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Backup[edit]


Clone the sources[edit]

The latest development sources of Octave are available via this Mercurial archive. With Mercurial and git installed you get the latest development version of Octave sources with the following command:

hg clone http://www.octave.org/hg/octave 

This will clone two repositories, one of which is subrepository of the main Octave repository. Once you have these, you can resync with the archive by doing

hg -v pull 
hg -v update

The -v option is not required but provides extra information about what was pulled and updated.

If you decide to use the development sources from the Mercurial archive, please read the file etc/HACKING that is available with the source files.

Build tools[edit]

The following is lifted from the manual (G.1.2) and etc/HACKING the 2013-06-14, if the current date is much different and your build fails because of missing requirements, please follow the links and see if they have been updated.

The following tools are required:

C++, C, and Fortran compilers The Octave sources are primarily written in C++, but some portions are also written in C and Fortran. The Octave sources are intended to be portable. Recent versions of the GNU compiler collection (GCC) should work (http://gcc.gnu.org). If you use GCC, you should avoid mixing versions. For example, be sure that you are not using the obsolete g77 Fortran compiler with modern versions of gcc and g++.
GNU Make Tool for building software (http://www.gnu.org/software/make). Octave's build system requires GNU Make. Other versions of Make will not work. Fortunately, GNU Make is highly portable and easy to install.
AWK, sed, and other Unix utilities Basic Unix system utilities are required for building Octave. All will be available with any modern Unix system and also on Windows with either Cygwin or MinGW and MSYS.

Additionally, the following tools may be needed:

Bison Parser generator (http://www.gnu.org/software/bison). You will need Bison if you modify the oct-parse.yy source file or if you delete the files that are generated from it.
Flex Lexer analyzer (http://www.gnu.org/software/flex). You will need Flex if you modify the lex.ll source file or if you delete the files that are generated from it.
Autoconf Package for software configuration (http://www.gnu.org/software/autoconf). Autoconf is required if you modify Octave's configure.ac file or other files that it requires.
Automake Package for Makefile generation (http://www.gnu.org/software/automake). Automake is required if you modify Octave's Makefile.am files or other files that they depend on.
Libtool Package for building software libraries (http://www.gnu.org/software/libtool). Libtool is required by Automake.
Gnulib <http://www.gnu.org/software/gnulib/>
gperf <http://www.gnu.org/software/gperf/>
Gzip <http://www.gnu.org/software/gzip/>
Mercurial <http://mercurial.selenic.com/>
Perl <http://www.cpan.org/>
Rsync <http://samba.anu.edu.au/rsync/>
Tar <http://www.gnu.org/software/tar/>

Run the bootstrap script[edit]

The following are abridged instructiongs from etc/HACKING.

After cloning Octave, you will need to run the bootstrap script:

$ ./bootstrap

Running this script will result in the createion of the configure script. The bootstrap script comes from gnulib, but is kept in the Octave source archive. It should be updated from the gnulib sources as necessary.

If you have a copy of gnulib in some directory apart from the Octave source tree, then pass the name of the directory containing gnulib-tool to the bootstrap script using the option:

--gnulib-srcdir=DIRNAME

Additional options besides --gnulib-srcdir can be passed to bootstrap and they will be forwarded without modification to the gnulib bootstrap script.

Once the bootstrap script completes successfully, you may configure and build Octave.

Configure the build[edit]

It is very recommended that you build Octave in a separate directory tree from the sources. For convenience we recommend a subdirectory to the main octave directory. For example, after you finished running the bootstrap script (takes a few seconds), run the following commands to create a build tree, configure, and build Octave:

$ mkdir octave_build_directory
$ cd octave_build_directory
$ ../configure

configure takes many command line arguments that allow some customization of the resulting makefile, and they are detailed in the manual.

Running configure will take about half a minute. After it's finished, and if you are satisfied with the result, just run make

$ make

Building octave will take something on the scale of hours, the exact amount depending on if the programmers or cpu engineers are ahead in the eternal race of performance versus cruft. The best thing to do is to leave it over lunch, or possibly overnight if it's late. You probably should sleep more anyway Jonathan.

Build dependencies[edit]

The manual lists the following as required packages:

BLAS Basic Linear Algebra Subroutine library (http://www.netlib.org/blas). Accelerated BLAS libraries such as ATLAS (http://math-atlas.sourceforge.net) are recommeded for better performance.
LAPACK Linear Algebra Package (http://www.netlib.org/lapack).
PCRE The Perl Compatible Regular Expression library (http://www.pcre.org).
GNU Readline Command-line editing library (www.gnu.org/s/readline). Readline is technically optional, but it is strongly recommended.

Beyond these, there are several more optional dependencies that configure will complain about, look in the manual for the complete list. If you are installing the dependencies with synaptic, you need to get the development versions of the libraries or configure will not find them.

Run make[edit]

You will need a recent version of GNU Make as Octave relies on certain features not generally available in all versions of make. Octave requires approximately 1.4 GB of disk storage to unpack and compile from source (significantly less, 400 MB, if you don't compile with debugging symbols). To compile without debugging symbols try the command

$ make CFLAGS=-O CXXFLAGS=-O LDFLAGS=

If you encounter errors while compiling Octave, first search the web to see if there is a workaround or solution for your problem. If not, see Trouble, for information about how to report bugs.

Once you have successfully compiled Octave, run

$ make install

This will install a copy of Octave, its libraries, and its documentation in the destination directory. As distributed, Octave is installed in the following directories. In the table below, prefix defaults to /usr/local, version stands for the current version number of the interpreter, and arch is the type of computer on which Octave is installed (for example, ‘i586-unknown-gnu’).

prefix/bin Octave and other binaries that people will want to run directly.
prefix/lib/octave-version Libraries like libcruft.a and liboctave.a.
prefix/octave-version/include/octave Include files distributed with Octave.
prefix/share Architecture-independent data files.
prefix/share/man/man Unix-style man pages describing Octave.
prefix/share/info Info files describing Octave.
prefix/share/octave/version/m Function files distributed with Octave. This includes the Octave version, so that multiple versions of Octave may be installed at the same time.
prefix/libexec/octave/version/exec/arch Executables to be run by Octave rather than the user.
prefix/lib/octave/version/oct/arch Object files that will be dynamically loaded.
prefix/share/octave/version/imagelib Image files that are distributed with Octave.