+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${COMPONENT_ROOT_DIR}" ]; then
- check_lib_version VERSION ${COMPONENT_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${COMPONENT_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export COMPONENT_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${COMPONENT_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${COMPONENT_ROOT_DIR}/lib/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export COMPONENT_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${COMPONENT_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${COMPONENT_ROOT_DIR}/lib/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/COMPONENTbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="ComponentBin" ; fi
-export PRODUCT="COMPONENT_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${COMPONENT_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${COMPONENT_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${COMPONENT_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export COMPONENT_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${COMPONENT_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${COMPONENT_ROOT_DIR}/lib/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export COMPONENT_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${COMPONENT_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${COMPONENT_ROOT_DIR}/bin/salome:\${COMPONENT_ROOT_DIR}/lib/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome:\${COMPONENT_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/COMPONENTbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="ComponentBin" ; fi
+export PRODUCT="COMPONENT_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${COMPONENT_SRC_DIR}" ]; then
- check_lib_version VERSION ${COMPONENT_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${COMPONENT_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export COMPONENT_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export COMPONENT_SRC_DIR=${COMPONENT_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/COMPONENTsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="ComponentSrc" ; fi
-export PRODUCT="COMPONENT_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${COMPONENT_SRC_DIR}" ]; then
+ check_lib_version VERSION ${COMPONENT_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${COMPONENT_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export COMPONENT_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export COMPONENT_SRC_DIR=${COMPONENT_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/COMPONENTsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="ComponentSrc" ; fi
+export PRODUCT="COMPONENT_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${GEOM_ROOT_DIR}" ]; then
- check_lib_version VERSION ${GEOM_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${GEOM_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GEOM_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${GEOM_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${GEOM_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${GEOM_ROOT_DIR}/bin/salome:\${GEOM_ROOT_DIR}/lib/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GEOM_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${GEOM_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${GEOM_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${GEOM_ROOT_DIR}/bin/salome:\${GEOM_ROOT_DIR}/lib/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/GEOMbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GeomBin" ; fi
-export PRODUCT="GEOM_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${GEOM_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${GEOM_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${GEOM_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GEOM_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${GEOM_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${GEOM_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${GEOM_ROOT_DIR}/bin/salome:\${GEOM_ROOT_DIR}/lib/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GEOM_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${GEOM_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${GEOM_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${GEOM_ROOT_DIR}/bin/salome:\${GEOM_ROOT_DIR}/lib/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome:\${GEOM_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/GEOMbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GeomBin" ; fi
+export PRODUCT="GEOM_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${GEOM_SRC_DIR}" ]; then
- check_lib_version VERSION ${GEOM_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${GEOM_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GEOM_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GEOM_SRC_DIR=${GEOM_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/GEOMsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GeomSrc" ; fi
-export PRODUCT="GEOM_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${GEOM_SRC_DIR}" ]; then
+ check_lib_version VERSION ${GEOM_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${GEOM_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GEOM_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GEOM_SRC_DIR=${GEOM_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/GEOMsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GeomSrc" ; fi
+export PRODUCT="GEOM_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${GHS3DPLUGIN_ROOT_DIR}" ]; then
- check_lib_version VERSION ${GHS3DPLUGIN_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${GHS3DPLUGIN_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
- return 0
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GHS3DPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export LD_LIBRARY_PATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${GHS3DPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GHS3DPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export LD_LIBRARY_PATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${GHS3DPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/GHS3DPLUGINbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GHS3DPLUGINBin" ; fi
-export PRODUCT="GHS3DPLUGIN_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${GHS3DPLUGIN_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${GHS3DPLUGIN_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${GHS3DPLUGIN_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+ return 0
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GHS3DPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export LD_LIBRARY_PATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${GHS3DPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GHS3DPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export LD_LIBRARY_PATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${GHS3DPLUGIN_ROOT_DIR}/lib/salome:\${GHS3DPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/GHS3DPLUGINbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GHS3DPLUGINBin" ; fi
+export PRODUCT="GHS3DPLUGIN_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${GHS3DPLUGIN_SRC_DIR}" ]; then
- check_lib_version VERSION ${GHS3DPLUGIN_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${GHS3DPLUGIN_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
- return 0
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GHS3DPLUGIN_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export GHS3DPLUGIN_SRC_DIR=${GHS3DPLUGIN_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/GHS3DPLUGINsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GHS3DPLUGINSrc" ; fi
-export PRODUCT="GHS3DPLUGIN_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${GHS3DPLUGIN_SRC_DIR}" ]; then
+ check_lib_version VERSION ${GHS3DPLUGIN_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${GHS3DPLUGIN_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+ return 0
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GHS3DPLUGIN_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export GHS3DPLUGIN_SRC_DIR=${GHS3DPLUGIN_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/GHS3DPLUGINsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="GHS3DPLUGINSrc" ; fi
+export PRODUCT="GHS3DPLUGIN_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-#we don't know anything about version
-return 0
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export HELLO1_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export HELLO1_SRC_DIR=${HELLO1_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/HELLO1sourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="Hello1Src" ; fi
-export PRODUCT="HELLO1_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+#we don't know anything about version
+return 0
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export HELLO1_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export HELLO1_SRC_DIR=${HELLO1_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/HELLO1sourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="Hello1Src" ; fi
+export PRODUCT="HELLO1_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${KERNEL_ROOT_DIR}" ]; then
- check_lib_version VERSION ${KERNEL_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${KERNEL_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export KERNEL_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${KERNEL_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${KERNEL_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${KERNEL_ROOT_DIR}/bin/salome:\${KERNEL_ROOT_DIR}/lib/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export KERNEL_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${KERNEL_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${KERNEL_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${KERNEL_ROOT_DIR}/bin/salome:\${KERNEL_ROOT_DIR}/lib/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/KERNELbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-# The next two symbolic links are created only for Red Hat 9
-if [ -f /lib/libcrypto.so.0.9.7a ]; then
- ln -sf /lib/libcrypto.so.0.9.7a ${PRODUCT_DIR}/lib/salome/libcrypto.so.2
-fi
-if [ -f /lib/libssl.so.0.9.7a ]; then
- ln -sf /lib/libssl.so.0.9.7a ${PRODUCT_DIR}/lib/salome/libssl.so.2
-fi
-
-print_env
-}
-
-pickup_env()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE} ${PRODUCT_DIR}
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="KernelBin" ; fi
-export PRODUCT="KERNEL_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${KERNEL_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${KERNEL_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${KERNEL_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export KERNEL_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${KERNEL_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${KERNEL_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${KERNEL_ROOT_DIR}/bin/salome:\${KERNEL_ROOT_DIR}/lib/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export KERNEL_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${KERNEL_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${KERNEL_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${KERNEL_ROOT_DIR}/bin/salome:\${KERNEL_ROOT_DIR}/lib/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome:\${KERNEL_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/KERNELbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+# The next two symbolic links are created only for Red Hat 9
+if [ -f /lib/libcrypto.so.0.9.7a ]; then
+ ln -sf /lib/libcrypto.so.0.9.7a ${PRODUCT_DIR}/lib/salome/libcrypto.so.2
+fi
+if [ -f /lib/libssl.so.0.9.7a ]; then
+ ln -sf /lib/libssl.so.0.9.7a ${PRODUCT_DIR}/lib/salome/libssl.so.2
+fi
+
+print_env
+}
+
+pickup_env()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE} ${PRODUCT_DIR}
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="KernelBin" ; fi
+export PRODUCT="KERNEL_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${KERNEL_SRC_DIR}" ]; then
- check_lib_version VERSION ${KERNEL_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${KERNEL_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export KERNEL_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export KERNEL_SRC_DIR=${KERNEL_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/KERNELsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-pickup_env()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE} ${PRODUCT_DIR}
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="KernelSrc" ; fi
-export PRODUCT="KERNEL_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${KERNEL_SRC_DIR}" ]; then
+ check_lib_version VERSION ${KERNEL_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${KERNEL_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export KERNEL_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export KERNEL_SRC_DIR=${KERNEL_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/KERNELsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+pickup_env()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE} ${PRODUCT_DIR}
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="KernelSrc" ; fi
+export PRODUCT="KERNEL_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${MED_ROOT_DIR}" ]; then
- check_lib_version VERSION ${MED_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${MED_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export MED_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${MED_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${MED_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${MED_ROOT_DIR}/bin/salome:\${MED_ROOT_DIR}/lib/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export MED_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${MED_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${MED_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${MED_ROOT_DIR}/bin/salome:\${MED_ROOT_DIR}/lib/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/MEDbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="MedBin" ; fi
-export PRODUCT="MED_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${MED_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${MED_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${MED_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export MED_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${MED_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${MED_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${MED_ROOT_DIR}/bin/salome:\${MED_ROOT_DIR}/lib/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export MED_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${MED_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${MED_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${MED_ROOT_DIR}/bin/salome:\${MED_ROOT_DIR}/lib/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome:\${MED_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/MEDbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="MedBin" ; fi
+export PRODUCT="MED_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${MED_SRC_DIR}" ]; then
- check_lib_version VERSION ${MED_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${MED_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export MED_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export MED_SRC_DIR=${MED_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/MEDsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="MedSrc" ; fi
-export PRODUCT="MED_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${MED_SRC_DIR}" ]; then
+ check_lib_version VERSION ${MED_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${MED_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export MED_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export MED_SRC_DIR=${MED_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/MEDsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="MedSrc" ; fi
+export PRODUCT="MED_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${NETGENPLUGIN_ROOT_DIR}" ]; then
- check_lib_version VERSION ${NETGENPLUGIN_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${NETGENPLUGIN_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
- return 0
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export NETGENPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export LD_LIBRARY_PATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${NETGENPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export NETGENPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export LD_LIBRARY_PATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${NETGENPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/NETGENPLUGINbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="NETGENPLUGINBin" ; fi
-export PRODUCT="NETGENPLUGIN_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${NETGENPLUGIN_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${NETGENPLUGIN_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${NETGENPLUGIN_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+ return 0
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export NETGENPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export LD_LIBRARY_PATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${NETGENPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export NETGENPLUGIN_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export LD_LIBRARY_PATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${NETGENPLUGIN_ROOT_DIR}/lib/salome:\${NETGENPLUGIN_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/NETGENPLUGINbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="NETGENPLUGINBin" ; fi
+export PRODUCT="NETGENPLUGIN_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${NETGENPLUGIN_SRC_DIR}" ]; then
- check_lib_version VERSION ${NETGENPLUGIN_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${NETGENPLUGIN_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
- return 0
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export NETGENPLUGIN_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export NETGENPLUGIN_SRC_DIR=${NETGENPLUGIN_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/NETGENPLUGINsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="NETGENPLUGINSrc" ; fi
-export PRODUCT="NETGENPLUGIN_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${NETGENPLUGIN_SRC_DIR}" ]; then
+ check_lib_version VERSION ${NETGENPLUGIN_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${NETGENPLUGIN_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+ return 0
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export NETGENPLUGIN_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export NETGENPLUGIN_SRC_DIR=${NETGENPLUGIN_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/NETGENPLUGINsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="NETGENPLUGINSrc" ; fi
+export PRODUCT="NETGENPLUGIN_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${PYCALCULATOR_ROOT_DIR}" ]; then
- check_lib_version VERSION ${PYCALCULATOR_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${PYCALCULATOR_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PYCALCULATOR_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PATH}
-export PYTHONPATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PYCALCULATOR_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PYCALCULATOR_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PATH}
-export PYTHONPATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PYCALCULATOR_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/PYCALCULATORbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="PyCalculatorBin" ; fi
-export PRODUCT="PYCALCULATOR_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${PYCALCULATOR_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${PYCALCULATOR_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${PYCALCULATOR_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export PYCALCULATOR_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PATH}
+export PYTHONPATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PYCALCULATOR_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export PYCALCULATOR_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PATH}
+export PYTHONPATH=\${PYCALCULATOR_ROOT_DIR}/bin/salome:\${PYCALCULATOR_ROOT_DIR}/lib/python2.2/site-packages/salome:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/PYCALCULATORbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="PyCalculatorBin" ; fi
+export PRODUCT="PYCALCULATOR_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${PYCALCULATOR_SRC_DIR}" ]; then
- check_lib_version VERSION ${PYCALCULATOR_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${PYCALCULATOR_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PYCALCULATOR_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PYCALCULATOR_SRC_DIR=${PYCALCULATOR_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/PYCALCULATORsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="PyCalculatorSrc" ; fi
-export PRODUCT="PYCALCULATOR_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${PYCALCULATOR_SRC_DIR}" ]; then
+ check_lib_version VERSION ${PYCALCULATOR_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${PYCALCULATOR_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export PYCALCULATOR_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export PYCALCULATOR_SRC_DIR=${PYCALCULATOR_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/PYCALCULATORsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="PyCalculatorSrc" ; fi
+export PRODUCT="PYCALCULATOR_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-#we don't know anything about version
-return 0
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PYHELLO1_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export PYHELLO1_SRC_DIR=${PYHELLO1_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/PYHELLO1sourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="Hello1Src" ; fi
-export PRODUCT="PYHELLO1_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+#we don't know anything about version
+return 0
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export PYHELLO1_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export PYHELLO1_SRC_DIR=${PYHELLO1_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/PYHELLO1sourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="Hello1Src" ; fi
+export PRODUCT="PYHELLO1_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${SMESH_ROOT_DIR}" ]; then
- check_lib_version VERSION ${SMESH_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${SMESH_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SMESH_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${SMESH_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${SMESH_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${SMESH_ROOT_DIR}/bin/salome:\${SMESH_ROOT_DIR}/lib/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SMESH_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${SMESH_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${SMESH_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${SMESH_ROOT_DIR}/bin/salome:\${SMESH_ROOT_DIR}/lib/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/SMESHbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SmeshBin" ; fi
-export PRODUCT="SMESH_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${SMESH_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${SMESH_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${SMESH_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SMESH_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${SMESH_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${SMESH_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${SMESH_ROOT_DIR}/bin/salome:\${SMESH_ROOT_DIR}/lib/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SMESH_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${SMESH_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${SMESH_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${SMESH_ROOT_DIR}/bin/salome:\${SMESH_ROOT_DIR}/lib/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SMESH_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/SMESHbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SmeshBin" ; fi
+export PRODUCT="SMESH_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${SMESH_SRC_DIR}" ]; then
- check_lib_version VERSION ${SMESH_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${SMESH_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SMESH_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SMESH_SRC_DIR=${SMESH_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/SMESHsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SmeshSrc" ; fi
-export PRODUCT="SMESH_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${SMESH_SRC_DIR}" ]; then
+ check_lib_version VERSION ${SMESH_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${SMESH_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SMESH_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SMESH_SRC_DIR=${SMESH_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/SMESHsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SmeshSrc" ; fi
+export PRODUCT="SMESH_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${SUPERV_ROOT_DIR=}" ]; then
- check_lib_version VERSION ${SUPERV_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${SUPERV_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SUPERV_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${SUPERV_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${SUPERV_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${SUPERV_ROOT_DIR}/bin/salome:\${SUPERV_ROOT_DIR}/lib/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SUPERV_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${SUPERV_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${SUPERV_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${SUPERV_ROOT_DIR}/bin/salome:\${SUPERV_ROOT_DIR}/lib/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/SUPERVbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SupervBin" ; fi
-export PRODUCT="SUPERV_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${SUPERV_ROOT_DIR=}" ]; then
+ check_lib_version VERSION ${SUPERV_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${SUPERV_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SUPERV_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${SUPERV_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${SUPERV_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${SUPERV_ROOT_DIR}/bin/salome:\${SUPERV_ROOT_DIR}/lib/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SUPERV_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${SUPERV_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${SUPERV_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${SUPERV_ROOT_DIR}/bin/salome:\${SUPERV_ROOT_DIR}/lib/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome:\${SUPERV_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/SUPERVbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SupervBin" ; fi
+export PRODUCT="SUPERV_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${SUPERV_SRC_DIR}" ]; then
- check_lib_version VERSION ${SUPERV_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${SUPERV_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SUPERV_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export SUPERV_SRC_DIR=${SUPERV_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/SUPERVsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SupervSrc" ; fi
-export PRODUCT="SUPERV_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${SUPERV_SRC_DIR}" ]; then
+ check_lib_version VERSION ${SUPERV_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${SUPERV_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SUPERV_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export SUPERV_SRC_DIR=${SUPERV_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/SUPERVsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="SupervSrc" ; fi
+export PRODUCT="SUPERV_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${VISU_ROOT_DIR}" ]; then
- check_lib_version VERSION ${VISU_ROOT_DIR}/bin/salome
- if [ "$?" -eq "0" ]; then
- ver=`cat ${VISU_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export VISU_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${VISU_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${VISU_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${VISU_ROOT_DIR}/bin/salome:\${VISU_ROOT_DIR}/lib/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export VISU_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
-export PATH=\${VISU_ROOT_DIR}/bin/salome:\${PATH}
-export LD_LIBRARY_PATH=\${VISU_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
-export PYTHONPATH=\${VISU_ROOT_DIR}/bin/salome:\${VISU_ROOT_DIR}/lib/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-return 1
-}
-
-install_binary()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/VISUbinariesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="VisuBin" ; fi
-export PRODUCT="VISU_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${VISU_ROOT_DIR}" ]; then
+ check_lib_version VERSION ${VISU_ROOT_DIR}/bin/salome
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${VISU_ROOT_DIR}/bin/salome/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export VISU_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${VISU_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${VISU_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${VISU_ROOT_DIR}/bin/salome:\${VISU_ROOT_DIR}/lib/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export VISU_ROOT_DIR=\${INSTALL_ROOT}/${PRODUCT}
+export PATH=\${VISU_ROOT_DIR}/bin/salome:\${PATH}
+export LD_LIBRARY_PATH=\${VISU_ROOT_DIR}/lib/salome:\${LD_LIBRARY_PATH}
+export PYTHONPATH=\${VISU_ROOT_DIR}/bin/salome:\${VISU_ROOT_DIR}/lib/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome:\${VISU_ROOT_DIR}/lib/python2.2/site-packages/salome/shared_modules:\${PYTHONPATH}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+return 1
+}
+
+install_binary()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/VISUbinariesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="VisuBin" ; fi
+export PRODUCT="VISU_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
+++ /dev/null
-#!/bin/sh
-
-check_version(){
-if [ -n "${VISU_SRC_DIR}" ]; then
- check_lib_version VERSION ${VISU_SRC_DIR}/bin
- if [ "$?" -eq "0" ]; then
- ver=`cat ${VISU_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
- if [ "$ver" = "2.2.0" ]; then
- return 0
- fi
- fi
-fi
-return 1
-}
-
-print_env(){
-cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export VISU_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
-##
-EOF
-(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
-}
-
-# looks for the native product and collects it's environment (used by make_env())
-try_native(){
-check_version
-if [ $? -eq 0 ] ; then
- cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
-#$DELIM ${PRODUCT_TYPE} $DELIM
-export VISU_SRC_DIR=${VISU_SRC_DIR}
-##
-EOF
- make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
- return 0
-fi
-return 1;
-}
-
-try_preinstalled(){
-try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-return $?
-}
-
-install_source()
-{
-make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
-source ${INSTALL_WORK}/$SHRC
-
-check_jb tar xfz ${SOURCE_DIR}/VISUsourcesV2.2.0.tar.gz -C ${INSTALL_ROOT}
-
-print_env
-}
-
-install_binary()
-{
-return 1
-}
-
-export PROCEDURE=$1;
-export INSTALL_WORK=$2;
-export SOURCE_DIR=$3;
-export INSTALL_ROOT=$4;
-export PRODUCT_SEQUENCE=$5;
-if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="VisuSrc" ; fi
-export PRODUCT="VISU_SRC_2.2.0"
-export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
-export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
-source ./common.sh
-$PROCEDURE
--- /dev/null
+#!/bin/sh
+
+check_version(){
+if [ -n "${VISU_SRC_DIR}" ]; then
+ check_lib_version VERSION ${VISU_SRC_DIR}/bin
+ if [ "$?" -eq "0" ]; then
+ ver=`cat ${VISU_SRC_DIR}/bin/VERSION | awk -F: '{print $2}' | tr -d '[:space:]' `
+ if [ "$ver" = "2.2.1" ]; then
+ return 0
+ fi
+ fi
+fi
+return 1
+}
+
+print_env(){
+cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export VISU_SRC_DIR=\${INSTALL_ROOT}/${PRODUCT}
+##
+EOF
+(test -w ${PRODUCT_DIR} && cp ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh ${PRODUCT_DIR})
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+}
+
+# looks for the native product and collects it's environment (used by make_env())
+try_native(){
+check_version
+if [ $? -eq 0 ] ; then
+ cat > ${INSTALL_WORK}/env_${PRODUCT_TYPE}.sh <<EOF
+#$DELIM ${PRODUCT_TYPE} $DELIM
+export VISU_SRC_DIR=${VISU_SRC_DIR}
+##
+EOF
+ make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}"
+ return 0
+fi
+return 1;
+}
+
+try_preinstalled(){
+try_existing ${PRODUCT_DIR} ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+return $?
+}
+
+install_source()
+{
+make_env ${INSTALL_ROOT} ${INSTALL_WORK} "${PRODUCT_SEQUENCE}" ${PRODUCT_TYPE}
+source ${INSTALL_WORK}/$SHRC
+
+check_jb tar xfz ${SOURCE_DIR}/VISUsourcesV2.2.1.tar.gz -C ${INSTALL_ROOT}
+
+print_env
+}
+
+install_binary()
+{
+return 1
+}
+
+export PROCEDURE=$1;
+export INSTALL_WORK=$2;
+export SOURCE_DIR=$3;
+export INSTALL_ROOT=$4;
+export PRODUCT_SEQUENCE=$5;
+if [ $# == 6 ] ; then export PRODUCT_TYPE=$6 ; else export PRODUCT_TYPE="VisuSrc" ; fi
+export PRODUCT="VISU_SRC_2.2.1"
+export PRODUCT_DIR=${INSTALL_ROOT}/${PRODUCT}
+export PRODUCT_WORK=${INSTALL_WORK}/${PRODUCT}
+source ./common.sh
+$PROCEDURE
