Ubuntu

“gap” 4r4p12-2 source package in Ubuntu

Changelog

gap (4r4p12-2) unstable; urgency=low

  * debian/rules: 
    - add -fno-strict-aliasing to CFLAGS to avoid issues with newer gcc.
  * src/sysfiles.c: 
    - Prefer termios.h over sgtty.h. This fix a build failure on kfreebsd.
 -- Ubuntu Archive Auto-Sync <email address hidden>   Mon,  29 Nov 2010 11:25:05 +0000

Upload details

Uploaded by:
Ubuntu Archive Auto-Sync on 2010-11-29
Uploaded to:
Natty
Original maintainer:
Bill Allombert
Component:
universe
Architectures:
any
Section:
math
Urgency:
Low Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Saucy release on 2013-04-25 universe math
Raring release on 2012-10-18 universe math
Quantal release on 2012-04-26 universe math
Precise release on 2011-10-13 universe math
Oneiric release on 2011-04-28 universe math

Downloads

File Size MD5 Checksum
gap_4r4p12.orig.tar.gz 5.5 MiB 8fb9b7127bcc64e6baa6a1eb5b240fba
gap_4r4p12-2.diff.gz 20.3 KiB 2f24f27072aea85a7f67e39fce0bf02f
gap_4r4p12-2.dsc 1.1 KiB 7e24c18825897295e85d9326ebd01e4d

Available diffs

Binary packages built by this source

gap: Groups, Algorithms and Programming computer algebra system

 GAP is a system for computational discrete algebra with particular
 emphasis on computational group theory, but which has already proved
 useful also in other areas. In the example text, gap is used to
 analyse Rubik's Cube using group theory. A kernel implements a Pascal-like
 language.
 .
 This is a dummy package that depends on the standard GAP components.

gap-core: GAP computer algebra system, core components

 GAP is a system for computational discrete algebra with particular
 emphasis on computational group theory, but which has already proved
 useful also in other areas. In the example text, gap is used to
 analyse Rubik's Cube using group theory. A kernel implements a Pascal-like
 language.
 .
 This package contains the core GAP system.

gap-dev: GAP computer algebra system, compiler and development files

 GAP is a system for computational discrete algebra with particular
 emphasis on computational group theory, but which has already proved
 useful also in other areas. In the example text, gap is used to
 analyse Rubik's Cube using group theory. A kernel implements a Pascal-like
 language.
 .
 This package contains the GAP compiler and the headers files and
 objects files necessary to build GAP packages.
 .
 The GAP compiler (GAC) creates C code from GAP code and then calls
 the system's C compiler to produce machine code from it. This can
 result in a speedup.

gap-doc: GAP computer algebra system, documentation

 GAP is a system for computational discrete algebra with particular
 emphasis on computational group theory, but which has already proved
 useful also in other areas. In the example text, gap is used to
 analyse Rubik's Cube using group theory. A kernel implements a Pascal-like
 language.
 .
 This package contains the documentation in DVI and PDF formats.

gap-libs: GAP computer algebra system, essential GAP libraries

 GAP is a system for computational discrete algebra with particular
 emphasis on computational group theory, but which has already proved
 useful also in other areas. In the example text, gap is used to
 analyse Rubik's Cube using group theory. A kernel implements a Pascal-like
 language.
 .
 This package contains the essential GAP libraries (lib and grp).

gap-online-help: GAP computer algebra system, online help

 GAP is a system for computational discrete algebra with particular
 emphasis on computational group theory, but which has already proved
 useful also in other areas. In the example text, gap is used to
 analyse Rubik's Cube using group theory. A kernel implements a Pascal-like
 language.
 .
 This package contains the documentation in TeX format needed for the online
 help system.