-#!/bin/sh
+#!/bin/bash -noprofile
+
+####################################################################################
+# File : sip-4.2.1.sh
+# Created : Thu Dec 18 12:01:00 2002
+# Author : Vadim SANDLER, Open CASCADE SAS (vadim.sandler@opencascade.com)
+# Project : SALOME
+# Module : Installation Wizard
+# Copyright : 2002-2007 CEA
+#
+# This script is the part of the SALOME installation procedure.
+#
+####################################################################################
check_version()
{
return 1
}
-print_env()
+print_env_bin()
{
cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
#$DELIM ${PRODUCT_TYPE} $DELIM
##
EOF
(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" "${INSTALL_PRODUCTS}"
}
-# looks for the native product and collects it's environment (used by make_env())
-# we need version 4.1 or newer
-try_native(){
-sipdir="`find_in_path sip ${PATH}:/usr/bin`"
-if [ -n "${sipdir}" ] ; then
- python_version="`python -c 'import sys; print sys.version[:3]'`"
-if test `uname -m` = "x86_64" ; then
- sippython="`find_in_path sip.so ${PYTHONPATH}:/usr/lib64/python${python_version}/site-packages`"
-else
- sippython="`find_in_path sip.so ${PYTHONPATH}:/usr/lib/python${python_version}/site-packages`"
-fi
- if [ -n "${sippython}" ]; then
- ver=`${sipdir}/sip -V | awk '{print $1}'`
- maj_ver=`echo $ver | awk -F. '{if(NF>0) print $1; else print 0}' | sed -e 's/^\([0-9]*\).*$/\1/'`
- min_ver=`echo $ver | awk -F. '{if(NF>1) print $2; else print 0}' | sed -e 's/^\([0-9]*\).*$/\1/'`
- rel_ver=`echo $ver | awk -F. '{if(NF>2) print $3; else print 0}' | sed -e 's/^\([0-9]*\).*$/\1/'`
- let ver=$maj_ver*10000+$min_ver*100+$rel_ver
- # minimal required version is 4.1
- if [ $ver -ge 40100 ] ; then
- tmp="${sipdir} ${sipdir} \${PATH} ${PATH}";
- path=`sort_path ${tmp}`
- tmp="${sippython} ${sippython} \${LD_LIBRARY_PATH} ${LD_LIBRARY_PATH}";
- ld_library_path=`sort_path ${tmp}`
- tmp="${sippython} ${sippython} \${PYTHONPATH} ${PYTHONPATH}";
- pythonpath=`sort_path ${tmp}`
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PATH=${path}
-export PYTHONPATH=${pythonpath}
-export LD_LIBRARY_PATH=${ld_library_path}
+print_env_src()
+{
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}_src.sh <<EOF
+#$DELIM ${PRODUCT_TYPE}_src $DELIM
+# nothing to do
##
EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
- fi
- fi
-fi
-return 1
+(test -w ${PRODUCT_DIR}_SRC && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}_src.sh ${PRODUCT_DIR}_SRC)
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" "${INSTALL_PRODUCTS}"
}
try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" "${INSTALL_PRODUCTS}" ${PRODUCT_TYPE}
+try_existing ${PRODUCT_DIR}_SRC ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" "${INSTALL_PRODUCTS}" ${PRODUCT_TYPE}_src
return $?
}
install_source()
{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" "${INSTALL_PRODUCTS}" ${PRODUCT_TYPE}_src
source ${INSTALL_WORK}/$SHRC
-makedir ${PRODUCT_DIR}
+check_jb tar xfz ${SOURCE_DIR}/${PRODUCT}.tar.gz -C ${INSTALL_ROOT}
-check_jb tar xfz ${SOURCE_DIR}/sip-4.2.1.tar.gz -C ${INSTALL_WORK}
+# apply patch for 64-bit platforms
+if test `uname -m` = "x86_64" ; then
+ if [ -f patches/sip-4.2.1-lib64.patch ] ; then
+ cp patches/sip-4.2.1-lib64.patch ${PRODUCT_DIR}_SRC
+ ( cd ${PRODUCT_DIR}_SRC ; patch -p1 < sip-4.2.1-lib64.patch )
+ fi
+fi
- if test `uname -m` = "x86_64" ; then
- cp sip-4.2.1.patch ${PRODUCT_WORK}
- cd ${PRODUCT_WORK}
- patch -p 1 -i sip-4.2.1.patch
- else
- cd ${PRODUCT_WORK}
- fi
+# to generate environment scripts
+try_preinstalled
+}
+
+install_source_and_build()
+{
+# install sources
+install_source
- if test `uname -m` = "x86_64" ; then
- SIP_CONFIGURE_OPTIONS="-b ${PRODUCT_DIR} -d ${PRODUCT_DIR} -e ${PRODUCT_DIR} -v ${PRODUCT_DIR} -l qt-mt -p linux-g++-64"
- else
- SIP_CONFIGURE_OPTIONS="-b ${PRODUCT_DIR} -d ${PRODUCT_DIR} -e ${PRODUCT_DIR} -v ${PRODUCT_DIR} -l qt-mt"
- fi
+# build sources
+makedir ${PRODUCT_DIR}
+cd ${PRODUCT_DIR}_SRC
+
+if test `uname -m` = "x86_64" ; then
+ SIP_CONFIGURE_OPTIONS="-b ${PRODUCT_DIR} -d ${PRODUCT_DIR} -e ${PRODUCT_DIR} -v ${PRODUCT_DIR} -l qt-mt -p linux-g++-64"
+else
+ SIP_CONFIGURE_OPTIONS="-b ${PRODUCT_DIR} -d ${PRODUCT_DIR} -e ${PRODUCT_DIR} -v ${PRODUCT_DIR} -l qt-mt"
+fi
check_job ${PRODUCT_DIR}/CONFIGURE.LOG \
python configure.py $SIP_CONFIGURE_OPTIONS
check_job ${PRODUCT_DIR}/MAKE.LOG make
check_job ${PRODUCT_DIR}/INSTALL.LOG make install
-#du -sk ${PRODUCT_WORK} > ${PRODUCT_DIR}/size.log
-cd ${PRODUCT_DIR}; rm -fr ${PRODUCT_WORK}
-print_env
+#du -sk ${PRODUCT_DIR}_SRC > ${PRODUCT_DIR}/size.log
+cd ${PRODUCT_DIR};
+
+# remove sources and temporary files after building
+if [ ${REMOVE_SRC_TMP} == "TRUE" ] ; then
+ test -d ${PRODUCT_DIR}_SRC && rm -fr ${PRODUCT_DIR}_SRC
+fi
+
+# to generate environment scripts
+try_preinstalled
}
install_binary()
{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" "${INSTALL_PRODUCTS}" ${PRODUCT_TYPE}
source ${INSTALL_WORK}/$SHRC
-check_jb tar xfz ${SOURCE_DIR}/sip-4.2.1.tar.gz -C ${INSTALL_ROOT}
+check_jb tar xfz ${SOURCE_DIR}/${PRODUCT}.tar.gz -C ${INSTALL_ROOT}
# modify sipconfig.py file
if [ -n "${PYTHONHOME}" ] && [ -n "${QTDIR}" ] ; then
rm sipconfig.py.1
fi
-print_env
+# to generate environment scripts
+try_preinstalled
}
export PROCEDURE=$1;
export SOURCE_DIR=$3;
export INSTALL_ROOT=$4;
export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="sip" ; fi
+export PRODUCT_TYPE=$6;
+export INSTALL_PRODUCTS=$7;
+shift
+REMOVE_SRC_TMP=$8;
export PRODUCT="sip-4.2.1"
export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
