Key | Value |
---|---|
FileName | ./usr/lib/python3/dist-packages/pygalmesh/_cli/_remesh_surface.py |
FileSize | 2828 |
MD5 | 8B93D73FAD39CEB8104A3F198A689429 |
SHA-1 | 3E329BD3C337BF592414C72E7EC6522213C1A187 |
SHA-256 | 0CBE4E025A11C00DDE3D8C7B88458DB5D800FF96EA7222076EA388DA6568117C |
SSDEEP | 48:qdnNdz/fOPAPahPNscAkTGc+X7XbcJmfA/6L/:qdnNu1PfziL/ |
TLSH | T17851BB006502845E7AF746A95CEF7E428320688B1EC1BD4C76DFE7443F4D82F84B6A9D |
hashlookup:parent-total | 2 |
hashlookup:trust | 60 |
The searched file hash is included in 2 parent files which include package known and seen by metalookup. A sample is included below:
Key | Value |
---|---|
FileSize | 1206528 |
MD5 | E9F27B806C58B025F3FB384B2CEAE249 |
PackageDescription | Python 3 frontend to CGAL's 3D mesh generators pygalmesh makes it easy to create high-quality 3D volume and surface meshes. . CGAL offers two different approaches for mesh generation: - Meshes defined implicitly by level sets of functions. - Meshes defined by a set of bounding planes. . pygalmesh provides a front-end to the first approach, which has the following advantages and disadvantages: - All boundary points are guaranteed to be in the level set within any specified residual. This results in smooth curved surfaces. - Sharp intersections of subdomains (e.g., in unions or differences of sets) need to be specified manually (via feature edges, see below), which can be tedious. . On the other hand, the bounding-plane approach (realized by mshr), has the following properties: - Smooth, curved domains are approximated by a set of bounding planes, resulting in more of less visible edges. - Intersections of domains can be computed automatically, so domain unions etc. have sharp edges where they belong. . pygalmesh and mshr are therefore complementary. . pygalmesh also interfaces CGAL's 3D periodic mesh generation. . This package installs the pygalmesh module for Python 3. . It also provides the utility scripts pygalmesh-from-inr and pygalmesh-volume-from-surface for generating volume meshes from INR or surface meshes. |
PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
PackageName | python3-pygalmesh |
PackageSection | python |
PackageVersion | 0.6.2-1 |
SHA-1 | 312F3C23FF882CD1D05943FF5C60B149AA1A79E5 |
SHA-256 | 9D58FD084ACD337C089AA0C144B4FB6F06D9DA1EFA7EB139668F5683529B08CC |
Key | Value |
---|---|
FileSize | 1206944 |
MD5 | EFD28182AB2087FF7DF4E9CF24AE88FF |
PackageDescription | Python 3 frontend to CGAL's 3D mesh generators pygalmesh makes it easy to create high-quality 3D volume and surface meshes. . CGAL offers two different approaches for mesh generation: - Meshes defined implicitly by level sets of functions. - Meshes defined by a set of bounding planes. . pygalmesh provides a front-end to the first approach, which has the following advantages and disadvantages: - All boundary points are guaranteed to be in the level set within any specified residual. This results in smooth curved surfaces. - Sharp intersections of subdomains (e.g., in unions or differences of sets) need to be specified manually (via feature edges, see below), which can be tedious. . On the other hand, the bounding-plane approach (realized by mshr), has the following properties: - Smooth, curved domains are approximated by a set of bounding planes, resulting in more of less visible edges. - Intersections of domains can be computed automatically, so domain unions etc. have sharp edges where they belong. . pygalmesh and mshr are therefore complementary. . pygalmesh also interfaces CGAL's 3D periodic mesh generation. . This package installs the pygalmesh module for Python 3. . It also provides the utility scripts pygalmesh-from-inr and pygalmesh-volume-from-surface for generating volume meshes from INR or surface meshes. |
PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
PackageName | python3-pygalmesh |
PackageSection | python |
PackageVersion | 0.5.2-1 |
SHA-1 | 34B0DEE32D269B96471EF199D0849415A1088324 |
SHA-256 | 3B26349C4AEB6DFDAE278A680113649A25F3F8D265E6F4657C96D4BF7093CF7A |