Result for 027865004900AF45D2C43E06A5C24D86379D8EBE

Query result

Key Value
FileName./usr/lib64/python3.8/site-packages/pyproj/__pycache__/proj.cpython-38.pyc
FileSize10592
MD5D54FE5019A9CA5AA05EE936DF96E2803
SHA-1027865004900AF45D2C43E06A5C24D86379D8EBE
SHA-25671E6E3235201B1F9A60721501852751BF1FF48BAA9E6B77A06BA0C4C57D7E76B
SSDEEP192:oAXl2xrps9lUaK/L857hzsoGS1QYrY5SnQT9gAQNjdIUefLVNmuhgDl:oIlGrps9lDRhAo/Rcl94+UeDv1gDl
TLSHT17E22B606DE8135B2F993F0F110FF4646A33981A77305246AB8AD81592F53EE85337A8D
hashlookup:parent-total1
hashlookup:trust55

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Parents (Total: 1)

The searched file hash is included in 1 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
MD56C007DB26FDE4505056FE83BDD7B54A8
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
PackageRelease2.6
PackageVersion2.6.0
SHA-13DB4DC4FCBB6264CCB2FC555EE2BA6304A183D65
SHA-25663CB9C393C61B75A1D23F10D9C92D9C1BDE39ACAC1EB36370AC8711E081FDEC8