Broaden your selection: Category/Program-build-automation
- The Aap program executes recipes. It is a kind of super-make program. In a recipe you describe how to perform a certain task. Like a Makefile it contains dependencies and build commands. Additionally, many powerful features are included, so that you can use a recipe to:
- Build a program by just specifying the program name and the source files
- Maintain a web site (the A-A-P site is generated and uploaded with a recipe)
- Download the latest version of files
- Distribute files to several servers at once
- Obtain a module from CVS
- Commit changes to CVS; add and remove files automatically
- Generate and filter files
- Build several variants and on multiple platforms with little effort
- Alexis Makes (amake)
- AMake is a make tool which uses powerful pattern transformation enabling a single makefile to automatically handle the compilation of any level of directory hierachy and have the possibility to add files in a project without having to modify even a character of the makefile thus saving a lot of time.
- 'Automake' automatically generates make files compliant with the GNU coding standards. It was inspired by the 4.4 BSD make and include files, but aims to be portable and to conform to the GNU standards for Make file variables and targets. The input files are called Makefile.am; the output files are called Makefile.in. They are intended for use with autoconf. Automake requires certain things to be done in your configure.in. This package also includes the "aclocal' program, which generates an 'aclocal.m4' based on the contents of 'configure.in.' It is useful as an extensible, maintainable mechanism for augmenting autoconf.
- autosetup is a tool, similar to autoconf, to configure a build system for the appropriate environment, according to the system capabilities and the user-selected options.
- CDimg tools is a set of command line tools to manipulate CD/DVD images of certain formats.
- The C Framework for OpenCL, cf4ocl, is a cross-platform pure C object-oriented framework for developing and benchmarking OpenCL projects. It aims to:
- Promote the rapid development of OpenCL host programs in C (with support for C++) and avoid the tedious and error-prone boilerplate code usually required.
- Assist in the benchmarking of OpenCL events, such as kernel execution and data transfers. Profiling comes for free with cf4ocl.
- Simplify the analysis of the OpenCL environment and of kernel requirements.
- Allow for all levels of integration with existing OpenCL code: use as much or as few of cf4ocl required for your project, with full access to the underlying OpenCL objects and functions at all times.
- Object-oriented interface to the OpenCL API
* New/destroy functions, no direct memory alloc/free * Easy (and extensible) device selection * Simple event dependency mechanism * User-friendly error management
- OpenCL version and platform independent
- Integrated profiling
- Advanced device query utility
- Offline kernel compiler and linker
- Please note, this package is no longer being maintained. CONS is a replacement for 'make.' It is not compatible with make, but it offers features not found in make or other build tools including:
- integrated dependency analysis (no more "make depend" to generate static lists of .h files)
- complete, non-recursive dependency analysis across multiple directories;
- multiple side-by-side variant builds;
- compilation from MD5 signatures instead of time stamps for determining whether a file is up-to-date
- extensibility via Perl.
CONS is implemented in Perl. You don't need to know Perl to use CONS, although you can use it more powerfully if you do.
- Primary aim of the dinrhiw is to be linear algebra library and machine learning
library. For this reason dinrhiw implements PCA and neural
network codes. Currently, the neural network code only supports:
- hamiltonian monte carlo sampling (HMC) and simple bayesian neural network
- second order L-BFGS search
- gradient descent (backpropagation)
As well as mathematical routines for arbitrary precision mathematics, hermite curve interpolation and many other things.
- FFmpeg is a complete solution to record, convert and stream audio and video.
Its components include:
- ffmpeg – Converts one video file format to another and supports grabbing and encoding in real time from a TV card.
- ffserver – HTTP (RTSP is being developed) multimedia streaming server for live broadcasts that supports time shifting.
- ffplay – simple media player based on SDL and the ffmpeg libraries
- ffprobe – a media file prober
- libavcodec – library containing all FFmpeg audio/video encoders and decoders (most developed from scratch for best performances and high reusability)
- libavfilter – video and audio filtering library
- libavformat – library of parsers and generators for all common audio/video formats
- libavutil – utility library containing functions used by all FFmpeg components
- libswscale – video scaler and pixel format converter
- libswresample – audio resampler and sample format converter
- libpostproc – video post-processing library
- The GNU Make Standard Library (GMSL) is a group of functions implemented using native GNU Make functionality. It provides list and string manipulation, integer arithmetic, associative arrays, stacks, and debugging facilities.