#!/bin/bash
# GCC package build script (written by volkerdi@slackware.com)
#
# Copyright 2003, 2004 Slackware Linux, Inc., Concord, California, USA
# Copyright 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018 Patrick J. Volkerding, Sebeka, MN, USA
# All rights reserved.
#
# Redistribution and use of this script, with or without modification, is
# permitted provided that the following conditions are met:
#
# 1. Redistributions of this script must retain the above copyright
# notice, this list of conditions and the following disclaimer.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
# WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
# MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
# EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
# OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
# OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
# ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Modified 2011 by Eric Hameleers <alien at slackware.com> for OpenJDK.
# Some notes, Fri May 16 12:31:32 PDT 2003:
#
# Why i486 and not i386? Because the shared C++ libraries in gcc-3.2.x will
# require 486 opcodes even when a 386 target is used (so we already weren't
# compatible with the i386 for Slackware 9.0, didn't notice, and nobody
# complained :-). gcc-3.3 fixes this issue and allows you to build a 386
# compiler, but the fix is done in a way that produces binaries that are not
# compatible with gcc-3.2.x compiled binaries. To retain compatibility with
# Slackware 9.0, we'll have to use i486 (or better) as the compiler target
# for gcc-3.3.
#
# It's time to say goodbye to i386 support in Slackware. I've surveyed 386
# usage online, and the most common thing I see people say when someone asks
# about running Linux on a 386 is to "run Slackware", but then they also
# usually go on to say "be sure to get an OLD version, like 4.0, before glibc,
# because it'll be more efficient." Now, if that's the general advice, then
# I see no reason to continue 386 support in the latest Slackware (and indeed
# it's no longer easily possible).
# Some more notes, Mon Aug 3 19:49:51 UTC 2015:
#
# Changing to -march=i586 for 32-bit x86 as several things (Mesa being one of
# them) no longer work if constrained to -march=i486. We're not going to use
# -march=i686 since the only additional opcode is CMOV, which is actually less
# efficient on modern CPUs running in 32-bit mode than the alternate i586
# instructions. No need to throw i586 CPUs under the bus (yet).
cd $(dirname $0) ; CWD=$(pwd)
PKGNAM=gcc
SRCVER=${VERSION:-$(echo $PKGNAM-*.tar.?z | rev | cut -f 3- -d . | cut -f 1 -d - | rev)}
VERSION=$(echo $SRCVER | cut -f 1 -d _)
BUILD=${BUILD:-1}
# How many jobs to run in parallel:
NUMJOBS=" -j 7 "
# Automatically determine the architecture we're building on:
if [ -z "$ARCH" ]; then
case "$(uname -m)" in
i?86) ARCH=i586 ;;
arm*) readelf /usr/bin/file -A | egrep -q "Tag_CPU.*[4,5]" && ARCH=arm || ARCH=armv7hl ;;
# Unless $ARCH is already set, use uname -m for all other archs:
*) ARCH=$(uname -m) ;;
esac
export ARCH
fi
# If the variable PRINT_PACKAGE_NAME is set, then this script will report what
# the name of the created package would be, and then exit. This information
# could be useful to other scripts.
if [ ! -z "${PRINT_PACKAGE_NAME}" ]; then
echo "gcc-$VERSION-$ARCH-$BUILD.txz"
echo "gcc-g++-$VERSION-$ARCH-$BUILD.txz"
echo "gcc-gfortran-$VERSION-$ARCH-$BUILD.txz"
echo "gcc-gnat-$VERSION-$ARCH-$BUILD.txz"
echo "gcc-objc-$VERSION-$ARCH-$BUILD.txz"
echo "gcc-go-$VERSION-$ARCH-$BUILD.txz"
echo "gcc-brig-$VERSION-$ARCH-$BUILD.txz"
exit 0
fi
if [ "$ARCH" = "i386" ]; then
SLKCFLAGS="-O2 -march=i386 -mcpu=i686"
LIBDIRSUFFIX=""
LIB_ARCH=i386
elif [ "$ARCH" = "i486" ]; then
SLKCFLAGS="-O2 -march=i486 -mtune=i686"
LIBDIRSUFFIX=""
LIB_ARCH=i386
elif [ "$ARCH" = "i586" ]; then
SLKCFLAGS="-O2 -march=i586 -mtune=i686"
LIBDIRSUFFIX=""
LIB_ARCH=i386
elif [ "$ARCH" = "i686" ]; then
SLKCFLAGS="-O2 -march=i686"
LIBDIRSUFFIX=""
LIB_ARCH=i386
elif [ "$ARCH" = "s390" ]; then
SLKCFLAGS="-O2"
LIBDIRSUFFIX=""
LIB_ARCH=s390
elif [ "$ARCH" = "x86_64" ]; then
SLKCFLAGS="-O2 -fPIC"
LIBDIRSUFFIX="64"
LIB_ARCH=amd64
elif [ "$ARCH" = "armv7hl" ]; then
SLKCFLAGS="-O3 -march=armv7-a -mfpu=vfpv3-d16"
LIBDIRSUFFIX=""
LIB_ARCH=armv7hl
else
SLKCFLAGS="-O2"
LIBDIRSUFFIX=""
LIB_ARCH=$ARCH
fi
case "$ARCH" in
arm*) TARGET=$ARCH-slackware-linux-gnueabi ;;
*) TARGET=$ARCH-slackware-linux ;;
esac
# Temporary build location:
TMP=${TMP:-/tmp}
# Extract the source code:
cd $TMP
rm -rf gcc-$SRCVER
tar xvf $CWD/gcc-$SRCVER.tar.?z || exit 1
# This is the main DESTDIR target:
PKG1=$TMP/package-gcc
# These are the directories to build other packages in:
PKG2=$TMP/package-gcc-g++
PKG3=$TMP/package-gcc-gfortran
PKG4=$TMP/package-gcc-gnat
PKG6=$TMP/package-gcc-objc
#PKG7=$TMP/package-gcc-g++-gch
PKG8=$TMP/package-gcc-go
PKG9=$TMP/package-gcc-brig
# Clear the build locations:
rm -rf $TMP/gcc.build.lnx
rm -rf $PKG{1,2,3,4,6,8,9}
mkdir -p $PKG{1,2,3,4,6,8,9}/usr/doc/gcc-$VERSION
# Insert package descriptions:
mkdir -p $PKG{1,2,3,4,6,8,9}/install
cat $CWD/slack-desc.gcc > $PKG1/install/slack-desc
cat $CWD/slack-desc.gcc-g++ > $PKG2/install/slack-desc
cat $CWD/slack-desc.gcc-gfortran > $PKG3/install/slack-desc
cat $CWD/slack-desc.gcc-gnat > $PKG4/install/slack-desc
cat $CWD/slack-desc.gcc-objc > $PKG6/install/slack-desc
#cat $CWD/slack-desc.gcc-g++-gch > $PKG7/install/slack-desc
cat $CWD/slack-desc.gcc-go > $PKG8/install/slack-desc
cat $CWD/slack-desc.gcc-brig > $PKG9/install/slack-desc
( cd gcc-$SRCVER || exit 1
# Smite the fixincludes:
zcat $CWD/gcc-no_fixincludes.diff.gz | patch -p1 --verbose --backup --suffix=.orig || exit 1
# Fix perms/owners:
chown -R root:root .
find . -perm 777 -exec chmod 755 {} \;
find . -perm 775 -exec chmod 755 {} \;
find . -perm 754 -exec chmod 755 {} \;
find . -perm 664 -exec chmod 644 {} \;
# Install docs:
mkdir -p $PKG1/usr/doc/gcc-$VERSION
cp -a \
COPYING* ChangeLog* FAQ INSTALL \
LAST_UPDATED MAINTAINERS NEWS \
README* *.html \
$PKG1/usr/doc/gcc-$VERSION
# We will keep part of these, but they are really big...
if [ -r ChangeLog ]; then
DOCSDIR=$(echo $PKG1/usr/doc/gcc-$VERSION)
cat ChangeLog | head -n 1000 > $DOCSDIR/ChangeLog
touch -r ChangeLog $DOCSDIR/ChangeLog
fi
if [ -r NEWS ]; then
DOCSDIR=$(echo $PKG1/usr/doc/gcc-$VERSION)
cat NEWS | head -n 1500 > $DOCSDIR/NEWS
touch -r NEWS $DOCSDIR/NEWS
fi
mkdir -p $PKG1/usr/doc/gcc-${VERSION}/gcc
( cd gcc || exit 0
cp -a \
ABOUT* COPYING* DATESTAMP DEV-PHASE LANG* ONEWS README* SERVICE \
$PKG1/usr/doc/gcc-$VERSION/gcc
mkdir -p $PKG3/usr/doc/gcc-${VERSION}/gcc/fortran
( cd fortran || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG3/usr/doc/gcc-$VERSION/gcc/fortran/ChangeLog
touch -r ChangeLog $PKG3/usr/doc/gcc-$VERSION/gcc/fortran/ChangeLog
fi
)
mkdir -p $PKG4/usr/doc/gcc-${VERSION}/gcc/ada
( cd ada || exit 0
cp -a \
ChangeLog.tree-ssa \
$PKG4/usr/doc/gcc-$VERSION/gcc/ada
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG4/usr/doc/gcc-$VERSION/gcc/ada/ChangeLog
touch -r ChangeLog $PKG4/usr/doc/gcc-$VERSION/gcc/ada/ChangeLog
fi
)
mkdir -p $PKG6/usr/doc/gcc-${VERSION}/gcc/objc
( cd objc || exit 0
cp -a \
README* \
$PKG6/usr/doc/gcc-${VERSION}/gcc/objc
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG6/usr/doc/gcc-${VERSION}/gcc/objc/ChangeLog
touch -r ChangeLog $PKG6/usr/doc/gcc-${VERSION}/gcc/objc/ChangeLog
fi
)
mkdir -p $PKG8/usr/doc/gcc-${VERSION}/gcc/go
( cd go || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG8/usr/doc/gcc-${VERSION}/gcc/go/ChangeLog
touch -r ChangeLog $PKG8/usr/doc/gcc-${VERSION}/gcc/go/ChangeLog
fi
cp -a \
README* THREADS* \
gofrontend/{LICENSE,PATENTS,README} \
$PKG8/usr/doc/gcc-${VERSION}/gcc/go
)
mkdir -p $PKG9/usr/doc/gcc-${VERSION}/gcc/brig
( cd brig || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG9/usr/doc/gcc-${VERSION}/gcc/brig/ChangeLog
touch -r ChangeLog $PKG9/usr/doc/gcc-${VERSION}/gcc/brig/ChangeLog
fi
)
) || exit 1
mkdir -p $PKG3/usr/doc/gcc-${VERSION}/libgfortran
( cd libgfortran || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG3/usr/doc/gcc-${VERSION}/libgfortran/ChangeLog
touch -r ChangeLog $PKG3/usr/doc/gcc-${VERSION}/libgfortran/ChangeLog
fi
)
mkdir -p $PKG4/usr/doc/gcc-${VERSION}/libada
( cd libada || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG4/usr/doc/gcc-${VERSION}/libada/ChangeLog
touch -r ChangeLog $PKG4/usr/doc/gcc-${VERSION}/libada/ChangeLog
fi
)
mkdir -p $PKG1/usr/doc/gcc-${VERSION}/libgomp
( cd libgomp || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG1/usr/doc/gcc-${VERSION}/libgomp/ChangeLog
touch -r ChangeLog $PKG1/usr/doc/gcc-${VERSION}/libgomp/ChangeLog
fi
)
mkdir -p $PKG6/usr/doc/gcc-${VERSION}/libobjc
( cd libobjc || exit 0
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG6/usr/doc/gcc-${VERSION}/libobjc/ChangeLog
touch -r ChangeLog $PKG6/usr/doc/gcc-${VERSION}/libobjc/ChangeLog
fi
cp -a \
README* THREADS* \
$PKG6/usr/doc/gcc-${VERSION}/libobjc
)
mkdir -p $PKG2/usr/doc/gcc-${VERSION}/libstdc++-v3
( cd libstdc++-v3 || exit 0
cp -a \
README* \
doc/html/faq.html \
$PKG2/usr/doc/gcc-${VERSION}/libstdc++-v3
if [ -r ChangeLog ]; then
cat ChangeLog | head -n 1000 > $PKG2/usr/doc/gcc-${VERSION}/libstdc++-v3/ChangeLog
touch -r ChangeLog $PKG2/usr/doc/gcc-${VERSION}/libstdc++-v3/ChangeLog
fi
)
)
# build gcc
( mkdir gcc.build.lnx;
cd gcc.build.lnx;
# I think it's incorrect to include this option (as it'll end up set
# to i586 on x86 platforms), and we want to tune the binary structure
# for i686, as that's where almost all of the optimization speedups
# are to be found.
# Correct me if my take on this is wrong.
# --with-cpu=$ARCH
if [ "$ARCH" != "x86_64" ]; then
GCC_ARCHOPTS="--with-arch=$ARCH"
else
GCC_ARCHOPTS="--disable-multilib"
fi
CFLAGS="$SLKCFLAGS" \
CXXFLAGS="$SLKCFLAGS" \
../gcc-$SRCVER/configure --prefix=/usr \
--libdir=/usr/lib$LIBDIRSUFFIX \
--mandir=/usr/man \
--infodir=/usr/info \
--enable-shared \
--enable-bootstrap \
--enable-languages=ada,brig,c,c++,fortran,go,lto,objc \
--enable-threads=posix \
--enable-checking=release \
--enable-objc-gc \
--with-system-zlib \
--enable-libstdcxx-dual-abi \
--with-default-libstdcxx-abi=new \
--disable-libstdcxx-pch \
--disable-libunwind-exceptions \
--enable-__cxa_atexit \
--disable-libssp \
--enable-gnu-unique-object \
--enable-plugin \
--enable-lto \
--disable-install-libiberty \
--disable-werror \
--with-gnu-ld \
--verbose \
--with-arch-directory=$LIB_ARCH \
--disable-gtktest \
$GCC_ARCHOPTS \
--target=${TARGET} \
--build=${TARGET} \
--host=${TARGET} || exit 1
# Start the build:
# Include all debugging info (for now):
make $NUMJOBS bootstrap || exit 1
( cd gcc
make $NUMJOBS gnatlib GNATLIBCFLAGS="$SLKCFLAGS" || exit 1
# This wants a shared -ladd2line?
#make gnatlib-shared || exit 1
CFLAGS="$SLKCFLAGS" \
CXXFLAGS="$SLKCFLAGS" \
make $NUMJOBS gnattools || exit 1
) || exit 1
make info || exit 1
# Set GCCCHECK=something to run the tests
if [ ! -z $GCCCHECK ]; then
make $NUMJOBS check || exit 1
fi
make install DESTDIR=$PKG1 || exit 1
# Move gdb pretty printers to the correct place
mkdir -p $PKG1/usr/share/gdb/auto-load/usr/lib$LIBDIRSUFFIX
mv $PKG1/usr/lib$LIBDIRSUFFIX/*-gdb.py \
$PKG1/usr/share/gdb/auto-load/usr/lib$LIBDIRSUFFIX/
# Be sure the "specs" file is installed.
if [ ! -r $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/${TARGET}/${VERSION}/specs ]; then
cat stage1-gcc/specs > $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/${TARGET}/${VERSION}/specs
fi
# Make our 64bit gcc look for 32bit gcc binaries in ./32 subdirectory:
if [ "$ARCH" = "x86_64" ]; then
sed -i 's#;.\(:../lib !m64 m32;\)$#;32\1#' \
$PKG1/usr/lib${LIBDIRSUFFIX}/gcc/${TARGET}/${VERSION}/specs
fi
# make ada.install-common DESTDIR=$PKG1 || exit 1
# make install-gnatlib DESTDIR=$PKG1 || exit 1
make -i install-info DESTDIR=$PKG1 || exit 1
chmod 755 $PKG1/usr/lib${LIBDIRSUFFIX}/libgcc_s.so.1
# Fix stuff up:
( cd $PKG1/usr/info ; rm dir ; gzip -9 * )
( cd $PKG1
# *not* ${LIBDIRSUFFIX}
mkdir -p lib
cd lib
ln -sf /usr/bin/cpp .
)
( cd $PKG1/usr/bin
mv g++ g++-gcc-$VERSION
mv gcc gcc-$VERSION
mv ${TARGET}-gfortran gfortran-gcc-$VERSION
ln -sf g++-gcc-$VERSION g++
ln -sf gcc-$VERSION gcc
ln -sf g++ c++
ln -sf gcc cc
ln -sf gcc-$VERSION ${TARGET}-gcc
ln -sf gcc-$VERSION ${TARGET}-gcc-$VERSION
ln -sf gcc-ar ${TARGET}-gcc-ar
ln -sf gcc-nm ${TARGET}-gcc-nm
ln -sf gcc-ranlib ${TARGET}-gcc-ranlib
ln -sf g++-gcc-$VERSION ${TARGET}-c++
ln -sf g++-gcc-$VERSION ${TARGET}-g++
ln -sf gfortran-gcc-$VERSION gfortran
ln -sf gfortran-gcc-$VERSION ${TARGET}-gfortran
ln -sf gfortran-gcc-$VERSION ${TARGET}-gfortran-$VERSION
ln -sf gfortran-gcc-$VERSION ${TARGET}-g95
ln -sf gfortran g95
ln -sf gfortran f95
ln -sf gfortran-gcc-$VERSION ${TARGET}-g77
ln -sf gfortran g77
ln -sf gfortran f77
cat $CWD/c89.sh > c89
cat $CWD/c99.sh > c99
chmod 755 c89 c99
)
( cd $PKG1/usr/man
gzip -9 */*
cd man1
ln -sf g++.1.gz c++.1.gz
ln -sf gcc.1.gz cc.1.gz
)
## build an all-in-one txz package:
#(
# cd $PKG1;
# makepkg -l y -c n $TMP/gcc-$VERSION-$ARCH-$BUILD.txz
#)
# keep a log:
) 2>&1 | tee $TMP/gcc.build.log
# Filter all .la files (thanks much to Mark Post for the sed script):
( cd $PKG1
for file in $(find . -type f -name "*.la") ; do
cat $file | sed -e 's%-L/gcc-[[:graph:]]* % %g' > $TMP/tmp-la-file
cat $TMP/tmp-la-file > $file
done
rm $TMP/tmp-la-file
)
# Don't ship .la files in /{,usr/}lib${LIBDIRSUFFIX}:
rm -f $PKG1/{,usr/}lib${LIBDIRSUFFIX}/*.la
# Strip bloated binaries and libraries:
( cd $PKG1
find . -name "lib*so*" -exec strip --strip-unneeded "{}" \;
find . -name "lib*so*" -exec patchelf --remove-rpath "{}" \;
find . -name "lib*a" -exec strip -g "{}" \;
strip --strip-unneeded usr/bin/* 2> /dev/null
find . | xargs file | grep "executable" | grep ELF | cut -f 1 -d : | xargs strip --strip-unneeded 2> /dev/null
find . | xargs file | grep "shared object" | grep ELF | cut -f 1 -d : | xargs strip --strip-unneeded 2> /dev/null
)
# OK, time to split the big package where needed:
# gcc-g++:
( cd $PKG2
mkdir -p usr/bin
mv $PKG1/usr/bin/*++* usr/bin
mkdir -p usr/include
mv $PKG1/usr/include/c++ usr/include
mkdir -p usr/lib${LIBDIRSUFFIX}
mv $PKG1/usr/lib${LIBDIRSUFFIX}/*++* usr/lib${LIBDIRSUFFIX}
mkdir -p usr/libexec/gcc/$TARGET/$VERSION
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/cc1plus usr/libexec/gcc/$TARGET/$VERSION/cc1plus
mkdir -p usr/man/man1
mv $PKG1/usr/man/man1/*++* usr/man/man1
mkdir -p usr/share
mv $PKG1/usr/share/gdb usr/share
mkdir -p usr/share/gcc-$VERSION/python
mv $PKG1/usr/share/gcc-$VERSION/python/libstdcxx usr/share/gcc-$VERSION/python
)
# gcc-gfortran:
( cd $PKG3
mkdir -p usr/bin
mv $PKG1/usr/bin/*gfortran* usr/bin
mv $PKG1/usr/bin/*95* usr/bin
mv $PKG1/usr/bin/*77* usr/bin
# Doesn't this seem like a logical idea?
( cd usr/bin ; ln -sf gfortran-gcc-${VERSION} fortran )
mkdir -p usr/info
mv $PKG1/usr/info/gfortran* usr/info
mkdir -p usr/lib${LIBDIRSUFFIX}
mv $PKG1/usr/lib${LIBDIRSUFFIX}/libgfortran* usr/lib${LIBDIRSUFFIX}
mkdir -p usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION
mv $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/finclude usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION
mv $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/libgfortran* usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION
mkdir -p usr/libexec/gcc/$TARGET/$VERSION
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/f951 usr/libexec/gcc/$TARGET/$VERSION/f951
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/libgfortran* usr/libexec/gcc/$TARGET/$VERSION
mkdir -p usr/man/man1
mv $PKG1/usr/man/man1/gfortran* usr/man/man1
)
# gcc-gnat:
( cd $PKG4
mkdir -p usr/bin
mv $PKG1/usr/bin/gnat* usr/bin
mv $PKG1/usr/bin/gpr* usr/bin
mkdir -p usr/info
mv $PKG1/usr/info/gnat* usr/info
mkdir -p usr/libexec/gcc/$TARGET/$VERSION
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/gnat1 usr/libexec/gcc/$TARGET/$VERSION
mkdir -p usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION
mv $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/adainclude usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION
mv $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/adalib usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION
)
# gcc-objc:
( cd $PKG6
mkdir -p usr/lib${LIBDIRSUFFIX}
mv $PKG1/usr/lib${LIBDIRSUFFIX}/libobjc* usr/lib${LIBDIRSUFFIX}
mkdir -p usr/libexec/gcc/$TARGET/$VERSION
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/cc1obj usr/libexec/gcc/$TARGET/$VERSION
mkdir -p usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/include
mv $PKG1/usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/include/objc usr/lib${LIBDIRSUFFIX}/gcc/$TARGET/$VERSION/include
)
## NOTE: Thought about this, because the precompiled headers are so large.
## Probably easier to keep everything together, though.
## gcc-g++-gch (precompiled c++ headers)
#( cd $PKG7
# mkdir -p usr/include/c++/$VERSION/$TARGET/bits
# mv $PKG2/usr/include/c++/$VERSION/$TARGET/bits/stdc++.h.gch usr/include/c++/$VERSION/$TARGET/bits
#)
# gcc-go:
( cd $PKG8
mkdir -p usr/bin
mv $PKG1/usr/bin/*gccgo* usr/bin
mv $PKG1/usr/bin/go{,fmt} usr/bin
mkdir -p usr/libexec/gcc/$TARGET/$VERSION
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/{cgo,go1} usr/libexec/gcc/$TARGET/$VERSION
mkdir -p usr/info
mv $PKG1/usr/info/gccgo.info.gz usr/info
mkdir -p usr/lib${LIBDIRSUFFIX}
mv $PKG1/usr/lib${LIBDIRSUFFIX}/go usr/lib${LIBDIRSUFFIX}
if [ -r $PKG1/usr/lib${LIBDIRSUFFIX}/libgo.la ]; then
mv $PKG1/usr/lib${LIBDIRSUFFIX}/libgo.la usr/lib${LIBDIRSUFFIX}
fi
mv $PKG1/usr/lib${LIBDIRSUFFIX}/{libgo.so*,libgobegin.a,libgolibbegin.a} usr/lib${LIBDIRSUFFIX} || exit 1
# Don't package the (bloated) libgo.a. As a rule, we don't package static libraries.
rm -f $PKG1/usr/lib${LIBDIRSUFFIX}/libgo.a
mkdir -p usr/man/man1
mv $PKG1/usr/man/man1/gccgo.1.gz usr/man/man1
mv $PKG1/usr/man/man1/go.1.gz usr/man/man1
mv $PKG1/usr/man/man1/gofmt.1.gz usr/man/man1
) || exit 1
# gcc-brig:
( cd $PKG9
mkdir -p usr/bin
mv $PKG1/usr/bin/*brig* usr/bin
mkdir -p usr/lib${LIBDIRSUFFIX}
mv $PKG1/usr/lib${LIBDIRSUFFIX}/libhsail* usr/lib${LIBDIRSUFFIX}
mkdir -p usr/libexec/gcc/$TARGET/$VERSION
mv $PKG1/usr/libexec/gcc/$TARGET/$VERSION/brig1 usr/libexec/gcc/$TARGET/$VERSION
mkdir -p usr/man/man1
mv $PKG1/usr/man/man1/gccbrig.1.gz usr/man/man1
)
# Generate packages:
( cd $PKG1
makepkg -l y -c n $TMP/gcc-$VERSION-$ARCH-$BUILD.txz )
( cd $PKG2
makepkg -l y -c n $TMP/gcc-g++-$VERSION-$ARCH-$BUILD.txz )
( cd $PKG3
makepkg -l y -c n $TMP/gcc-gfortran-$VERSION-$ARCH-$BUILD.txz )
( cd $PKG4
makepkg -l y -c n $TMP/gcc-gnat-$VERSION-$ARCH-$BUILD.txz )
( cd $PKG6
makepkg -l y -c n $TMP/gcc-objc-$VERSION-$ARCH-$BUILD.txz )
( cd $PKG8
makepkg -l y -c n $TMP/gcc-go-$VERSION-$ARCH-$BUILD.txz )
( cd $PKG9
makepkg -l y -c n $TMP/gcc-brig-$VERSION-$ARCH-$BUILD.txz )
echo
echo "Slackware GCC package build complete!"
echo