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	AEB07A0941629826744FFFB466FB1896
PackageArch	ppc64
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	Koji
PackageName	ocaml-zarith
PackageRelease	2.fc18
PackageVersion	1.1
SHA-1	E8A3098D4826FE05B8877659F9F5D774E9A813FF
SHA-256	785891B55A0559CA3852B697F6E4A372F360CC2EEFC462FD6D8D7453F6101480

Key	Value
MD5	972E2F65433FEE564F5E413553D6876E
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	2.fc18
PackageVersion	1.1
SHA-1	A6DB878E0D275E9E8B0CE51E5BEB15492673AEDE
SHA-256	6469E253A9837A47A209D66EDF2F5313B4E69B1EDCCD4D3EBF905B23950ECEB8

Key	Value
MD5	F94BD2BC6898942C481AC6A1A611A473
PackageArch	armv5tel
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	2.fc18
PackageVersion	1.1
SHA-1	523426A3732EC9D9CFE0B90B46DBCC0D8C64D331
SHA-256	8E90D223C7CB198835A25AAF6F8337B48B6CAABAA9BC92F3B9810CD4146ECEDD

Key	Value
MD5	C2B7EF4EF26DD62A3790A8D613E437E7
PackageArch	ppc
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	Koji
PackageName	ocaml-zarith
PackageRelease	2.fc18
PackageVersion	1.1
SHA-1	BA68945B640789C51434AEF60053EDB1D00F402A
SHA-256	5EDADA4A7642071D016313EE11B23D919DF58BC069F15586ED5B02D7D77B4A87