| Key | Value |
|---|---|
| FileName | ./usr/lib/python3.8/site-packages/smmap/__pycache__/__init__.cpython-38.pyc |
| FileSize | 558 |
| MD5 | 74A192D265B4282EFBF3C097DF774BC2 |
| SHA-1 | 148F10DDE7B691F592350F986A569F753CB4D45C |
| SHA-256 | 7AB08EAD45918F5E08F907240E3252078BBB0125E29C91BBDBCAE8D18436F579 |
| SSDEEP | 12:M74sZLPfk0Z1akQq1acqrWiDwMB+CQPRgmGW+3y4v:Mj1fjZGfjDwMICWi |
| TLSH | T129F00526C550CB37FD11B77C7055632607F10475AF0A535277089299EC0E2449763C12 |
| hashlookup:parent-total | 6 |
| hashlookup:trust | 80 |
The searched file hash is included in 6 parent files which include package known and seen by metalookup. A sample is included below:
| Key | Value |
|---|---|
| MD5 | 0B78723EC5E81953767D08A14F724452 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageMaintainer | https://bugs.opensuse.org |
| PackageName | python38-smmap |
| PackageRelease | 1.4 |
| PackageVersion | 4.0.0 |
| SHA-1 | 7E2B8BFC62A62C267C593D4EB0089640E1621E19 |
| SHA-256 | B5C5F035C44306C88BD335BD8E563A1C3E43652A475008AE5C743115FC55F20A |
| Key | Value |
|---|---|
| MD5 | 6A4848EAFCBA180005DA41C2FE47E499 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python38-smmap |
| PackageRelease | 34.13 |
| PackageVersion | 4.0.0 |
| SHA-1 | FB660C82FB4A9AB2D4CDE5B94B92FE2C50CB76DB |
| SHA-256 | FE6357CC961A4ADBEE0AC963A985865C7E0FA36E2DF31E7607D7CA5D8EFA1A15 |
| Key | Value |
|---|---|
| MD5 | 6C9BB5FBFB8011D4C4B2BA21D15E20CE |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python38-smmap |
| PackageRelease | 34.12 |
| PackageVersion | 4.0.0 |
| SHA-1 | C8B01FD5A379065C97E1EFC227C0C5706A7A4B2D |
| SHA-256 | 30919EF19C962B673167CF717187E81DF50D16FBC85E9F7AD4D362EF3F02E86C |
| Key | Value |
|---|---|
| MD5 | D57AF2C63B2ACA006E43677959C9B81E |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python38-smmap |
| PackageRelease | 34.17 |
| PackageVersion | 4.0.0 |
| SHA-1 | 057EFC9971FF46798195D737A697413055041E6E |
| SHA-256 | EC2AEFFF6888CA3FFB7DBDFE3029808FEB1F78489355A5B78F1D00BD3FECC867 |
| Key | Value |
|---|---|
| MD5 | 9F192C94EB1A2FEDB6A8E658A5FB1517 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python38-smmap |
| PackageRelease | 34.16 |
| PackageVersion | 4.0.0 |
| SHA-1 | C68C30BF4D569EF23BCE6F4257825A913ECB199A |
| SHA-256 | 4B385062A22F62E1BFF25B3C016AB725ACC4269652380C9097EC96877C9C7549 |
| Key | Value |
|---|---|
| MD5 | D6121B79C0755BF6C76DF4C173045C42 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python38-smmap |
| PackageRelease | 34.24 |
| PackageVersion | 4.0.0 |
| SHA-1 | 8BF4B3D8705696F88462BC5B142E50B123FFDE15 |
| SHA-256 | 10EAC5E1021452B3512A0A119DFE144BD7279C83B1A07E30D3134373540BE3E7 |