Build from source

From Octave
Revision as of 14:01, 1 March 2012 by Jwe (talk | contribs) (→‎Test)
Jump to navigation Jump to search

Compiling from source is probably the most effective way of installing Octave on your system. To do this you will require compilers for the following languages:

  • C
  • C++ (ISO)
  • Fortran

The best supported compilers for the job are the GNU Compiler Collection. You will require at least GCC 4.3 or later, although GCC 4.4 or later is recommended.

To compile Octave, you will also need a recent version of GNU Make. You must have GNU Make to compile octave. Octave's Makefiles use features of GNU Make that are not present in other versions of make. GNU Make is very portable and easy to install.

Introduction

Building Octave can be as simple as downloading the source and running the following three commands in your Linux shell:

./configure
make
make install

More detailed instructions for building from source are included in the Octave manual.

Install

Finally, to install Octave on your system run

make install

Alternatively, If you have checkinstall on your system issue

checkinstall -D

This will create a deb from the sources and register the installation with dpkg.

checkinstall -R

will create RPM package which you can install using your package manager in RPM based distributions.

System Specific Instructions

Distributed building

Requirements

The following seems to be out of date for my Ubuntu setup. My suggestion would be to look at the latest info for distcc and follow the instructions from there. Make sure the different machines have the same software. DAS


distcc
ccache

Install distcc on all machines taking part in the compilation. List them in ~/.distcc/hosts:

localhost
pc1.mynet.org
pc2.mynet.org

The first machines listed are given higher priority -- place 'localhost' as you see fit.

Set the environment variables CCACHE_PREFIX, CXX and CC:

export CCACHE_PREFIX="distcc"
export CXX="ccache g++"
export CC="ccache gcc"
./configure <options>

Compile using the -j<simultaneous-jobs> flag, two jobs per CPU available, i.e. for 5 machines

make -j10