cpython/BeOS/ar-fake

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#! /bin/sh
#
# Fake "ar" to build the Python shared library on BeOS. This "ar"
# manipulates a .ar-libname file listing all the objects and regenerates
# the shared lib every time it's called. This is probably only suitable
# for things that get built like Python, and you'll probably have to make
# some small modifications here and there.
#
# This stupid hackery is necessary due to the brain-damaged __declspec()
# semantics on x86; on PowerPC, we could just build a static library
# and turn that into a shared library using an exports list. On x86, you'd
# need to use a fake table of pointers to every symbol you wanted to
# export, otherwise you'd end up with an empty shared lib. This is
# progress?
#
# Called via:
#
# ar-fake cr lib-name objects
# ar-fake d lib-name objects
#
# This fake "ar" DOES NOT support any other POSIX "ar" commands! DO NOT
# expect it to behave very intelligently, it's designed to build Python,
# not any old shared lib.
AR_COMMAND=$1 ; shift
AR_LIB=$1 ; shift
AR_LIB_NAME=$(basename $AR_LIB)
AR_SO_LIB_NAME=${AR_LIB_NAME/.a/.so}
AR_LIB_PATH=${AR_LIB/$AR_LIB_NAME/}
if [ "$AR_LIB_PATH" = "" ] ; then
AR_LIB_PATH="."
fi
AR_CRUD=${AR_LIB_PATH}/.ar-${AR_LIB_NAME}
AR_CWD=$(pwd)
# Function to tell is if the arg is an absolute path. Use it like this:
#
# if is_abs pathname ; then ...
is_abs() {
if [ "$1" != "$(echo $1 | sed -e "s,^/,,")" ] ; then
return 0
fi
return 1
}
# Function to build the shared library. It does the right thing for
# PowerPC or x86 systems running BeOS.
build_lib() {
LIB=$1 ; shift
SO_NAME=$1 ; shift
CRUD_NAME=$1 ; shift
# maybe too much...
EXTRA_LIBS="-lroot -lbe -lnet"
case $BE_HOST_CPU in
ppc)
AR_CC="mwcc -xms -export pragma -nodup"
GLUE_LOC=/boot/develop/lib/ppc
AR_GLUE="${GLUE_LOC}/glue-noinit.a ${GLUE_LOC}/init_term_dyn.o ${GLUE_LOC}/start_dyn.o"
;;
x86)
AR_CC="gcc -nostart -Wl,-soname=${SO_NAME}"
AR_GLUE=
;;
*)
# Send me the mystery system (soo-pah aitch!), then we'll talk...
echo "No, no, no... $0 doesn't support $BE_HOST_CPU"
exit 2
;;
esac
# Build a list of the objects...
PARTS=""
while read OBJ_FILE OBJ_PATH ; do
PARTS="$PARTS ${OBJ_PATH}${OBJ_FILE}"
done < $CRUD_NAME
$AR_CC -o ${LIB%.a}.so $PARTS $AR_GLUE $EXTRA_LIBS > /dev/null 2>&1
return 0
}
# Make a backup of the old AR_CRUD file, just to be nice, and clean up
# any of our temp files that may be laying around.
if [ -e $AR_CRUD ] ; then
mv -f $AR_CRUD ${AR_CRUD}.old
cp ${AR_CRUD}.old $AR_CRUD
else
touch $AR_CRUD
fi
if [ -e ${AR_CRUD}.grepper ] ; then
rm -f ${AR_CRUD}.grepper
fi
case $AR_COMMAND in
cr)
# Add the extra bits to the $AR_CRUD file.
for OBJECT in "$@" ; do
OBJ_NAME=$(basename $OBJECT)
OBJ_PATH=${OBJECT%$OBJ_NAME}
if ! is_abs $OBJ_PATH ; then
OBJ_PATH=${AR_CWD}/${OBJECT}
OBJ_PATH=${OBJ_PATH%$OBJ_NAME}
fi
# If this is already in there, we have to blow it away so
# we can replace it with the new one.
if egrep -q "^$OBJ_NAME " $AR_CRUD ; then
egrep -v "^$OBJ_NAME " < $AR_CRUD > ${AR_CRUD}.grepper
mv -f ${AR_CRUD}.grepper $AR_CRUD
fi
echo $OBJ_NAME $OBJ_PATH >> $AR_CRUD
done
# Now build a library from the files.
build_lib $AR_LIB $AR_SO_LIB_NAME $AR_CRUD
;;
d)
# Remove files from the $AR_CRUD file. This isn't terribly
# efficient.
for OBJECT in "$@" ; do
OBJ_NAME=$(basename $OBJECT)
OBJ_PATH=${OBJECT%$OBJ_NAME}
if ! is_abs $OBJ_PATH ; then
OBJ_PATH=${AR_CWD}/${OBJECT}
OBJ_PATH=${OBJ_PATH%$OBJ_NAME}
fi
# Strip the objects from the list, if they're in there.
egrep -v "^$OBJ_NAME " < $AR_CRUD > ${AR_CRUD}.grepper
mv -f ${AR_CRUD}.grepper $AR_CRUD
done
# Now build a library from the remaining objects.
build_lib $AR_LIB $AR_SO_LIB_NAME $AR_CRUD
;;
*)
echo "$0 error:"
echo " Unsupported command: $AR_COMMAND"
exit 1
;;
esac
# If we make it here, all went well. Hopefully.
exit 0