Peter Kovesi provides various perceptually efficient colour ramps.
7zip download 64bts archive#
the qFaro I/O plugin is not available in the archive version ( you have to use the installer).
7zip download 64bts install#
you may have to manually install the Microsoft Visual C++ Redistributable Package 2017.
try not to decompress files onto a previous version (delete/uninstall it first).
simply decompress the files in their default directory and launch the program with CloudCompare.exe or ccViewer.exe.
we now use 7zip and its 7z format (instead of the more standard zip format) as it is much more efficient.
See the list of all CloudCompare plugins:.
You'll find the extensive documentation here with all the bulding instructions and examples This plugin can be used to run Python scripts via the You can use in C++ plugins) as well as embedding a python interpreter to run scripts. This plugin allows to write Python scripts in CloudCompare, by providing python bindings to the set of CloudCompare’s libraries (that
test 16: compute the octree and extract poins inside neighborhoods (spherical, cylindrical or cubical)ĬloudCompare Python Plugin by Thomas Montaigu.
test 15: triangulate a point cloud and sample points on it.
test 14: export normals to SFs, export some statistics from the resulting SFs.
test 12: apply a rigid transformation to a cloud, fit a plane.
test 11: Delaunay 2.5D triangulation + smooth (see test 14 as well).
test 09: create primitives, apply a transformation, and compute the distances between a cloud and these primitives.
test 08: create primitives (box, cone, sphere, cylinder, etc.) or a quadric.
test 07: load a cloud and a polyine, crope the cloud with the polyline, smooth the polyline, compute its length, etc.
test 06: manually apply a translation to a cloud, or use the Global Shift mechanism at loading time.
test 03: compute cloud curvature, filter points by SF value.
test 02: export coordinates to SF, computes its average and standard deviation, and min and max values.
test 01: load and save a cloud, get the scalar field names, compute the gravity center.