Waf is a Python-based framework for configuring, compiling and installing applications. Here are perhaps the most important features of Waf:
* *Automatic build order*: the build order is computed from input and output files, among others
* *Automatic dependencies*: tasks to execute are detected by hashing files and commands
* *Performance*: tasks are executed in parallel automatically, the startup time is meant to be fast (separation between configuration and build)
* *Flexibility*: new commands and tasks can be added very easily through subclassing, bottlenecks for specific builds can be eliminated through dynamic method replacement
* *Extensibility*: though many programming languages and compilers are already supported by default, many others are available as extensions
* *IDE support*: Eclipse, Visual Studio and Xcode project generators (waflib/extras/)
* *Documentation*: the application is based on a robust model documented in [The Waf Book](https://waf.io/book/) and in the [API docs](https://waf.io/apidocs/)
Waf is used in particular by innovative companies such as [Avalanche Studios](http://www.avalanchestudios.se) and by open-source projects such as [RTEMS](https://www.rtems.org/). Learn more about Waf by reading [The Waf Book](https://waf.io/book/).
For researchers and build system writers, Waf also provides a framework for creating [custom build systems](https://github.com/waf-project/waf/tree/master/build_system_kit) and [package distribution systems](https://github.com/waf-project/waf/tree/master/playground/distnet/README.rst).
Download the project from our page on [waf.io](https://waf.io/) or from a mirror on [freehackers.org](http://www.freehackers.org/~tnagy/release/), consult the [manual](https://waf.io/book/), the [API documentation](https://waf.io/apidocs/) and the [showcases](https://github.com/waf-project/waf/tree/master/demos) and [experiments](https://github.com/waf-project/waf/tree/master/playground).