Parents (Total: 4)

The searched file hash is included in 4 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
MD5	D92E74C1D0B1AFA69F05DC18DE124699
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	python3-smmap
PackageRelease	lp150.1.3
PackageVersion	0.9.0
SHA-1	2FE94EC6B7983DF8177E6D1D287FFF6DFE53423C
SHA-256	533A2902EC9182FE8CC8886C4398953355CFE4772AE131222B79DD9657BFB5F6

Key	Value
MD5	B93981310D22F405348E08B6F7AFB9B0
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	python2-smmap
PackageRelease	lp150.2.1
PackageVersion	0.9.0
SHA-1	F5B4B23AF76810C80D0FE2D13C656E8F945C2CD0
SHA-256	57A93D5B4528439D826F6A9E592AF7B176007180CCDF9644EF092B24F55236B6

Key	Value
MD5	821147C382A631DB7E7D564BB9B5FDE6
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	python2-smmap
PackageRelease	lp150.1.3
PackageVersion	0.9.0
SHA-1	900B1AF8848205E37048E72622536B7822C20BBB
SHA-256	3BF7805B40DD6DAB92B5C5F4F01D8D9FA625BA4C2B46C5187A235F1FA8AF8527

Key	Value
MD5	A80CB78FD73815C0AE769983C65FA2B8
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	python3-smmap
PackageRelease	lp150.2.1
PackageVersion	0.9.0
SHA-1	03ABA5D27550321D992A1D79F3F56AF58F46F3FD
SHA-256	BC3E2DAF8752827E5D4D65C5644EFDC0B573151D5893A91F98AB6193E0DC410C