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	202E30AEA5393FBB408E856796E29E20
PackageArch	aarch64
PackageDescription	This library implements arithmetic and logical operations over arbitrary-precision integers. The module is simply named "Z". Its interface is similar to that of the Int32, Int64 and Nativeint modules from the OCaml standard library, with some additional functions. See the file z.mlip for documentation. The implementation uses GMP (the GNU Multiple Precision arithmetic library) to compute over big integers. However, small integers are represented as unboxed Caml integers, to save space and improve performance. Big integers are allocated in the Caml heap, bypassing GMP's memory management and achieving better GC behavior than e.g. the MLGMP library. Computations on small integers use a special, faster path (coded in assembly for some platforms and functions) eschewing calls to GMP, while computations on large integers use the low-level MPN functions from GMP. Arbitrary-precision integers can be compared correctly using OCaml's polymorphic comparison operators (=, <, >, etc.). Additional features include: - a module Q for rationals, built on top of Z (see q.mli) - a compatibility layer Big_int_Z that implements the same API as Big_int, but uses Z internally
PackageMaintainer	Fedora Project
PackageName	ocaml-zarith
PackageRelease	1.fc34
PackageVersion	1.12
SHA-1	82A15F9ECCC90F29AF327E9D80EECA1516358B0F
SHA-256	C1F384454A1163CB719CBCC50410F8AB69D281D92FC786BD4887D5B55271E3D0

Key	Value
MD5	684C594186129CA48E28C99A66C1E8A4
PackageArch	x86_64
PackageDescription	This library implements arithmetic and logical operations over arbitrary-precision integers. The module is simply named "Z". Its interface is similar to that of the Int32, Int64 and Nativeint modules from the OCaml standard library, with some additional functions. See the file z.mlip for documentation. The implementation uses GMP (the GNU Multiple Precision arithmetic library) to compute over big integers. However, small integers are represented as unboxed Caml integers, to save space and improve performance. Big integers are allocated in the Caml heap, bypassing GMP's memory management and achieving better GC behavior than e.g. the MLGMP library. Computations on small integers use a special, faster path (coded in assembly for some platforms and functions) eschewing calls to GMP, while computations on large integers use the low-level MPN functions from GMP. Arbitrary-precision integers can be compared correctly using OCaml's polymorphic comparison operators (=, <, >, etc.). Additional features include: - a module Q for rationals, built on top of Z (see q.mli) - a compatibility layer Big_int_Z that implements the same API as Big_int, but uses Z internally
PackageMaintainer	Fedora Project
PackageName	ocaml-zarith
PackageRelease	1.fc34
PackageVersion	1.12
SHA-1	DD499B08161F9D1EBCDE22E87A2BCF26F671BCBD
SHA-256	A981679010390482D80D111964BFD9AC1C318E42855D8CE33B557FBE7D568A34

Key	Value
MD5	14CF77FE31CDF0EA085C38F43268E576
PackageArch	i686
PackageDescription	This library implements arithmetic and logical operations over arbitrary-precision integers. The module is simply named "Z". Its interface is similar to that of the Int32, Int64 and Nativeint modules from the OCaml standard library, with some additional functions. See the file z.mlip for documentation. The implementation uses GMP (the GNU Multiple Precision arithmetic library) to compute over big integers. However, small integers are represented as unboxed Caml integers, to save space and improve performance. Big integers are allocated in the Caml heap, bypassing GMP's memory management and achieving better GC behavior than e.g. the MLGMP library. Computations on small integers use a special, faster path (coded in assembly for some platforms and functions) eschewing calls to GMP, while computations on large integers use the low-level MPN functions from GMP. Arbitrary-precision integers can be compared correctly using OCaml's polymorphic comparison operators (=, <, >, etc.). Additional features include: - a module Q for rationals, built on top of Z (see q.mli) - a compatibility layer Big_int_Z that implements the same API as Big_int, but uses Z internally
PackageMaintainer	Fedora Project
PackageName	ocaml-zarith
PackageRelease	1.fc34
PackageVersion	1.12
SHA-1	2D42E9FFDDC709333884FF398CEEAB5E878789BD
SHA-256	BFFB0823C640814F8AC2D6564A5D59A11856A5DBF5D4342F55D5C853176F4750

Key	Value
MD5	147160766799F1224CDAE2B3FB79FDFB
PackageArch	armv7hl
PackageDescription	This library implements arithmetic and logical operations over arbitrary-precision integers. The module is simply named "Z". Its interface is similar to that of the Int32, Int64 and Nativeint modules from the OCaml standard library, with some additional functions. See the file z.mlip for documentation. The implementation uses GMP (the GNU Multiple Precision arithmetic library) to compute over big integers. However, small integers are represented as unboxed Caml integers, to save space and improve performance. Big integers are allocated in the Caml heap, bypassing GMP's memory management and achieving better GC behavior than e.g. the MLGMP library. Computations on small integers use a special, faster path (coded in assembly for some platforms and functions) eschewing calls to GMP, while computations on large integers use the low-level MPN functions from GMP. Arbitrary-precision integers can be compared correctly using OCaml's polymorphic comparison operators (=, <, >, etc.). Additional features include: - a module Q for rationals, built on top of Z (see q.mli) - a compatibility layer Big_int_Z that implements the same API as Big_int, but uses Z internally
PackageMaintainer	Fedora Project
PackageName	ocaml-zarith
PackageRelease	1.fc34
PackageVersion	1.12
SHA-1	87290FC5A48F31ECB3578A8844EF6DCCF3E31C15
SHA-256	9FB759940CBA0C9353AC84B1A7C4A060F9477765851F41FF5FB6790A90A40AB8