization with VTK
A python module for scientific visualization, analysis and animation
of 3D objects and point clouds based on VTK and numpy.
.
Intuitive and straightforward API which can be combined with VTK
seamlessly in a program, whilst maintaining access to the full range
of VTK native classes.
.
It includes a large set of working examples for the all following
functionalities:
.
* Import meshes from VTK format, STL, Wavefront OBJ, 3DS, XML,
Neutral, GMSH, OFF, PCD (PointCloud), volumetric TIFF stacks, SLC,
MHD, 2D images PNG, JPEG.
* Export meshes as ASCII or binary to VTK, STL, OBJ, PLY formats.
* Mesh analysis through the built-in methods of VTK package.
Additional analysis tools like Moving Least Squares, mesh
morphing.
* Tools to visualize and edit meshes (cutting a mesh with another
mesh, slicing, normalizing, moving vertex positions, etc..).
Interactive cutter widget.
* Split mesh based on surface connectivity. Extract the largest
connected area.
* Calculate mass properties, like area, volume, center of mass,
average size etc.
* Calculate vertex and face normals, curvatures, feature edges.
Fill mesh holes.
* Subdivide faces of a mesh, increasing the number of vertex
points. Mesh simplification.
* Coloring and thresholding of meshes based on associated scalar
or vectorial data.
* Point-surface operations: find nearest points, determine if a
point lies inside or outside a mesh.
* Create primitive objects like: spheres, arrows, cubes, torus,
ellipsoids. ..
* Generate glyphs (associating a mesh to each vertex of a source
mesh).
* Create animations easily by just defining the position of the
displayed objects in the 3D scene. Add trailing lines to moving
objects automatically.
* Straightforward support for multiple sync-ed or independent
renderers in the same window.
* Registration (alignment) of meshes with different techniques.
* Mesh smoothing with Laplacian and WindowedSinc algorithms.
* Delaunay triangulation in 2D and 3D.
* Generate meshes by joining nearby lines in space.
* Find the closest path from one point to another, travelling
along the edges of a mesh.
* Find the intersection of a mesh with a line (or with another
mesh).
* Analysis of Point Clouds:
- Moving Least Squares smoothing of 2D, 3D and 4D clouds
- Fit lines, planes and spheres in space
- Perform PCA (Principal Component Analysis) on point
coordinates
- Identify outliers in a distribution of points
- Decimate a cloud to a uniform distribution.
* Basic histogramming and function plotting in 1D and 2D.
* Interpolate scalar and vectorial fields with Radial Basis
Functions and Thin Plate Splines.
* Analysis of volumetric datasets:
- Isosurfacing of volumes
- Direct maximum projection rendering
- Generate volumetric signed-distance data from an input
surface mesh
- Probe a volume with lines and planes.
* Add sliders and buttons to interact with the scene and the
individual objects.
* Examples using SHTools package for spherical harmonics
expansion of a mesh shape.
* Integration with the Qt5 framework.
* Support for FEniCS/dolfin package.
.
vedo is published in M. Musy et al. "vedo, a python
module for scientific visualization and analysis of 3D objects and
point clouds based on VTK (Visualization Toolkit)", Zenodo, 10
February 2019, doi:10.5281/zenodo. 2561401.
Formerly known as vtkplotter.
.
This package installs the library for Python 3.
It also include vedo and vtkconvert executables.
- python3-vedo-examples: No summary available for python3-vedo-examples in ubuntu kinetic.
No description available for python3-
vedo-examples in ubuntu kinetic.