Result for 1D916E659D41F6011A47B4E6F2AFB4CB2A446E57

Search result
Graph view
Parent (15)

Query result

Key Value
FileName./usr/lib64/python3.6/site-packages/pyproj/utils.py
FileSize3826
MD50D2C943B21BE6134C54D0CCA6A0D2C96
SHA-11D916E659D41F6011A47B4E6F2AFB4CB2A446E57
SHA-2565F3FA43678A24696A692D02CB8029BE592A0A5C33FB9B0773AEFC804D03D8915
SHA-5127AD094C4E7B5A75B5BE6233D3D617F2A7E432BCC7794F5CC20AF0B623BBA5B1554091EB8020CA7AE4A0ABBA0DED0CDC59EF49F93925C86379FDA1A52D665A207
SSDEEP48:q410Bw0ylUxAyuj+upgM/ryzXxBjGNxxbnW9ur6Wv/hxTBENcGMWw9:q7BwNUxzuCupxuXxcxxLeurVhxTXWw9
TLSHT1B2810F4AF842787E9B43945B0C82E841A32E9CE743451D38FCAD95A52F76234D3BA7DC
insert-timestamp1649318722.8832977
mimetypetext/plain
sourcesnap:ITIyQlDbrh8WWykXtoj4KitfjFLGCcPN_3
tar:gnamebin
tar:unameroot
hashlookup:parent-total15
hashlookup:trust100

Network graph view

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
MD5949A43A21D565DFD1CC884826A819765
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageNamepython3-pyproj
PackageReleaselp153.31.2
PackageVersion3.0.1
SHA-1A797B1BA3B52BDC68890E009BAD23405DD638C3F
SHA-256A8C53604E9FE327BCD20AFBC48AD45E78B9D794408221DB3D8B51F9DA46463D5
Key Value
FileNamehttps://ftp.lysator.liu.se/pub/OpenBSD/6.9/packages//arm//py3-proj-3.0.1.tgz
MD5F296AD45A406C1ACFE484F68289AD0BC
SHA-12E68FED03B16564329DC3823A8848B0F02CBDAEB
SHA-25675D625076574C1591DB7CAC05113BA14742F7580A7E975ED7D695EC970C42F27
SSDEEP12288:dfYnw2yrFV9Dyp+2EKDCRtew+GYEM7p1s8V:dww26Fzp4CRt5GEop28V
TLSHT1E9B42340F631373263848996DA5C1AE9CF989A9FFF25FFD11A7D2393C8A65438C44A43
Key Value
MD559CB27561550F20544FF193F5F13B118
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageMaintainerhttps://bugs.opensuse.org
PackageNamepython3-pyproj
PackageReleasebp156.3.4
PackageVersion3.0.1
SHA-16E1ACE1A641AA2A597ECCBCC65C296070C158C23
SHA-256B6F69DED85CA351E495820927EF16503883A34F634CA9CCEE0FB615550968CC4
Key Value
MD59A8E05910FC875B9147711737EB8A35A
PackageArchs390x
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageNamepython38-pyproj
PackageRelease31.2
PackageVersion3.0.1
SHA-1DCC49527FAEC71727215EBF931B8FDCE6BD3C74B
SHA-256C3F929B937F581EE2447A5B3D3E6FA07098E9E693AEC38015357AAF9B36AE301
Key Value
FileNamehttps://ftp.lysator.liu.se/pub/OpenBSD/6.9/packages//sparc64//py3-proj-3.0.1.tgz
MD52DE16D36AD4EB44B1EB71B3D3471B047
SHA-1AA9CAC574E7C8E853CEEC343C5052A8A57F63DBD
SHA-2569F2DB28EB9DD15265D28905E156D27269DC30C499386BD6347CFCDD5CB948A33
SSDEEP12288:2NCYSySAT8GVfv4uFxe4/rF7qNoMyPvOcApsz7n+aD24siw2:0pSySK8ofAsgmpqeMyuJpszzj
TLSHT16ED42312A8EF8720AEA1D2874C65418F425A62D474B2CA5543073333DDFDD5ABF2B6E3
Key Value
MD5F9A82D2F6D9868CAAA7E6DE13C502952
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageMaintainerhttps://bugs.opensuse.org
PackageNamepython3-pyproj
PackageReleasebp154.1.19
PackageVersion3.0.1
SHA-1B18E7628EC366314D1814A8AEE405032E0747A80
SHA-2560530285BAC738C334606684C000C49DBA17B6069EF7FF43ADB3ACCE1C6C6FE8F
Key Value
MD5E5D4DEABADA263107CEC1753D10CADBB
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageMaintainerhttps://bugs.opensuse.org
PackageNamepython3-pyproj
PackageReleasebp155.2.15
PackageVersion3.0.1
SHA-117306F5EBD15D56A8FD2A555BDC3BA3780C73C5A
SHA-25614FDFC550D20771DED64CC50463C277288BA18C526CF85DAC32EA5456537394B
Key Value
MD5F2DDC50489A82CBF281ABDA70E6C4156
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageNamepython3-pyproj
PackageReleaselp152.31.3
PackageVersion3.0.1
SHA-168486F67A2BBB509FE15F641B3D0EAB08FC80896
SHA-25608FBE131A93C4A54D7D3C89EF161055E42DF8FA94DB37B0BF03E3E683C6B631B
Key Value
FileNamehttps://ftp.lysator.liu.se/pub/OpenBSD/6.9/packages//amd64//py3-proj-3.0.1.tgz
MD5B5F48169FD7ECA0F74B1531BF4522286
SHA-150E045FC6EF3F2B1C7D35448292391C0439AD159
SHA-256E7F948731574BD084E84AF06256D849C4F5E62DFB17DD1AC2ED1FCFCEED30D81
SSDEEP24576:ir9PIHmj29K4LX0xy6UJVMGh8HLJULevXH4vxzNpEC70BlupQMNEe:GPIGy9NLX0xynVMc8HQevXYJJ9Qluz
TLSHT1EE55334D51E266CDEE122E4F4E3E3519F8A077F643658E28603FFC629F39199E8D5208
Key Value
SHA-1977D482C1ADE5DB5B6445FD8A82BEC30C4A374C3
snap-authoritycanonical
snap-filenameITIyQlDbrh8WWykXtoj4KitfjFLGCcPN_3.snap
snap-idITIyQlDbrh8WWykXtoj4KitfjFLGCcPN_3
snap-nametablexplore
snap-publisher-idwKNkmne29sQR93F3D0N6GFAFqfyv9hpz
snap-signkeyBWDEoaqyr25nF5SNCvEv2v7QnM9QsfCc0PBMYD_i2NGSQ32EF2d4D0hqUel3m8ul
snap-timestamp2020-12-08T13:04:59.838303Z
source-urlhttps://api.snapcraft.io/api/v1/snaps/download/ITIyQlDbrh8WWykXtoj4KitfjFLGCcPN_3.snap
Key Value
FileNamehttps://ftp.lysator.liu.se/pub/OpenBSD/6.9/packages//powerpc64//py3-proj-3.0.1.tgz
MD552552A78C659400C6E7BEE48E28D1CE1
SHA-1C35B3C36A126A0FAC1AB8433CF2542FD995AACC8
SHA-2566C72FDC19F5343BACF5AFFA82485C59FF3A3C2E102DBFC21E230894497D47EE6
SSDEEP12288:iAsVYCOKuL1GCZQrWGVYOCoNfYrzH92t7KHMAJEXcjVJxpBk:dhSuLl2VYFrzd2tWsWEsRLPk
TLSHT115B4239DDEC5CA121E53886C49F7F151FC46E897251333982C5A923ED7022AB6CDBE32
Key Value
MD5AB9635C9BCF0BCA9B57CBE25BF66A935
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageNamepython3-pyproj
PackageReleasebp152.31.2
PackageVersion3.0.1
SHA-17DD1F95588E97FBB0B4E5212DF63BE97E5287C5A
SHA-256D0990BFE8B167B6237589FA95AA9F75EE237526CA8A6E9444987754CB8DA81AD
Key Value
FileNamehttps://ftp.lysator.liu.se/pub/OpenBSD/6.9/packages//powerpc//py3-proj-3.0.1.tgz
MD5DE9D84380356543F0E23FBB38AB99911
SHA-125168900ECE764D041FCE8C4D03F3DEC924AE4BC
SHA-2568E55FA7970337E1958F31A7B64390F2AFDA745AC5FA5EA28CD20BD803B92FECC
SSDEEP6144:nNoQGLkdeQObFxToC9WRwRyJOpJH0aBoDzC3tXMs0s8BNNWJYpCuDci9VXEyTcrH:oY0zQpG22mIXMs6BN8Opv4ioZQBdMJjB
TLSHT156B423E21DCF6602B1A871B390D8E9E6A11BC0D0DC81BC693D8235FEA9E7393755543E
Key Value
FileNamehttps://ftp.lysator.liu.se/pub/OpenBSD/6.9/packages//i386//py3-proj-3.0.1.tgz
MD5666E4AABEF0ECF84C2369E9873BFFB3E
SHA-1BC53C7A8BF25F2B4B251FCCCBE9138000F4A3F01
SHA-2564C67D5C50D2A05FC4836A1EDEDED74A13742B5CCEDDA8BEEE08A3C4457CF3DC0
SSDEEP12288:NYesB623wLgzXJsTUztGCy6atBcPriw8fyfzhXetBh:eL623OlUcRXtBoZ86f8zh
TLSHT143A42313018A9B154CA7DE3E5D448CB9E58A4DE31329D34FF1F2B14251DB3AEA722EB4
Key Value
MD51B823BF05CD74D76AE2E0D8CAEA9010B
PackageArchx86_64
PackageDescriptionPerforms cartographic transformations and geodetic computations. The Proj class can convert from geographic (longitude,latitude) to native map projection (x,y) coordinates and vice versa, or from one map projection coordinate system directly to another. The Geod class can perform forward and inverse geodetic, or Great Circle, computations. The forward computation involves determining latitude, longitude and back azimuth of a terminus point given the latitude and longitude of an initial point, plus azimuth and distance. The inverse computation involves determining the forward and back azimuths and distance given the latitudes and longitudes of an initial and terminus point. Input coordinates can be given as python arrays, lists/tuples, scalars or numpy/Numeric/numarray arrays. Optimized for objects that support the Python buffer protocol (regular python and numpy array objects). This project has a git repository https://github.com/pyproj4/pyproj where you may access the most up-to-date source.
PackageNamepython3-pyproj
PackageReleasebp151.31.2
PackageVersion3.0.1
SHA-14C9351416AE038497B0A49730D80572B80C93E3D
SHA-25668B892E156B311D0F60A73B075E1044F8159FBA10F4885BB3435B0CBD1B0A187





metalookup is a service from miwakeru.com