Parents (Total: 7)

The searched file hash is included in 7 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
MD5	949A43A21D565DFD1CC884826A819765
PackageArch	x86_64
PackageDescription	Performs 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.
PackageName	python3-pyproj
PackageRelease	lp153.31.2
PackageVersion	3.0.1
SHA-1	A797B1BA3B52BDC68890E009BAD23405DD638C3F
SHA-256	A8C53604E9FE327BCD20AFBC48AD45E78B9D794408221DB3D8B51F9DA46463D5

Key	Value
MD5	59CB27561550F20544FF193F5F13B118
PackageArch	x86_64
PackageDescription	Performs 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.
PackageMaintainer	https://bugs.opensuse.org
PackageName	python3-pyproj
PackageRelease	bp156.3.4
PackageVersion	3.0.1
SHA-1	6E1ACE1A641AA2A597ECCBCC65C296070C158C23
SHA-256	B6F69DED85CA351E495820927EF16503883A34F634CA9CCEE0FB615550968CC4

Key	Value
MD5	F9A82D2F6D9868CAAA7E6DE13C502952
PackageArch	x86_64
PackageDescription	Performs 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.
PackageMaintainer	https://bugs.opensuse.org
PackageName	python3-pyproj
PackageRelease	bp154.1.19
PackageVersion	3.0.1
SHA-1	B18E7628EC366314D1814A8AEE405032E0747A80
SHA-256	0530285BAC738C334606684C000C49DBA17B6069EF7FF43ADB3ACCE1C6C6FE8F

Key	Value
MD5	F2DDC50489A82CBF281ABDA70E6C4156
PackageArch	x86_64
PackageDescription	Performs 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.
PackageName	python3-pyproj
PackageRelease	lp152.31.3
PackageVersion	3.0.1
SHA-1	68486F67A2BBB509FE15F641B3D0EAB08FC80896
SHA-256	08FBE131A93C4A54D7D3C89EF161055E42DF8FA94DB37B0BF03E3E683C6B631B

Key	Value
MD5	E5D4DEABADA263107CEC1753D10CADBB
PackageArch	x86_64
PackageDescription	Performs 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.
PackageMaintainer	https://bugs.opensuse.org
PackageName	python3-pyproj
PackageRelease	bp155.2.15
PackageVersion	3.0.1
SHA-1	17306F5EBD15D56A8FD2A555BDC3BA3780C73C5A
SHA-256	14FDFC550D20771DED64CC50463C277288BA18C526CF85DAC32EA5456537394B

Key	Value
MD5	AB9635C9BCF0BCA9B57CBE25BF66A935
PackageArch	x86_64
PackageDescription	Performs 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.
PackageName	python3-pyproj
PackageRelease	bp152.31.2
PackageVersion	3.0.1
SHA-1	7DD1F95588E97FBB0B4E5212DF63BE97E5287C5A
SHA-256	D0990BFE8B167B6237589FA95AA9F75EE237526CA8A6E9444987754CB8DA81AD

Key	Value
MD5	1B823BF05CD74D76AE2E0D8CAEA9010B
PackageArch	x86_64
PackageDescription	Performs 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.
PackageName	python3-pyproj
PackageRelease	bp151.31.2
PackageVersion	3.0.1
SHA-1	4C9351416AE038497B0A49730D80572B80C93E3D
SHA-256	68B892E156B311D0F60A73B075E1044F8159FBA10F4885BB3435B0CBD1B0A187