| Key | Value |
|---|---|
| FileName | ./usr/lib64/ocaml/zarith/big_int_Z.cmi |
| FileSize | 5819 |
| MD5 | 1E7D488CAB3D967E9DD27C92CCBED7F2 |
| SHA-1 | 428C180885305BC9BE9CCBDED9902AF8C7AFD8E2 |
| SHA-256 | 41B656A2C606D0529929F464715E4835988244D44A77D796655ECE2A368B5E4E |
| SSDEEP | 96:KSkq4Hl+rJ8iBAvUo4G3NZ6ttNtxyKGHgNq89mKzDzqcsEWNejUy07PhprA4X8br:K3q4HlkJ8iBAvUo4G3NZ6ttNtxyKGHgd |
| TLSH | T1B1C1E3989018A4FD4599EC7C914AF5532102BBFF89E31D37423A2CA9DE6881ED353C87 |
| hashlookup:parent-total | 4 |
| hashlookup:trust | 70 |
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 | D185881159F79FC0F9956995A03ECE41 |
| PackageArch | aarch64 |
| PackageDescription | Frama-C is a suite of tools dedicated to the analysis of the source code of software written in C. Frama-C gathers several static analysis techniques in a single collaborative framework. The collaborative approach of Frama-C allows static analyzers to build upon the results already computed by other analyzers in the framework. Thanks to this approach, Frama-C provides sophisticated tools, such as a slicer and dependency analysis. |
| PackageMaintainer | Fedora Project |
| PackageName | frama-c |
| PackageRelease | 22.fc22 |
| PackageVersion | 1.10 |
| SHA-1 | E84FCEAEAA96A839DCBB0D21F82DB8C3D0A3CD6B |
| SHA-256 | 00E0C4515938044FBA77D746B5C50C0B035657A97FD20EBCB52CDCC75B461320 |
| Key | Value |
|---|---|
| MD5 | 0733D049A7DD8E96177CF9C2201B4D48 |
| PackageArch | ppc64le |
| 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.fc22 |
| PackageVersion | 1.3 |
| SHA-1 | DABFEF938497E57A22A7D1CC69AFE2364B00C49E |
| SHA-256 | A54D28C012A468B5C82483E8FF96E9441026AEF4F5D1E3B121790B788DFB71A0 |
| Key | Value |
|---|---|
| MD5 | 25E68639ABFB9B47EF154D436C4505DD |
| 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.fc22 |
| PackageVersion | 1.3 |
| SHA-1 | 2E696095256CE3A9F0F34980F6B44647A350A292 |
| SHA-256 | C3AEBFD7D68B3E59B9FA2245C31F30EA112E917A8E8635A2C3BA5907B54ADE9C |
| Key | Value |
|---|---|
| MD5 | 7108CF07371FB2B00D08324E4E703D78 |
| 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 | Fedora Project |
| PackageName | ocaml-zarith |
| PackageRelease | 1.fc22 |
| PackageVersion | 1.3 |
| SHA-1 | 954B977596538C0A11AB4519FA8225A8715E968B |
| SHA-256 | 86831C7E97FD7AA66C88F953F5365F252B5CB63EAE7423A0947B331B2978B685 |