Parents (Total: 48)

The searched file hash is included in 48 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileName	http://dl-cdn.alpinelinux.org/alpine/latest-stable//community//x86//py3-pymediainfo-5.1.0-r1.apk
MD5	2AC5CF0F39FA0283145499FFAA9D497F
SHA-1	051F6A035193E66D76FB37F987970F1994E22193
SHA-256	CC8B4C49890DFF1B3FF35C4D41D5C421C2EEF98244A7D5132CA414FE000AB9ED
SSDEEP	384:IxJXCM9+GTz6lXfgy5WzUXQMHOw1w/+ol5Ot:IxJTTeWysUXQN/9Kt
TLSH	T1F252B0C5C1AB6AA8E1F46C775A63DF0CB2AB927133C3D80452C97096A8811F041DABED

Key	Value
FileSize	55576
MD5	ABA617FDA8B124D625547436C2BEF5CC
PackageDescription	utility for interacting with PyPI Twine is a tool for uploading distributions (in the Python meaning) to PyPi. . Why should twine be used over the traditional approach? . The biggest reason to use twine is that python setup.py upload uploads files over plaintext. This means anytime you use it you expose your username and password to a MITM attack. Twine uses only verified TLS to upload to PyPI protecting your credentials from theft. . Secondly it allows you to precreate your distribution files. python setup.py upload only allows you to upload something that you’ve created in the same command invocation. This means that you cannot test the exact file you’re going to upload to PyPI to ensure that it works before uploading it. . Finally it allows you to pre-sign your files and pass the .asc files into the command line invocation (twine upload twine-1.0.1.tar.gz twine-1.0.1.tar.gz.asc). This enables you to be assured that you’re typing your gpg passphrase into gpg itself and not anything else since you will be the one directly executing gpg --detach-sign -a <filename>. . Features: . - Verified HTTPS Connections - Uploading doesn’t require executing setup.py - Uploading files that have already been created, allowing testing of distributions before release - Supports uploading any packaging format (including wheels).
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	twine
PackageSection	utils
PackageVersion	3.2.0-1
SHA-1	11E3A284776830875EF1EA823A80EE8FA3A04360
SHA-256	4EBA2C548FA0A11594248A1A32802FCB9F6E0434B9FA40FB06C5BDBF7A26576D

Key	Value
MD5	1FD0BADC560437ADF98761C941DCCA3C
PackageArch	noarch
PackageDescription	This module is a Python wrapper for the mediainfo library.
PackageMaintainer	https://bugs.opensuse.org
PackageName	python3-pymediainfo
PackageRelease	bp156.1.1
PackageVersion	6.1.0
SHA-1	11F82AF56E303BD0531D543394781F62F211406E
SHA-256	0083AFB56FB29CB69CB6EEB2BAAC6632520B85691DEDF85262EBC902E29D1B02

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
MD5	18CF7DD93782703E3C10D7500B4EABBA
PackageArch	noarch
PackageDescription	This module is a Python wrapper for the mediainfo library.
PackageMaintainer	https://bugs.opensuse.org
PackageName	python310-pymediainfo
PackageRelease	1.4
PackageVersion	5.1.0
SHA-1	20C660CF5359186A5801AD835A528352F06323C2
SHA-256	EB898BE6AD7D72F8CB5B807AD75E6EB02CAD48079D738166C6D47AD274D7115B

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
MD5	5B98349439129DC0158E0F43BAD82A7C
PackageArch	noarch
PackageDescription	This module is a Python wrapper for the mediainfo library.
PackageName	python3-pymediainfo
PackageRelease	lp152.2.3
PackageVersion	5.1.0
SHA-1	220FBAB103D844FC2840410406111474141F6D36
SHA-256	BBFD2C483CAA5A22017B392A85A45FCB7C3695FA1DA6B487DCE22E9304D122A5

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
MD5	2BA32AB277398162CD72814D88CC90C3
PackageArch	noarch
PackageDescription	This module is a Python wrapper for the mediainfo library.
PackageName	python36-pymediainfo
PackageRelease	1.1
PackageVersion	5.1.0
SHA-1	2B61A2ED16ADC80F5A346CBE698F117ECD54FBC6
SHA-256	2ABD34F295AAB51A3A07379CEE496944B1BB93725AA5F1238F0AB862B4B358DF

Key	Value
FileSize	57584
MD5	31B1BEE87D4E18DF063A75112232DD23
PackageDescription	utility for interacting with PyPI Twine is a tool for uploading distributions (in the Python meaning) to PyPi. . Why should twine be used over the traditional approach? . The biggest reason to use twine is that python setup.py upload uploads files over plaintext. This means anytime you use it you expose your username and password to a MITM attack. Twine uses only verified TLS to upload to PyPI protecting your credentials from theft. . Secondly it allows you to precreate your distribution files. python setup.py upload only allows you to upload something that you’ve created in the same command invocation. This means that you cannot test the exact file you’re going to upload to PyPI to ensure that it works before uploading it. . Finally it allows you to pre-sign your files and pass the .asc files into the command line invocation (twine upload twine-1.0.1.tar.gz twine-1.0.1.tar.gz.asc). This enables you to be assured that you’re typing your gpg passphrase into gpg itself and not anything else since you will be the one directly executing gpg --detach-sign -a <filename>. . Features: . - Verified HTTPS Connections - Uploading doesn’t require executing setup.py - Uploading files that have already been created, allowing testing of distributions before release - Supports uploading any packaging format (including wheels).
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	twine
PackageSection	utils
PackageVersion	3.1.1-1
SHA-1	2E8B4CE28D00C5AB3DBE44EB1D143AED2BD2F185
SHA-256	4BF39BC086906882B1DF4427251C61D0EB29AFDCC57790676D03CC1DD400BA43