Parents (Total: 15)

The searched file hash is included in 15 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileSize	1147012
MD5	594807A5381001BB9E24238E1BE96A44
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	5AB92F5FB589D22B9DF95B9CAB743A88D6BD0C27
SHA-256	C012B0FB271B1193CDF77BE965C1CD3F8C7450F1C1979426B4EFD92C8C512343

Key	Value
FileSize	1108236
MD5	B8990400263E7D3DBDF6F6A241ED0005
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	767461E28515302CABE2C7C35FCA8079C2EDC3D5
SHA-256	3EA2B4D4AC753441F93A9AABF5EA77C4EC2673ED94993A22BF27ECFE905119E5

Key	Value
FileSize	1119792
MD5	9497F768F7100CAE1341C6700C7D2453
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	0.9.1-2build1
SHA-1	8EFC29A64F376DC87BE52ACDDAE1B1C6B7A31D81
SHA-256	6C46CC790A61AA29E9ED3E998B25BDBB957D4B835984178676BA68CBA66C621B

Key	Value
FileSize	944820
MD5	FCC0545FACD83159093A3811B57BC29D
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	36BDE429B7ADC90013328311A5B793FB7A25122B
SHA-256	556889A55E6BF041C27B71D005C03A9CEB01FF96C1D1BE0DC20AF53D62D54230

Key	Value
FileSize	1212524
MD5	AB6B537C5B0EEA78C742959029F028D0
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	CFF2E5E364E08C2CAC7F2D201380D52215DABDC5
SHA-256	EB0704FA06337653C1CF7CBB562C7CEE1983126BEB5EB9C2C1946D0946CA0D5B

Key	Value
FileSize	988912
MD5	2622FADA2052B2D902165AB141EDDE00
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	A5D43E617B48819035E70865B2ADC4518EF2A2EE
SHA-256	00436C9E07CB21528BE0F6FE5D2CD76B2DEB9CB416E501D8CC80C6E676E129D0

Key	Value
FileSize	1117116
MD5	F86A2C272FE81D994CB3BA74A5BEF792
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	83F5260192DEEE44B0411DA6E9A220BAC44B5B25
SHA-256	4887D2B7FA549901DC51BA5FC6805D5E24F9F33AEE25123741989027DEBD0050

Key	Value
FileSize	975568
MD5	7FEF50C717147F6C6ED8D8AE4683BF84
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	4F8752F5B7075320A0CDB3C73DECDA94171E9939
SHA-256	5FFD09C7C983734651533F8651A90624DAE4484FCF110671A3203521F5E4D3FF

Key	Value
FileSize	959680
MD5	BDC183CBF6786A913B33A14621C239FB
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	1ED9FFA3491C2093CEF529E72C2B926E24A561C4
SHA-256	1C5934F85627D40BFDCA5FA846F6015521657D03BB3CC76F06F013065DBA3DD1

Key	Value
FileSize	1186860
MD5	8BEC56ADD302AC03F1DFBF1E74D37DD4
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	2264F6F29021220263F796A8D3695ED7D84C01DE
SHA-256	67AFEDF7796233640A9890D87CD3CB3677C3D104ED67B68F9EEDE184DA02DDB4

Key	Value
FileSize	1011676
MD5	78671DCBFB4B266923559EDF34995C74
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	E62AFC7C2EFFBBA20174332AD9FE030FB5AB5F66
SHA-256	4B8FB0F5CAD5F67E7BC08A2F40ACEB1283246B131E4AFE2C37A67C9EEBFB8972

Key	Value
FileSize	928956
MD5	B173851EFAE53CA5E7636946D69744F6
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	20E6831F6899905324E032279D2AC069B5FDEDC9
SHA-256	2A78A3CC345C79FB2A8F2BA9A56AEB372FFF4FDF29CF716F25AB1E3526B8E01D

Key	Value
FileSize	994856
MD5	A5C7CA7A1A5FF24D33126B678A0FFA07
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	4FF1FDDE82A8C96793536FC43F17B2C71EA3316E
SHA-256	31DE48CCE7447859744B0FE890F27FB91C4E1E3EBA8B359EBA91AAE8458989EE

Key	Value
FileSize	1148092
MD5	F05952D620D6CC17336D9869D3F0FF13
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.10.5-1
SHA-1	B362A6E9C4048BFA428AB0DD38B673A691225EBB
SHA-256	D289E7F7531007EC79652922C109E82244D77FB8C5935757BDD16942D85E4910

Key	Value
FileSize	965104
MD5	A67D8582BFD6BDEB734AA2D9A6351764
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	Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageName	python3-pygalmesh
PackageSection	python
PackageVersion	0.9.1-2+b1
SHA-1	7AAA48207BDFFB4C011D2F7303208DB2F26F25AE
SHA-256	DF33A2AAE50734E6088F5039401C66048AF7E27EE622D46ED825966FCAA533F8