#!/usr/bin/env bash
#
# Your build script should simply source this script, optionally override any build hooks and then invoke `build`.
# The build product should be available under `build-<platform>~/out`, under the library path.
#
# Hook lifecycle:
# - build
# - initialize
# - needs
# - clean & exit (only if script was ran with "clean" argument)
# - prepare
# - clean
# - config
# - target
# - prepare
# - configure
# - build
# - finalize
# - merge
# - clean
#
# You can override any of these hooks to provide a custom implementation or call their underscore variant to delegate to the default implementation.
# For example:
# target_prepare() { make -s distclean; }
# target_configure() { _target_configure "$@" --enable-minimal; }
set -e
PATH+=:/usr/local/bin
# needs <binary> ...
#
# Utility for ensuring all tools needed by the script are installed prior to starting.
needs() { _needs "$@"; }
_needs() {
local failed=0
for spec; do
IFS=: read pkg tools <<< "$spec"
IFS=, read -a tools <<< "${tools:-$pkg}"
for tool in "${tools[@]}"; do
hash "$tool" 2>/dev/null && continue 2
done
echo >&2 "Missing: $pkg. Please install this package."
(( failed++ ))
done
return $failed
}
# initialize <prefix> <platform>
#
# The build script invokes this once prior to all other actions if the user wants a clean slate.
initialize() { _initialize "$@"; }
_initialize() {
initialize_needs "$@"
}
# initialize_needs <prefix> <platform>
#
# Check if all tools needed for the default implementations are available.
#
# By default, this will check for `libtool` (for libtoolize), `automake` (for aclocal), `autoconf` (for autoreconf) and make.
initialize_needs() { _initialize_needs "$@"; }
_initialize_needs() {
if [[ $platform = windows ]]; then
needs cmd
export VSINSTALLDIR="${VSINSTALLDIR:-$(cd "$(cygpath -F 0x002a)/Microsoft Visual Studio"/*/*/Common7/.. && pwd)}"
[[ -e "$VSINSTALLDIR/Common7/Tools/VsMSBuildCmd.bat" ]] || { echo >&2 "Missing: msbuild. Please install 'Build Tools for Visual Studio'. See https://visualstudio.microsoft.com/downloads/?q=build+tools"; return 1; }
else
needs libtool:libtoolize,glibtoolize automake autoconf make
fi
}
# clean <prefix> <platform>
#
# Fully clean up the library code, restoring it to a pristine state.
#
# By default, this will wipe the prefix, run `make distclean` and `git clean -fdx`.
clean() { _clean "$@"; }
_clean() {
if [[ $platform = windows ]]; then
printf '"%%VSINSTALLDIR%%\Common7\Tools\VsMSBuildCmd.bat" && msbuild /t:Clean' > .clean.bat
cmd //c .clean.bat
rm -f .clean.bat
elif [[ -e Makefile ]] && make -s distclean; then :
elif [[ -e .git ]] && git clean -fdx; then :
fi
rm -rf "$prefix"
}
# prepare <prefix> <platform> [ <arch> ... ]
#
# Configure the library for building the <arch>s on this machine.
# The build script invokes this once prior to building each of its targets.
# The <prefix> has been newly created.
#
# By default, this will run `autoreconf`.
prepare() { _prepare "$@"; }
_prepare() {
prepare_clean "$@"
prepare_config "$@"
}
# prepare_clean <prefix> <platform> [ <arch> ... ]
#
# Perform any necessary clean-up of the library code prior to building.
#
# By default, this will wipe and re-create the prefix.
prepare_clean() { _prepare_clean "$@"; }
_prepare_clean() {
local prefix=$1 platform=$2; shift 2
if [[ $platform = windows ]]; then :
else
[[ ! -e Makefile ]] || make -s clean || git clean -fdx
fi
rm -rf "$prefix"
install -d "$prefix/out"
}
# prepare_config <prefix> <platform> [ <arch> ... ]
#
# Configure the library for building the <arch>s on this machine.
#
# By default, this will run `autoreconf`.
prepare_config() { _prepare_config "$@"; }
_prepare_config() {
local prefix=$1 platform=$2; shift 2
[[ -e "$prefix/out/.prepared" ]] && return
if [[ $platform = windows ]]; then :
else
autoreconf --verbose --install --force 2> >(sed 's/^\([^:]*\):[0-9]\{1,\}: /\1: /')
fi
touch "$prefix/out/.prepared"
}
# target <prefix> <platform> <arch>
#
# Build the library for the given <arch> and <platform> into the given <prefix>.
# The build script invokes this function when it's ready to build the library's code.
# Generic platform-specific environment setup has been done.
target() { _target "$@"; }
_target() {
target_prepare "$@"
target_configure "$@"
target_build "$@"
}
# target_prepare <prefix> <platform> <arch>
#
# Prepare the library configuration for building the target.
#
# By default, this will run `make clean` if a Makefile is found.
target_prepare() { _target_prepare "$@"; }
_target_prepare() {
local prefix=$1 platform=$2 arch=$3; shift 3
if [[ $platform = windows ]]; then :
else
[[ ! -e Makefile ]] || make -s clean
fi
}
# target_configure <prefix> <platform> <arch> [ <args> ... ]
#
# Configure the library for building the target.
#
# By default, this will run `./configure --host=<host> --prefix=<prefix>/<arch> <args>`.
# By default, some platform-specific arguments will be passed in as well as
# --enable-pic --disable-pie to ensure the resulting library can be linked again.
target_configure() { _target_configure "$@"; }
_target_configure() {
local prefix=$1 platform=$2 arch=$3; shift 3
local host=$arch build=
[[ -x build-aux/config.guess ]] && build=$(build-aux/config.guess)
case "$platform" in
'windows')
return
;;
'android')
host=( "$SDKROOT"/*-android* ) host=${host##*/}
set -- --with-sysroot="$SDKROOT/sysroot" "$@"
;;
'macos'|'ios')
[[ $arch = *arm* ]] && host=arm
host+=-apple
set -- --disable-shared "$@"
;;
esac
./configure ${build:+--build="$build"} ${host:+--host="$host"} --enable-pic --disable-pie --prefix="$prefix/$arch" "$@"
}
# target_build <prefix> <platform> <arch>
#
# Build the library code for the target.
#
# By default, this will run `make check install`.
target_build() { _target_build "$@"; }
_target_build() {
local prefix=$1 platform=$2 arch=$3; shift 3
if [[ $platform = windows ]]; then
# I cannot for the life of me figure out how to pass this command directly into cmd.
printf '"%%VSINSTALLDIR%%\Common7\Tools\VsMSBuildCmd.bat" && msbuild /t:Rebuild /p:Configuration=Release;Platform=%s;OutDir=%s' "$arch" "$(cygpath -w "${prefix##$PWD/}/$arch/")" > .build.bat
cmd //c .build.bat
rm -f .build.bat
else
local cores=$(getconf NPROCESSORS_ONLN 2>/dev/null || getconf _NPROCESSORS_ONLN 2>/dev/null ||:)
make -j"${cores:-3}" install
fi
}
# finalize <prefix> <platform> [ <arch> ... ]
#
# Prepare the final build product.
# The build script invokes this once after a successful build of all targets.
finalize() { _finalize "$@"; }
_finalize() {
finalize_merge "$@"
finalize_clean "$@"
}
# finalize_merge <prefix> <platform> [ <arch> ... ]
#
# Merge all targets into a product the application can use, available at `<prefix>/out`.
#
# By default, this will copy the headers to `<prefix>/out/include`, install libraries into `<prefix>/out/lib` and mark the output product as successful.
finalize_merge() { _finalize_merge "$@"; }
_finalize_merge() {
local prefix=$1 platform=$2; shift 2
local archs=( "$@" )
[[ -e "$prefix/$archs/include" ]] && mv -f -- "$prefix/$archs/include" "$prefix/out/"
install -d "$prefix/out/lib"
case "$platform" in
'linux')
for arch in "${archs[@]}"; do
install -d "$prefix/out/lib/$arch"
install -p "$prefix/$arch/lib/"*.a "$prefix/out/lib/$arch/"
done
;;
'windows')
for arch in "${archs[@]}"; do
install -d "$prefix/out/lib/$arch"
install -p "$prefix/$arch/"*.lib "$prefix/out/lib/$arch/"
done
;;
'macos'|'ios')
for lib in "$prefix/$archs/lib/"*; do
if lipo -info "$lib" >/dev/null 2>&1; then
local lib=("${lib##*/}") libs=("${archs[@]/#/$prefix/}") libs=("${libs[@]/%//lib/$lib}")
lipo -create "${libs[@]}" -output "$prefix/out/lib/$lib"
fi
done
;;
'android')
for arch in "${archs[@]}"; do
local abi=$arch
case "$arch" in
'arm') abi='armeabi-v7a' ;;
'arm64') abi='arm64-v8a' ;;
esac
install -d "$prefix/out/lib/$abi"
install -p "$prefix/$arch/lib/"*.so "$prefix/out/lib/$abi"
done
;;
esac
touch "$prefix/out/.success"
}
# finalize_clean <prefix> [ <arch> ... ]
#
# Clean up the library after a successful build (eg. housekeeping of temporary files).
#
# By default, this will run `make clean`.
finalize_clean() { _finalize_clean "$@"; }
_finalize_clean() {
if [[ $platform = windows ]]; then :
else
[[ ! -e Makefile ]] || make -s clean
fi
}
# build <name> [<platform>]
#
# Build the library <name> (found at ../<name>) for platform <platform> (or "host" if unspecified).
build() { _build "$@"; }
_build() {
local name=$1 platform=${2:-host}
local path="../$name"
[[ $path = /* ]] || path="${BASH_SOURCE%/*}/$path"
cd "$path"
if [[ $platform = host ]]; then
case "$(uname -s)" in
'Darwin') platform='macos' archs=( "$(uname -m)" ) ;;
esac
fi
if (( ! ${#archs[@]} )); then
case "$platform" in
'macos') archs=( 'x86_64' ) ;;
'ios') archs=( 'i386' 'x86_64' 'armv7' 'armv7s' 'arm64' ) ;;
'android') archs=( 'arm' 'arm64' 'x86' 'x86_64' ) ;;
'windows') archs=( 'Win32' 'x64' ) ;;
*) archs=( 'i686' 'x86_64' ) ;;
esac
fi
local prefix="$PWD/build-$platform~"
echo " # $name ($platform: ${archs[*]}) into $prefix ..."
initialize "$prefix" "$platform"
# "clean" argument wipes the lib clean and exits. If .success exists in prefix output, skip build.
if [[ ${BASH_ARGV[@]:(-1)} = clean ]]; then
clean "$prefix" "$platform"
exit
elif [[ -e "$prefix"/out/.success ]]; then
echo >&2 "Skipping build for $platform: output product already built successfully."
exit
fi
# Prepare the output location and build configuration.
prepare "$prefix" "$platform" "${archs[@]}"
# Repeat the build for each individual architecture.
for arch in "${archs[@]}"; do (
# Set up a base environment for the platform.
case "$platform" in
'windows')
;;
'macos')
SDKROOT="$(xcrun --show-sdk-path --sdk macosx)"
export PATH="$(xcrun --show-sdk-platform-path --sdk macosx)/usr/bin:$PATH"
export CFLAGS="-arch $arch -flto -O2 -g -isysroot $SDKROOT -mmacosx-version-min=${MACOSX_DEPLOYMENT_TARGET:-10.8} $CFLAGS"
export LDFLAGS="-arch $arch -flto -isysroot $SDKROOT -mmacosx-version-min=${MACOSX_DEPLOYMENT_TARGET:-10.8} $LDFLAGS"
export CPPFLAGS="$CFLAGS $CPPFLAGS"
;;
'ios')
case "$arch" in
*'arm'*)
SDKROOT="$(xcrun --show-sdk-path --sdk iphoneos)"
export PATH="$(xcrun --show-sdk-platform-path --sdk iphoneos)/usr/bin:$PATH"
export CFLAGS="-arch $arch -mthumb -fembed-bitcode -flto -O2 -g -isysroot $SDKROOT -mios-version-min=${IPHONEOS_DEPLOYMENT_TARGET:-8.0} $CFLAGS"
export LDFLAGS="-arch $arch -mthumb -fembed-bitcode -flto -isysroot $SDKROOT -mios-version-min=${IPHONEOS_DEPLOYMENT_TARGET:-8.0} $LDFLAGS"
export CPPFLAGS="$CFLAGS $CPPFLAGS"
;;
*)
SDKROOT="$(xcrun --show-sdk-path --sdk iphonesimulator)"
export PATH="$(xcrun --show-sdk-platform-path --sdk iphonesimulator)/usr/bin:$PATH"
export CFLAGS="-arch $arch -flto -O2 -g -isysroot $SDKROOT -mios-simulator-version-min=${IPHONEOS_DEPLOYMENT_TARGET:-8.0} $CFLAGS"
export LDFLAGS="-arch $arch -flto -isysroot $SDKROOT -mios-simulator-version-min=${IPHONEOS_DEPLOYMENT_TARGET:-8.0} $LDFLAGS"
export CPPFLAGS="$CFLAGS $CPPFLAGS"
;;
esac
;;
'android')
[[ -x $ANDROID_NDK_HOME/build/ndk-build ]] || { echo >&2 "Android NDK not found. Please set ANDROID_NDK_HOME."; return 1; }
SDKROOT="$prefix/$arch/ndk"
# Platform 21 is lowest that supports x86_64
"$ANDROID_NDK_HOME/build/tools/make-standalone-toolchain.sh" --force --install-dir="$SDKROOT" --platform='android-21' --arch="$arch"
export PATH="$SDKROOT/bin:$PATH"
export CFLAGS="-O2 -g $CFLAGS"
export LDFLAGS="-avoid-version $LDFLAGS"
export CC='clang'
# For GCC:
# arm CFLAGS="-march=armv7-a -mfloat-abi=softfp -mfpu=vfpv3-d16 -mthumb" LDFLAGS="-Wl,--fix-cortex-a8"
# arm64 CFLAGS="-march=armv8-a"
# x86 CFLAGS="-march=i686 -mtune=intel -mssse3 -mfpmath=sse -m32"
# x86_64 CFLAGS="-march=x86-64 -msse4.2 -mpopcnt -m64 -mtune=intel"
;;
*)
case "$arch" in
i686)
export CFLAGS="-m32 $CFLAGS" CXXFLAGS="-m32 $CXXFLAGS" LDFLAGS="-m32 $LDFLAGS"
;;
x86_64)
export CFLAGS="-m64 $CFLAGS" CXXFLAGS="-m64 $CXXFLAGS" LDFLAGS="-m64 $LDFLAGS"
;;
esac
;;
esac
echo " # $name ($platform: $arch) ..."
target "$prefix" "$platform" "$arch"
); done
finalize "$prefix" "$platform" "${archs[@]}"
}