================================================================= Installation instructions, up to date for 3.0 version ================================================================= *html version of this document is produced with docutils*:: rst2html < doc.txt > doc.html *This document corresponds to SALOME2 2.2.9.* *IT IS NOT UP TO DATE with 3.2.0* .. contents:: .. sectnum:: +-------------------------------------------+ | **WORK in PROGRESS, INCOMPLETE DOCUMENT** | +-------------------------------------------+ ------------------------------------------------------------------------------- You'll find here generic instructions for installing the SALOME2 platform. Summary ------- `1. Quick Overview`_ `2. System configuration`_ `3. Third-party dependencies`_ `4. Preparing the shell environment`_ `5. Installing the KERNEL component`_ `6. Installing the SALOME components`_ `7. Runtime`_ `8. Suggestions and advices`_ 1. Quick Overview ----------------- First of all, you have to check (or install if needed) the dependant software programs on your system. These programs are: - common development tools as gcc, automake, autoconf and libtools. - third party softwares used in SALOME building or runtime process (python, OCC, VTK, ...) Further details can be found in sections [2] and [3]. If the dependencies are installed on your system, then you have to set your shell environment to get access to the software components (cf. [4]. "Preparing the shell environment"). The next step is to install the KERNEL (cf. [5] "Installing KERNEL"): :: $ mkdir $ mkdir $ cd $ ./build_configure $ cd $ /configure --prefix= $ make $ make install Then, the SALOME components GEOM, MED, VISU, ... can be installed with a similar procedure (cf. [6]). Eventually, the platform can be run by executing the shell script runSalome (cf. [7]). Here, somme additionnal variables have to be set to describe the SALOME runtime configuration (_ROOT_DIR, OMNIORB_CONFIG) The following provides you with specific instructions for each step. 2. System configuration ----------------------- SALOME is compiled and tested on differents platforms with native packages: - Debian sarge - Mandrake 10.1 - ... If you have another platform, we suggest the following configuration for building process: - gcc-3.3.x or 3.4.x - automake-1.7 or more (only aclocal is used) - autoconf-2.59 - libtool-1.5.6 remarks: - This is the minimum level of automake, autoconf and libtool, if you need to compile all the third party softwares (included OpenCascade 5.2.x). 3. Third-party dependencies --------------------------- The SALOME platform relies on a set of third-party softwares. The current version depends on the following list (versions given here are from Debian Sarge, except OpenCascade, VTK and MED, which are not Debian packages): CAS-5.2.4 OpenCascade (try binaries,a source patch is needed) VTK-4.2.6 VTK 3D-viewer PyQt-3.13 Python-Qt Wrapper Python-2.3.5 Python interpreter SWIG-1.3.24 SWIG library boost-1_32_0 C++ library (only include templates are used) hdf5-1.6.2 Files Database library med-2.2.2 MED Data Format support for file records omniORB-4.0.5 ORB used in SALOME qt-x11-free-3.3.3 Qt library qwt-4.2 Graph components for Qt sip4-4.1.1 langage binding software And, in order to build the documentation: doxygen-1.4.2 graphviz-2.2.1 Additionnal software may be installed for optional features: netgen4.3 + patch tix8.1.4 openpbs-2.3.16 lsf-??? 3.1 To Do ~~~~~~~~~ - Instructions for installing these software programs can be found in a special note doc/configuration_examples/install-prerequis. - Installation shell scripts are also provided. These scripts have to be adapted to your own configuration. - See doc/configuration_examples/* In the following, we assume that all the third-party softwares are installed in the same root directory, named /prerequis. Then, your file system should probably look like:: /prerequis/Python-2.2.2 /prerequis/omniORB-3.0.5 /prerequis/qt-x11-free-3.0.5 ... 4. Preparing the shell environment ---------------------------------- Some variables have to be set to get acces to third-party software components (include files, executable, library, ...) during building process and runtime. The shell file prerequis.sh, embedded in the KERNEL source package, provides a template for setting those variables. In this example, all the softwares are supposed to be installed in the same root directory, named here INSTALLROOT. Copy the prerequis.sh in a working directory and adjust the settings to your own configuration. To get the shell prepared, just execute the following command in the building shell: $ source prerequis.sh (we assume here a ksh or bash mode) 5. Installing the KERNEL component ---------------------------------- We use here the notation to specify the source directory of the KERNEL component. The shell environment is supposed to have been set (cf. 4). Installing the KERNEL from a source package needs three directories: - the source directory, denoted here by . - the build directory, denoted by in the following. This directory can't be the same directory as . - the install directory, denoted by in the following. This directory can't be the same directory as or . The installing process is: STEP 1: preparing directories create the and the directories:: $ mkdir $ mkdir STEP 2: build configure script go to directory and generate the "configure" script:: $ cd $ ./build_configure If it doesn't work, check your system automake tools as specified in section [2]. STEP 3: configure the building process go to the build directory and execute the configuration process:: $ cd $ /configure --prefix= Note that must be an absolute path. When the configure process is complete, check the status of third-party softwares detection. You should have a status like:: --------------------------------------------- Summary --------------------------------------------- Configure cc : yes boost : yes lex_yacc : yes python : yes swig : yes threads : yes OpenGL : yes qt : yes vtk : yes hdf5 : yes med2 : yes omniORB : yes occ : yes sip : yes pyqt : yes qwt : yes doxygen : yes graphviz : no openpbs : no lsf : no Default ORB : omniORB ---------------------------------------------- If a software get a status "no", then it's not "seen" in the system: - the software is not installed, or - the shell environment is not set correctly. In this example, the software programs graphviz, openpbs and lsf are not installed (optional for most usages). STEP 4 : Building the binary files Execute make in the directory:: $ make STEP 5: Installing binary files, scripts and documentation Execute install target in the directory:: $ make install 6. Installing the SALOME components ----------------------------------- TInstalling a component is done by following the same instructions as given for the KERNEL, replacing KERNEL by (build_configure, configure, make, make install). You just have to be aware of the dependencies between components: - MED depends on KERNEL - GEOM depends on KERNEL - SMESH depends on KERNEL, MED, GEOM - VISU depends on KERNEL, MED - SUPERV depends on KERNEL For example, installing the component SMESH needs the previous installation of the KERNEL component, and then the GEOM and MED components. The building process uses the variables _ROOT_DIR to localize the dependant components. The variables must be set to the install path directory of the components (ex: KERNEL_ROOT_DIR=). In the above example, the three variables KERNEL_ROOT_DIR, GEOM_ROOT_DIR and MED_ROOT_DIR have to be set before configuring the building process of the SMESH component (STEP 3). 7. Runtime ---------- See SALOME_Application_ to define your own configuration of SALOME and run it on one or several computers. This is the recommended way of configuration. .. _SALOME_Application: ./SALOME_Application.html The following explains the general principles. To run the SALOME platform, the procedure is: - set the shell environment to get acces to third-party softwares:: $ source prerequis.sh - define the SALOME configuration by setting the whole set of variables _ROOT_DIR. Here, you just have to set the kernel and the components you need:: $ export KERNEL_ROOT_DIR= $ export MED_ROOT_DIR= $ ... - define the CORBA configuration file by setting the variable OMNIORB_CONFIG. This variable must be set to a writable file path. The file may be arbitrary chosen and doesn't need to exist before running. We suggest:: $ export OMNIORB_CONFIG=$HOME/.omniORB.cfg - run the SALOME platform by executing the script runSalome:: $KERNEL_ROOT_DIR/bin/salome/runSalome 8. Suggestions and advices -------------------------- For convenience or customization, we suggest the following organisation: - chose and create a root directory for the SALOME platform, say . - install the third-party softwares in a sub-directory "prerequis" - install the SALOME components in a sub-directory "SALOME2" - make personnal copies of the files prerequis.sh and runSalome in :: $ cp /prerequis.sh /. $ cp /bin/salome/runSalome /. Edit the file prerequis.sh and adjust it to your own configuration. - define the SALOME2 configuration This step consists in setting the KERNEL_ROOT_DIR, the whole set of variables _ROOT_DIR you need, and the OMNIORB_CONFIG variable. We suggest to create a shell file envSalome.sh containing those settings. Then the configuration consists in loading envSalome.sh in the runtime shell:: $ source envSalome.sh - When installed with this file organisation, running SALOME is done with the following shell commands:: $ source /prerequis.sh $ source /envSalome.sh $ ./runSalome ------------------------------------------------------------------------------- +----------------------------------+------------------------------------------+ | `General KERNEL documentation`_ | `End User KERNEL Doxygen documentation`_ | +----------------------------------+------------------------------------------+ .. _`General KERNEL documentation`: ./index.html .. _`End User KERNEL Doxygen documentation`: ./tui/KERNEL/index.html