libmaa 1.3.1-1 source package in Ubuntu

Changelog

libmaa (1.3.1-1) unstable; urgency=low

  * New upstream version.
  * Drop 03-gcc-4.6-warnings.patch, is no longer needed.
 -- Ubuntu Archive Auto-Sync <email address hidden>   Wed,  09 Nov 2011 13:06:31 +0000

Upload details

Uploaded by:
Ubuntu Archive Auto-Sync on 2011-11-09
Uploaded to:
Precise
Original maintainer:
Robert Luberda
Architectures:
any
Section:
libs
Urgency:
Low Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Precise release on 2011-11-09 main libs

Downloads

File Size SHA-256 Checksum
libmaa_1.3.1.orig.tar.gz 280.4 KiB 53401077333ea1a8b9fd0669b2fcb62bee435a6b95c6678c605640d8d4f5f077
libmaa_1.3.1-1.debian.tar.gz 5.9 KiB 415a9265270798c551a0cfe68a1cfa67e7a1bdfddbffdc1cf80c4c9ab67d2969
libmaa_1.3.1-1.dsc 1.2 KiB 4955c13cabaed495ee60e56c57b65663f3c5489c6c8212892672aa227e192c4b

Available diffs

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Binary packages built by this source

libmaa-dev: maa programming library, development files

 The libmaa library provides many low-level data structures which are
 helpful for writing compilers, including hash tables, sets, lists,
 debugging support, and memory management. Although libmaa was designed
 and implemented as a foundation for the kheperalong, the data structures
 are generally applicable to a wide range of programming problems.
 .
 The memory management routines are especially helpful for improving the
 performance of memory-intensive applications.
 .
 This package contains the static library and headers used to build programs
 that use the library.

libmaa3: maa programming library

 The libmaa library provides many low-level data structures which are
 helpful for writing compilers, including hash tables, sets, lists,
 debugging support, and memory management. Although libmaa was designed
 and implemented as a foundation for the kheperalong, the data structures
 are generally applicable to a wide range of programming problems.
 .
 The memory management routines are especially helpful for improving the
 performance of memory-intensive applications.