== Download and installation === Obtaining the Waf file The Waf project is located on http://code.google.com/p/waf[Google Code]. The current Waf version requires an interpreter for the Python programming language such as http://www.python.org[cPython] 2.3 to 3.1 or http://www.jython.org[Jython] >= 2.5. ==== Downloading and using the Waf binary The Waf binary is a python script which does not require any installation whatsoever. It may be executed directly from a writable folder. Just rename it as +waf+ if necessary: [source,shishell] --------------- $ wget http://waf.googlecode.com/files/waf-1.7.0 $ mv waf-1.7.0 waf $ python waf --version waf 1.7.0 (54dc13ba5f51bfe2ae277451ec5ac1d0a91c7aaf) --------------- The +waf+ file has its own library compressed in a binary stream in the same file. Upon execution, the library is uncompressed in a hidden folder in the current directory. The folder will be re-created if removed. This scheme enables different Waf versions to be executed from the same folders: [source,shishell] --------------- $ ls -ld .waf* .waf-1.7.0-2c924e3f453eb715218b9cc852291170 --------------- NOTE: The binary file requires http://docs.python.org/library/bz2.html[bzip2] compression support, which may be unavailable in some self-compiled cPython installations. ==== Building Waf from the source code Building Waf requires a Python interpreter having a version number in the range 2.6-3.1. The source code is then processed to support Python 2.3, 2.4 and 2.5. [source,shishell] --------------- $ wget http://waf.googlecode.com/files/waf-1.7.0.tar.bz2 $ tar xjvf waf-1.7.0.tar.bz2 $ cd waf-1.7.0 $ python waf-light Configuring the project 'build' finished successfully (0.001s) Checking for program python : /usr/bin/python Checking for python version : (2, 6, 5, 'final', 0) 'configure' finished successfully (0.176s) Waf: Entering directory `/waf-1.7.0/build' [1/1] create_waf: -> waf Waf: Leaving directory `/waf-1.7.0/build' 'build' finished successfully (2.050s) --------------- For older interpreters, it is possible to build the +waf+ file with gzip compression instead of bzip2: [source,shishell] --------------- $ python waf-light --zip-type=gz --------------- The files present in the folder _waflib/extras_ represent extensions (Waf tools) that are in a testing phase. They may be added to the Waf binary by using the _--tools_ switch: [source,shishell] --------------- $ python waf-light --tools=compat15,swig,doxygen --------------- The tool _compat15_ is required to provide some compatibility with previous Waf versions. To remove it, it is necessary to modify the initialization by changing the _--prelude_ switch: [source,shishell] --------------- $ python waf-light --make-waf --prelude='' --tools=swig --------------- Finally, here is how to import an external tool and load it in the initialization. Assuming the file `aba.py` is present in the current directory: [source,python] --------------- def foo(): from waflib.Context import WAFVERSION print("This is Waf %s" % WAFVERSION) --------------- The following will create a custom waf file which will import and execute 'foo' whenever it is executed: [source,shishell] --------------- $ python waf-light --make-waf --tools=compat15,$PWD/aba.py --prelude=$'\tfrom waflib.extras import aba\n\taba.foo()' $ ./waf --help This is Waf 1.7.0 [...] --------------- Foreign files to add into the folder 'extras' must be given by absolute paths in the _--tools_ switch. Such files do not have to be Python files, yet, a typical scenario is to add an initializer to modify existing functions and classes from the Waf modules. Various from the http://code.google.com/p/waf/source/browse/trunk/build_system_kit/[build system kit] illustrate how to create custom build systems derived from Waf. === Using the Waf file ==== Permissions and aliases Because the waf script is a python script, it is usually executed by calling +python+ on it: [source,shishell] --------------- $ python waf --------------- On unix-like systems, it is usually much more convenient to set the executable permissions and avoid calling +python+ each time: [source,shishell] --------------- $ chmod 755 waf $ ./waf --version waf 1.7.0 (54dc13ba5f51bfe2ae277451ec5ac1d0a91c7aaf) --------------- If the command-line interpreter supports aliases, it is recommended to set the alias once: [source,shishell] --------------- $ alias waf=$PWD/waf $ waf --version waf 1.7.0 (54dc13ba5f51bfe2ae277451ec5ac1d0a91c7aaf) --------------- Or, the execution path may be modified to point at the location of the waf binary: [source,shishell] --------------- $ export PATH=$PWD:$PATH $ waf --version waf 1.7.0 (54dc13ba5f51bfe2ae277451ec5ac1d0a91c7aaf) --------------- In the next sections of the book, we assume that either an alias or the execution path have been set in a way that +waf+ may be called directly. ==== Local waflib folders Although the waf library is unpacked automatically from the waf binary file, it is sometimes necessary to keep the files in a visible folder, which may even be kept in a source control tool (subversion, git, etc). For example, the +waf-light+ script does not contain the waf library, yet it is used to create the +waf+ script by using the directory +waflib+. The following diagram represents the process used to find the +waflib+ directory: image::waflib{PIC}["Waflib discovery"{backend@docbook:,width=220:},align="center"] ==== Portability concerns By default, the recommended Python interpreter is cPython, for which the supported versions are 2.3 to 3.1. For maximum convenience for the user, a copy of the http://www.jython.org[Jython] interpreter in the version 2.5 may be redistributed along with a copy of the Waf executable. NOTE: A project containing 'waf', 'jython2.5.jar' and the source code may be used almost anywhere. WARNING: The 'waf' script must reside in a writable folder to unpack its cache files.