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#! /bin/sh -e
# SPDX-License-Identifier: BSD-3-Clause
# Copyright(c) 2018 Intel Corporation
# Run meson to auto-configure the various builds.
# * all builds get put in a directory whose name starts with "build-"
# * if a build-directory already exists we assume it was properly configured
# Run ninja after configuration is done.
srcdir=$(dirname $(readlink -m $0))/..
MESON=${MESON:-meson}
if command -v ninja >/dev/null 2>&1 ; then
ninja_cmd=ninja
elif command -v ninja-build >/dev/null 2>&1 ; then
ninja_cmd=ninja-build
else
echo "ERROR: ninja is not found" >&2
exit 1
fi
build () # <directory> <meson options>
{
builddir=$1
shift
if [ ! -d "$builddir" ] ; then
options="--werror -Dexamples=all $*"
echo "$MESON $options $srcdir $builddir"
$MESON $options $srcdir $builddir
unset CC
fi
echo "$ninja_cmd -C $builddir"
$ninja_cmd -C $builddir
}
# shared and static linked builds with gcc and clang
for c in gcc clang ; do
for s in static shared ; do
export CC="ccache $c"
build build-$c-$s --default-library=$s
done
done
# test compilation with minimal x86 instruction set
build build-x86-default -Dmachine=nehalem
# enable cross compilation if gcc cross-compiler is found
c=aarch64-linux-gnu-gcc
if command -v $c >/dev/null 2>&1 ; then
# compile the general v8a also for clang to increase coverage
export CC="ccache clang"
build build-arm64-host-clang --cross-file \
config/arm/arm64_armv8_linuxapp_gcc
for f in config/arm/arm*gcc ; do
export CC="ccache gcc"
build build-$(basename $f | tr '_' '-' | cut -d'-' -f-2) \
--cross-file $f
done
fi
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