vpx/build/make/configure.sh

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2010-05-18 17:58:33 +02:00
#!/bin/bash
##
## configure.sh
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##
## This script is sourced by the main configure script and contains
## utility functions and other common bits that aren't strictly libvpx
## related.
##
## This build system is based in part on the FFmpeg configure script.
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##
#
# Logging / Output Functions
#
die_unknown(){
echo "Unknown option \"$1\"."
echo "See $0 --help for available options."
clean_temp_files
exit 1
}
die() {
echo "$@"
echo
echo "Configuration failed. This could reflect a misconfiguration of your"
echo "toolchains, improper options selected, or another problem. If you"
echo "don't see any useful error messages above, the next step is to look"
echo "at the configure error log file ($logfile) to determine what"
echo "configure was trying to do when it died."
clean_temp_files
exit 1
}
log(){
echo "$@" >>$logfile
}
log_file(){
log BEGIN $1
pr -n -t $1 >>$logfile
log END $1
}
log_echo() {
echo "$@"
log "$@"
}
fwrite () {
outfile=$1
shift
echo "$@" >> ${outfile}
}
show_help_pre(){
for opt in ${CMDLINE_SELECT}; do
opt2=`echo $opt | sed -e 's;_;-;g'`
if enabled $opt; then
eval "toggle_${opt}=\"--disable-${opt2}\""
else
eval "toggle_${opt}=\"--enable-${opt2} \""
fi
done
cat <<EOF
Usage: configure [options]
Options:
Build options:
--help print this message
--log=yes|no|FILE file configure log is written to [config.err]
--target=TARGET target platform tuple [generic-gnu]
--cpu=CPU optimize for a specific cpu rather than a family
--extra-cflags=ECFLAGS add ECFLAGS to CFLAGS [$CFLAGS]
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${toggle_extra_warnings} emit harmless warnings (always non-fatal)
${toggle_werror} treat warnings as errors, if possible
(not available with all compilers)
${toggle_optimizations} turn on/off compiler optimization flags
${toggle_pic} turn on/off Position Independent Code
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${toggle_ccache} turn on/off compiler cache
${toggle_debug} enable/disable debug mode
${toggle_gprof} enable/disable gprof profiling instrumentation
${toggle_gcov} enable/disable gcov coverage instrumentation
Install options:
${toggle_install_docs} control whether docs are installed
${toggle_install_bins} control whether binaries are installed
${toggle_install_libs} control whether libraries are installed
${toggle_install_srcs} control whether sources are installed
EOF
}
show_help_post(){
cat <<EOF
NOTES:
Object files are built at the place where configure is launched.
All boolean options can be negated. The default value is the opposite
of that shown above. If the option --disable-foo is listed, then
the default value for foo is enabled.
Supported targets:
EOF
show_targets ${all_platforms}
echo
exit 1
}
show_targets() {
while [ -n "$*" ]; do
if [ "${1%%-*}" = "${2%%-*}" ]; then
if [ "${2%%-*}" = "${3%%-*}" ]; then
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printf " %-24s %-24s %-24s\n" "$1" "$2" "$3"
shift; shift; shift
else
printf " %-24s %-24s\n" "$1" "$2"
shift; shift
fi
else
printf " %-24s\n" "$1"
shift
fi
done
}
show_help() {
show_help_pre
show_help_post
}
#
# List Processing Functions
#
set_all(){
value=$1
shift
for var in $*; do
eval $var=$value
done
}
is_in(){
value=$1
shift
for var in $*; do
[ $var = $value ] && return 0
done
return 1
}
add_cflags() {
CFLAGS="${CFLAGS} $@"
CXXFLAGS="${CXXFLAGS} $@"
}
add_cflags_only() {
CFLAGS="${CFLAGS} $@"
}
add_cxxflags_only() {
CXXFLAGS="${CXXFLAGS} $@"
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}
add_ldflags() {
LDFLAGS="${LDFLAGS} $@"
}
add_asflags() {
ASFLAGS="${ASFLAGS} $@"
}
add_extralibs() {
extralibs="${extralibs} $@"
}
#
# Boolean Manipulation Functions
#
enable(){
set_all yes $*
}
disable(){
set_all no $*
}
enabled(){
eval test "x\$$1" = "xyes"
}
disabled(){
eval test "x\$$1" = "xno"
}
soft_enable() {
for var in $*; do
if ! disabled $var; then
log_echo " enabling $var"
enable $var
fi
done
}
soft_disable() {
for var in $*; do
if ! enabled $var; then
log_echo " disabling $var"
disable $var
fi
done
}
#
# Text Processing Functions
#
toupper(){
echo "$@" | tr abcdefghijklmnopqrstuvwxyz ABCDEFGHIJKLMNOPQRSTUVWXYZ
}
tolower(){
echo "$@" | tr ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz
}
#
# Temporary File Functions
#
source_path=${0%/*}
enable source_path_used
if test -z "$source_path" -o "$source_path" = "." ; then
source_path="`pwd`"
disable source_path_used
fi
if test ! -z "$TMPDIR" ; then
TMPDIRx="${TMPDIR}"
elif test ! -z "$TEMPDIR" ; then
TMPDIRx="${TEMPDIR}"
else
TMPDIRx="/tmp"
fi
TMP_H="${TMPDIRx}/vpx-conf-$$-${RANDOM}.h"
TMP_C="${TMPDIRx}/vpx-conf-$$-${RANDOM}.c"
TMP_O="${TMPDIRx}/vpx-conf-$$-${RANDOM}.o"
TMP_X="${TMPDIRx}/vpx-conf-$$-${RANDOM}.x"
TMP_ASM="${TMPDIRx}/vpx-conf-$$-${RANDOM}.asm"
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clean_temp_files() {
rm -f ${TMP_C} ${TMP_H} ${TMP_O} ${TMP_X} ${TMP_ASM}
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}
#
# Toolchain Check Functions
#
check_cmd() {
enabled external_build && return
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log "$@"
"$@" >>${logfile} 2>&1
}
check_cc() {
log check_cc "$@"
cat >${TMP_C}
log_file ${TMP_C}
check_cmd ${CC} ${CFLAGS} "$@" -c -o ${TMP_O} ${TMP_C}
}
check_cxx() {
log check_cxx "$@"
cat >${TMP_C}
log_file ${TMP_C}
check_cmd ${CXX} ${CXXFLAGS} "$@" -c -o ${TMP_O} ${TMP_C}
}
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check_cpp() {
log check_cpp "$@"
cat > ${TMP_C}
log_file ${TMP_C}
check_cmd ${CC} ${CFLAGS} "$@" -E -o ${TMP_O} ${TMP_C}
}
check_ld() {
log check_ld "$@"
check_cc $@ \
&& check_cmd ${LD} ${LDFLAGS} "$@" -o ${TMP_X} ${TMP_O} ${extralibs}
}
check_header(){
log check_header "$@"
header=$1
shift
var=`echo $header | sed 's/[^A-Za-z0-9_]/_/g'`
disable $var
check_cpp "$@" <<EOF && enable $var
#include "$header"
int x;
EOF
}
check_cflags() {
log check_cflags "$@"
check_cc "$@" <<EOF
int x;
EOF
}
check_cxxflags() {
log check_cxxflags "$@"
# Catch CFLAGS that trigger CXX warnings
case "$CXX" in
*g++*) check_cxx -Werror "$@" <<EOF
int x;
EOF
;;
*) check_cxx "$@" <<EOF
int x;
EOF
;;
esac
}
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check_add_cflags() {
check_cxxflags "$@" && add_cxxflags_only "$@"
check_cflags "$@" && add_cflags_only "$@"
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}
check_add_asflags() {
log add_asflags "$@"
add_asflags "$@"
}
check_add_ldflags() {
log add_ldflags "$@"
add_ldflags "$@"
}
check_asm_align() {
log check_asm_align "$@"
cat >${TMP_ASM} <<EOF
section .rodata
align 16
EOF
log_file ${TMP_ASM}
check_cmd ${AS} ${ASFLAGS} -o ${TMP_O} ${TMP_ASM}
readelf -WS ${TMP_O} >${TMP_X}
log_file ${TMP_X}
if ! grep -q '\.rodata .* 16$' ${TMP_X}; then
die "${AS} ${ASFLAGS} does not support section alignment (nasm <=2.08?)"
fi
}
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write_common_config_banner() {
print_webm_license config.mk "##" ""
echo '# This file automatically generated by configure. Do not edit!' >> config.mk
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echo "TOOLCHAIN := ${toolchain}" >> config.mk
case ${toolchain} in
*-linux-rvct)
echo "ALT_LIBC := ${alt_libc}" >> config.mk
;;
esac
}
write_common_config_targets() {
for t in ${all_targets}; do
if enabled ${t}; then
if enabled universal || enabled child; then
fwrite config.mk "ALL_TARGETS += ${t}-${toolchain}"
else
fwrite config.mk "ALL_TARGETS += ${t}"
fi
fi
true;
done
true
}
write_common_target_config_mk() {
local CC=${CC}
local CXX=${CXX}
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enabled ccache && CC="ccache ${CC}"
enabled ccache && CXX="ccache ${CXX}"
print_webm_license $1 "##" ""
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cat >> $1 << EOF
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# This file automatically generated by configure. Do not edit!
SRC_PATH="$source_path"
SRC_PATH_BARE=$source_path
BUILD_PFX=${BUILD_PFX}
TOOLCHAIN=${toolchain}
ASM_CONVERSION=${asm_conversion_cmd:-${source_path}/build/make/ads2gas.pl}
CC=${CC}
CXX=${CXX}
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AR=${AR}
LD=${LD}
AS=${AS}
STRIP=${STRIP}
NM=${NM}
CFLAGS = ${CFLAGS}
CXXFLAGS = ${CXXFLAGS}
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ARFLAGS = -rus\$(if \$(quiet),c,v)
LDFLAGS = ${LDFLAGS}
ASFLAGS = ${ASFLAGS}
extralibs = ${extralibs}
AS_SFX = ${AS_SFX:-.asm}
EXE_SFX = ${EXE_SFX}
New RTCD implementation This is a proof of concept RTCD implementation to replace the current system of nested includes, prototypes, INVOKE macros, etc. Currently only the decoder specific functions are implemented in the new system. Additional functions will be added in subsequent commits. Overview: RTCD "functions" are implemented as either a global function pointer or a macro (when only one eligible specialization available). Functions which have RTCD specializations are listed using a simple DSL identifying the function's base name, its prototype, and the architecture extensions that specializations are available for. Advantages over the old system: - No INVOKE macros. A call to an RTCD function looks like an ordinary function call. - No need to pass vtables around. - If there is only one eligible function to call, the function is called directly, rather than indirecting through a function pointer. - Supports the notion of "required" extensions, so in combination with the above, on x86_64 if the best function available is sse2 or lower it will be called directly, since all x86_64 platforms implement sse2. - Elides all references to functions which will never be called, which could reduce binary size. For example if sse2 is required and there are both mmx and sse2 implementations of a certain function, the code will have no link time references to the mmx code. - Significantly easier to add a new function, just one file to edit. Disadvantages: - Requires global writable data (though this is not a new requirement) - 1 new generated source file. Change-Id: Iae6edab65315f79c168485c96872641c5aa09d55
2011-08-19 20:06:00 +02:00
RTCD_OPTIONS = ${RTCD_OPTIONS}
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EOF
if enabled rvct; then cat >> $1 << EOF
fmt_deps = sed -e 's;^__image.axf;\${@:.d=.o} \$@;' #hide
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EOF
else cat >> $1 << EOF
fmt_deps = sed -e 's;^\([a-zA-Z0-9_]*\)\.o;\${@:.d=.o} \$@;'
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EOF
fi
print_config_mk ARCH "${1}" ${ARCH_LIST}
print_config_mk HAVE "${1}" ${HAVE_LIST}
print_config_mk CONFIG "${1}" ${CONFIG_LIST}
print_config_mk HAVE "${1}" gnu_strip
enabled msvs && echo "CONFIG_VS_VERSION=${vs_version}" >> "${1}"
}
write_common_target_config_h() {
print_webm_license ${TMP_H} "/*" " */"
cat >> ${TMP_H} << EOF
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/* This file automatically generated by configure. Do not edit! */
#ifndef VPX_CONFIG_H
#define VPX_CONFIG_H
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#define RESTRICT ${RESTRICT}
#define INLINE ${INLINE}
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EOF
print_config_h ARCH "${TMP_H}" ${ARCH_LIST}
print_config_h HAVE "${TMP_H}" ${HAVE_LIST}
print_config_h CONFIG "${TMP_H}" ${CONFIG_LIST}
echo "#endif /* VPX_CONFIG_H */" >> ${TMP_H}
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mkdir -p `dirname "$1"`
cmp "$1" ${TMP_H} >/dev/null 2>&1 || mv ${TMP_H} "$1"
}
process_common_cmdline() {
for opt in "$@"; do
optval="${opt#*=}"
case "$opt" in
--child) enable child
;;
--log*)
logging="$optval"
if ! disabled logging ; then
enabled logging || logfile="$logging"
else
logfile=/dev/null
fi
;;
--target=*) toolchain="${toolchain:-${optval}}"
;;
--force-target=*) toolchain="${toolchain:-${optval}}"; enable force_toolchain
;;
--cpu)
;;
--cpu=*) tune_cpu="$optval"
;;
--extra-cflags=*)
extra_cflags="${optval}"
;;
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--enable-?*|--disable-?*)
eval `echo "$opt" | sed 's/--/action=/;s/-/ option=/;s/-/_/g'`
New RTCD implementation This is a proof of concept RTCD implementation to replace the current system of nested includes, prototypes, INVOKE macros, etc. Currently only the decoder specific functions are implemented in the new system. Additional functions will be added in subsequent commits. Overview: RTCD "functions" are implemented as either a global function pointer or a macro (when only one eligible specialization available). Functions which have RTCD specializations are listed using a simple DSL identifying the function's base name, its prototype, and the architecture extensions that specializations are available for. Advantages over the old system: - No INVOKE macros. A call to an RTCD function looks like an ordinary function call. - No need to pass vtables around. - If there is only one eligible function to call, the function is called directly, rather than indirecting through a function pointer. - Supports the notion of "required" extensions, so in combination with the above, on x86_64 if the best function available is sse2 or lower it will be called directly, since all x86_64 platforms implement sse2. - Elides all references to functions which will never be called, which could reduce binary size. For example if sse2 is required and there are both mmx and sse2 implementations of a certain function, the code will have no link time references to the mmx code. - Significantly easier to add a new function, just one file to edit. Disadvantages: - Requires global writable data (though this is not a new requirement) - 1 new generated source file. Change-Id: Iae6edab65315f79c168485c96872641c5aa09d55
2011-08-19 20:06:00 +02:00
if echo "${ARCH_EXT_LIST}" | grep "^ *$option\$" >/dev/null; then
[ $action = "disable" ] && RTCD_OPTIONS="${RTCD_OPTIONS}${opt} "
elif [ $action = "disable" ] && ! disabled $option ; then
echo "${CMDLINE_SELECT}" | grep "^ *$option\$" >/dev/null ||
die_unknown $opt
elif [ $action = "enable" ] && ! enabled $option ; then
echo "${CMDLINE_SELECT}" | grep "^ *$option\$" >/dev/null ||
die_unknown $opt
New RTCD implementation This is a proof of concept RTCD implementation to replace the current system of nested includes, prototypes, INVOKE macros, etc. Currently only the decoder specific functions are implemented in the new system. Additional functions will be added in subsequent commits. Overview: RTCD "functions" are implemented as either a global function pointer or a macro (when only one eligible specialization available). Functions which have RTCD specializations are listed using a simple DSL identifying the function's base name, its prototype, and the architecture extensions that specializations are available for. Advantages over the old system: - No INVOKE macros. A call to an RTCD function looks like an ordinary function call. - No need to pass vtables around. - If there is only one eligible function to call, the function is called directly, rather than indirecting through a function pointer. - Supports the notion of "required" extensions, so in combination with the above, on x86_64 if the best function available is sse2 or lower it will be called directly, since all x86_64 platforms implement sse2. - Elides all references to functions which will never be called, which could reduce binary size. For example if sse2 is required and there are both mmx and sse2 implementations of a certain function, the code will have no link time references to the mmx code. - Significantly easier to add a new function, just one file to edit. Disadvantages: - Requires global writable data (though this is not a new requirement) - 1 new generated source file. Change-Id: Iae6edab65315f79c168485c96872641c5aa09d55
2011-08-19 20:06:00 +02:00
fi
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$action $option
;;
New RTCD implementation This is a proof of concept RTCD implementation to replace the current system of nested includes, prototypes, INVOKE macros, etc. Currently only the decoder specific functions are implemented in the new system. Additional functions will be added in subsequent commits. Overview: RTCD "functions" are implemented as either a global function pointer or a macro (when only one eligible specialization available). Functions which have RTCD specializations are listed using a simple DSL identifying the function's base name, its prototype, and the architecture extensions that specializations are available for. Advantages over the old system: - No INVOKE macros. A call to an RTCD function looks like an ordinary function call. - No need to pass vtables around. - If there is only one eligible function to call, the function is called directly, rather than indirecting through a function pointer. - Supports the notion of "required" extensions, so in combination with the above, on x86_64 if the best function available is sse2 or lower it will be called directly, since all x86_64 platforms implement sse2. - Elides all references to functions which will never be called, which could reduce binary size. For example if sse2 is required and there are both mmx and sse2 implementations of a certain function, the code will have no link time references to the mmx code. - Significantly easier to add a new function, just one file to edit. Disadvantages: - Requires global writable data (though this is not a new requirement) - 1 new generated source file. Change-Id: Iae6edab65315f79c168485c96872641c5aa09d55
2011-08-19 20:06:00 +02:00
--require-?*)
eval `echo "$opt" | sed 's/--/action=/;s/-/ option=/;s/-/_/g'`
if echo "${ARCH_EXT_LIST}" none | grep "^ *$option\$" >/dev/null; then
RTCD_OPTIONS="${RTCD_OPTIONS}${opt} "
else
die_unknown $opt
fi
;;
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--force-enable-?*|--force-disable-?*)
eval `echo "$opt" | sed 's/--force-/action=/;s/-/ option=/;s/-/_/g'`
$action $option
;;
--libc=*)
[ -d "${optval}" ] || die "Not a directory: ${optval}"
disable builtin_libc
alt_libc="${optval}"
;;
--as=*)
[ "${optval}" = yasm -o "${optval}" = nasm -o "${optval}" = auto ] \
|| die "Must be yasm, nasm or auto: ${optval}"
alt_as="${optval}"
;;
--prefix=*)
prefix="${optval}"
;;
--libdir=*)
libdir="${optval}"
;;
--sdk-path=*)
[ -d "${optval}" ] || die "Not a directory: ${optval}"
sdk_path="${optval}"
;;
--libc|--as|--prefix|--libdir|--sdk-path)
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die "Option ${opt} requires argument"
;;
--help|-h) show_help
;;
*) die_unknown $opt
;;
esac
done
}
process_cmdline() {
for opt do
optval="${opt#*=}"
case "$opt" in
*) process_common_cmdline $opt
;;
esac
done
}
post_process_common_cmdline() {
prefix="${prefix:-/usr/local}"
prefix="${prefix%/}"
libdir="${libdir:-${prefix}/lib}"
libdir="${libdir%/}"
if [ "${libdir#${prefix}}" = "${libdir}" ]; then
die "Libdir ${libdir} must be a subdirectory of ${prefix}"
fi
}
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post_process_cmdline() {
true;
}
setup_gnu_toolchain() {
CC=${CC:-${CROSS}gcc}
CXX=${CXX:-${CROSS}g++}
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AR=${AR:-${CROSS}ar}
LD=${LD:-${CROSS}${link_with_cc:-ld}}
AS=${AS:-${CROSS}as}
STRIP=${STRIP:-${CROSS}strip}
NM=${NM:-${CROSS}nm}
AS_SFX=.s
EXE_SFX=
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}
process_common_toolchain() {
if [ -z "$toolchain" ]; then
gcctarget="${CHOST:-$(gcc -dumpmachine 2> /dev/null)}"
# detect tgt_isa
case "$gcctarget" in
armv6*)
tgt_isa=armv6
;;
armv7*-hardfloat*)
tgt_isa=armv7
float_abi=hard
;;
armv7*)
tgt_isa=armv7
float_abi=softfp
;;
armv5te*)
tgt_isa=armv5te
;;
*x86_64*|*amd64*)
tgt_isa=x86_64
;;
*i[3456]86*)
tgt_isa=x86
;;
*powerpc64*)
tgt_isa=ppc64
;;
*powerpc*)
tgt_isa=ppc32
;;
*sparc*)
tgt_isa=sparc
;;
esac
# detect tgt_os
case "$gcctarget" in
*darwin8*)
tgt_isa=universal
tgt_os=darwin8
;;
*darwin9*)
tgt_isa=universal
tgt_os=darwin9
;;
*darwin10*)
tgt_isa=x86_64
tgt_os=darwin10
;;
*darwin11*)
tgt_isa=x86_64
tgt_os=darwin11
;;
*darwin12*)
tgt_isa=x86_64
tgt_os=darwin12
;;
x86_64*mingw32*)
tgt_os=win64
;;
*mingw32*|*cygwin*)
[ -z "$tgt_isa" ] && tgt_isa=x86
tgt_os=win32
;;
*linux*|*bsd*)
tgt_os=linux
;;
*solaris2.10)
tgt_os=solaris
;;
*os2*)
tgt_os=os2
;;
esac
if [ -n "$tgt_isa" ] && [ -n "$tgt_os" ]; then
toolchain=${tgt_isa}-${tgt_os}-gcc
fi
fi
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toolchain=${toolchain:-generic-gnu}
is_in ${toolchain} ${all_platforms} || enabled force_toolchain \
|| die "Unrecognized toolchain '${toolchain}'"
enabled child || log_echo "Configuring for target '${toolchain}'"
#
# Set up toolchain variables
#
tgt_isa=$(echo ${toolchain} | awk 'BEGIN{FS="-"}{print $1}')
tgt_os=$(echo ${toolchain} | awk 'BEGIN{FS="-"}{print $2}')
tgt_cc=$(echo ${toolchain} | awk 'BEGIN{FS="-"}{print $3}')
# Mark the specific ISA requested as enabled
soft_enable ${tgt_isa}
enable ${tgt_os}
enable ${tgt_cc}
# Enable the architecture family
case ${tgt_isa} in
arm*) enable arm;;
mips*) enable mips;;
2010-05-18 17:58:33 +02:00
esac
# PIC is probably what we want when building shared libs
enabled shared && soft_enable pic
# Handle darwin variants. Newer SDKs allow targeting older
# platforms, so find the newest SDK available.
case ${toolchain} in
*-darwin*)
if [ -z "${DEVELOPER_DIR}" ]; then
DEVELOPER_DIR=`xcode-select -print-path 2> /dev/null`
[ $? -ne 0 ] && OSX_SKIP_DIR_CHECK=1
fi
if [ -z "${OSX_SKIP_DIR_CHECK}" ]; then
OSX_SDK_ROOTS="${DEVELOPER_DIR}/SDKs"
OSX_SDK_VERSIONS="MacOSX10.4u.sdk MacOSX10.5.sdk MacOSX10.6.sdk"
OSX_SDK_VERSIONS="${OSX_SDK_VERSIONS} MacOSX10.7.sdk"
for v in ${OSX_SDK_VERSIONS}; do
if [ -d "${OSX_SDK_ROOTS}/${v}" ]; then
osx_sdk_dir="${OSX_SDK_ROOTS}/${v}"
fi
done
fi
;;
esac
if [ -d "${osx_sdk_dir}" ]; then
add_cflags "-isysroot ${osx_sdk_dir}"
add_ldflags "-isysroot ${osx_sdk_dir}"
fi
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case ${toolchain} in
*-darwin8-*)
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add_cflags "-mmacosx-version-min=10.4"
add_ldflags "-mmacosx-version-min=10.4"
;;
*-darwin9-*)
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add_cflags "-mmacosx-version-min=10.5"
add_ldflags "-mmacosx-version-min=10.5"
;;
*-darwin10-*)
add_cflags "-mmacosx-version-min=10.6"
add_ldflags "-mmacosx-version-min=10.6"
;;
*-darwin11-*)
add_cflags "-mmacosx-version-min=10.7"
add_ldflags "-mmacosx-version-min=10.7"
;;
*-darwin12-*)
add_cflags "-mmacosx-version-min=10.8"
add_ldflags "-mmacosx-version-min=10.8"
;;
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esac
# Handle Solaris variants. Solaris 10 needs -lposix4
case ${toolchain} in
sparc-solaris-*)
add_extralibs -lposix4
disable fast_unaligned
;;
*-solaris-*)
add_extralibs -lposix4
;;
esac
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# Process ARM architecture variants
case ${toolchain} in
arm*)
# on arm, isa versions are supersets
case ${tgt_isa} in
armv7)
soft_enable neon
soft_enable media
soft_enable edsp
soft_enable fast_unaligned
;;
armv6)
soft_enable media
soft_enable edsp
soft_enable fast_unaligned
;;
armv5te)
soft_enable edsp
disable fast_unaligned
;;
esac
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asm_conversion_cmd="cat"
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case ${tgt_cc} in
gcc)
CROSS=${CROSS:-arm-none-linux-gnueabi-}
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link_with_cc=gcc
setup_gnu_toolchain
arch_int=${tgt_isa##armv}
arch_int=${arch_int%%te}
check_add_asflags --defsym ARCHITECTURE=${arch_int}
tune_cflags="-mtune="
if [ ${tgt_isa} == "armv7" ]; then
[ -z "${float_abi}" ] && float_abi=softfp
check_add_cflags -march=armv7-a -mfloat-abi=${float_abi}
check_add_asflags -march=armv7-a -mfloat-abi=${float_abi}
if enabled neon
then
check_add_cflags -mfpu=neon #-ftree-vectorize
check_add_asflags -mfpu=neon
fi
if [ -z "${tune_cpu}" ]; then
tune_cpu=cortex-a8
fi
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else
check_add_cflags -march=${tgt_isa}
check_add_asflags -march=${tgt_isa}
fi
enabled debug && add_asflags -g
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asm_conversion_cmd="${source_path}/build/make/ads2gas.pl"
;;
rvct)
CC=armcc
AR=armar
AS=armasm
LD=${source_path}/build/make/armlink_adapter.sh
STRIP=arm-none-linux-gnueabi-strip
NM=arm-none-linux-gnueabi-nm
tune_cflags="--cpu="
tune_asflags="--cpu="
if [ -z "${tune_cpu}" ]; then
if [ ${tgt_isa} == "armv7" ]; then
if enabled neon
then
check_add_cflags --fpu=softvfp+vfpv3
check_add_asflags --fpu=softvfp+vfpv3
fi
check_add_cflags --cpu=Cortex-A8
check_add_asflags --cpu=Cortex-A8
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else
check_add_cflags --cpu=${tgt_isa##armv}
check_add_asflags --cpu=${tgt_isa##armv}
fi
fi
arch_int=${tgt_isa##armv}
arch_int=${arch_int%%te}
check_add_asflags --pd "\"ARCHITECTURE SETA ${arch_int}\""
enabled debug && add_asflags -g
add_cflags --gnu
add_cflags --enum_is_int
add_cflags --wchar32
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;;
esac
case ${tgt_os} in
none*)
disable multithread
disable os_support
;;
android*)
SDK_PATH=${sdk_path}
COMPILER_LOCATION=`find "${SDK_PATH}" \
-name "arm-linux-androideabi-gcc*" -print -quit`
TOOLCHAIN_PATH=${COMPILER_LOCATION%/*}/arm-linux-androideabi-
CC=${TOOLCHAIN_PATH}gcc
CXX=${TOOLCHAIN_PATH}g++
AR=${TOOLCHAIN_PATH}ar
LD=${TOOLCHAIN_PATH}gcc
AS=${TOOLCHAIN_PATH}as
STRIP=${TOOLCHAIN_PATH}strip
NM=${TOOLCHAIN_PATH}nm
if [ -z "${alt_libc}" ]; then
alt_libc=`find "${SDK_PATH}" -name arch-arm -print | \
awk '{n = split($0,a,"/"); \
split(a[n-1],b,"-"); \
print $0 " " b[2]}' | \
sort -g -k 2 | \
awk '{ print $1 }' | tail -1`
fi
add_cflags "--sysroot=${alt_libc}"
add_ldflags "--sysroot=${alt_libc}"
# linker flag that routes around a CPU bug in some
# Cortex-A8 implementations (NDK Dev Guide)
add_ldflags "-Wl,--fix-cortex-a8"
enable pic
soft_enable realtime_only
if [ ${tgt_isa} == "armv7" ]; then
soft_enable runtime_cpu_detect
fi
if enabled runtime_cpu_detect; then
add_cflags "-I${SDK_PATH}/sources/android/cpufeatures"
fi
;;
2010-05-18 17:58:33 +02:00
darwin*)
if [ -z "${sdk_path}" ]; then
SDK_PATH=`xcode-select -print-path 2> /dev/null`
SDK_PATH=${SDK_PATH}/Platforms/iPhoneOS.platform/Developer
else
SDK_PATH=${sdk_path}
fi
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TOOLCHAIN_PATH=${SDK_PATH}/usr/bin
CXX=${TOOLCHAIN_PATH}/g++
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CC=${TOOLCHAIN_PATH}/gcc
AR=${TOOLCHAIN_PATH}/ar
LD=${TOOLCHAIN_PATH}/arm-apple-darwin10-llvm-gcc-4.2
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AS=${TOOLCHAIN_PATH}/as
STRIP=${TOOLCHAIN_PATH}/strip
NM=${TOOLCHAIN_PATH}/nm
AS_SFX=.s
# ASFLAGS is written here instead of using check_add_asflags
# because we need to overwrite all of ASFLAGS and purge the
# options that were put in above
ASFLAGS="-version -arch ${tgt_isa} -g"
add_cflags -arch ${tgt_isa}
add_ldflags -arch_only ${tgt_isa}
if [ -z "${alt_libc}" ]; then
alt_libc=${SDK_PATH}/SDKs/iPhoneOS5.1.sdk
fi
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add_cflags "-isysroot ${alt_libc}"
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# Add the paths for the alternate libc
for d in usr/include; do
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try_dir="${alt_libc}/${d}"
[ -d "${try_dir}" ] && add_cflags -I"${try_dir}"
done
for d in lib usr/lib usr/lib/system; do
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try_dir="${alt_libc}/${d}"
[ -d "${try_dir}" ] && add_ldflags -L"${try_dir}"
done
asm_conversion_cmd="${source_path}/build/make/ads2gas_apple.pl"
;;
linux*)
enable linux
if enabled rvct; then
# Check if we have CodeSourcery GCC in PATH. Needed for
# libraries
hash arm-none-linux-gnueabi-gcc 2>&- || \
die "Couldn't find CodeSourcery GCC from PATH"
# Use armcc as a linker to enable translation of
# some gcc specific options such as -lm and -lpthread.
LD="armcc --translate_gcc"
# create configuration file (uses path to CodeSourcery GCC)
armcc --arm_linux_configure --arm_linux_config_file=arm_linux.cfg
add_cflags --arm_linux_paths --arm_linux_config_file=arm_linux.cfg
add_asflags --no_hide_all --apcs=/interwork
add_ldflags --arm_linux_paths --arm_linux_config_file=arm_linux.cfg
enabled pic && add_cflags --apcs=/fpic
enabled pic && add_asflags --apcs=/fpic
enabled shared && add_cflags --shared
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fi
;;
esac
;;
mips*)
link_with_cc=gcc
setup_gnu_toolchain
tune_cflags="-mtune="
if enabled dspr2; then
check_add_cflags -mips32r2 -mdspr2
disable fast_unaligned
fi
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check_add_cflags -march=${tgt_isa}
check_add_asflags -march=${tgt_isa}
check_add_asflags -KPIC
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;;
ppc*)
enable ppc
bits=${tgt_isa##ppc}
link_with_cc=gcc
setup_gnu_toolchain
add_asflags -force_cpusubtype_ALL -I"\$(dir \$<)darwin"
soft_enable altivec
enabled altivec && add_cflags -maltivec
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case "$tgt_os" in
linux*)
add_asflags -maltivec -mregnames -I"\$(dir \$<)linux"
;;
darwin*)
darwin_arch="-arch ppc"
enabled ppc64 && darwin_arch="${darwin_arch}64"
add_cflags ${darwin_arch} -m${bits} -fasm-blocks
add_asflags ${darwin_arch} -force_cpusubtype_ALL -I"\$(dir \$<)darwin"
add_ldflags ${darwin_arch} -m${bits}
enabled altivec && add_cflags -faltivec
2010-05-18 17:58:33 +02:00
;;
esac
;;
x86*)
bits=32
enabled x86_64 && bits=64
check_cpp <<EOF && bits=x32
#ifndef __ILP32__
#error "not x32"
#endif
EOF
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case ${tgt_os} in
win*)
enabled gcc && add_cflags -fno-common
;;
2010-05-18 17:58:33 +02:00
solaris*)
CC=${CC:-${CROSS}gcc}
CXX=${CXX:-${CROSS}g++}
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LD=${LD:-${CROSS}gcc}
CROSS=${CROSS:-g}
;;
os2)
AS=${AS:-nasm}
;;
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esac
AS="${alt_as:-${AS:-auto}}"
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case ${tgt_cc} in
icc*)
CC=${CC:-icc}
LD=${LD:-icc}
setup_gnu_toolchain
add_cflags -use-msasm -use-asm
add_ldflags -i-static
enabled x86_64 && add_cflags -ipo -no-prec-div -static -xSSE2 -axSSE2
enabled x86_64 && AR=xiar
case ${tune_cpu} in
atom*)
tune_cflags="-x"
tune_cpu="SSE3_ATOM"
;;
*)
tune_cflags="-march="
;;
esac
;;
2010-05-18 17:58:33 +02:00
gcc*)
add_cflags -m${bits}
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add_ldflags -m${bits}
link_with_cc=gcc
tune_cflags="-march="
setup_gnu_toolchain
#for 32 bit x86 builds, -O3 did not turn on this flag
enabled optimizations && check_add_cflags -fomit-frame-pointer
;;
vs*)
# When building with Microsoft Visual Studio the assembler is
# invoked directly. Checking at configure time is unnecessary.
# Skip the check by setting AS arbitrarily
AS=msvs
;;
2010-05-18 17:58:33 +02:00
esac
soft_enable runtime_cpu_detect
soft_enable mmx
soft_enable sse
soft_enable sse2
soft_enable sse3
soft_enable ssse3
# We can't use 'check_cflags' until the compiler is configured and CC is
# populated.
if enabled gcc && ! disabled sse4_1 && ! check_cflags -msse4; then
RTCD_OPTIONS="${RTCD_OPTIONS}--disable-sse4_1 "
else
soft_enable sse4_1
fi
case "${AS}" in
auto|"")
which nasm >/dev/null 2>&1 && AS=nasm
which yasm >/dev/null 2>&1 && AS=yasm
[ "${AS}" = auto -o -z "${AS}" ] \
&& die "Neither yasm nor nasm have been found"
;;
esac
log_echo " using $AS"
[ "${AS##*/}" = nasm ] && add_asflags -Ox
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AS_SFX=.asm
case ${tgt_os} in
win32)
add_asflags -f win32
enabled debug && add_asflags -g cv8
EXE_SFX=.exe
;;
win64)
add_asflags -f x64
enabled debug && add_asflags -g cv8
EXE_SFX=.exe
2010-05-18 17:58:33 +02:00
;;
linux*|solaris*|android*)
2010-05-18 17:58:33 +02:00
add_asflags -f elf${bits}
enabled debug && [ "${AS}" = yasm ] && add_asflags -g dwarf2
enabled debug && [ "${AS}" = nasm ] && add_asflags -g
[ "${AS##*/}" = nasm ] && check_asm_align
2010-05-18 17:58:33 +02:00
;;
darwin*)
add_asflags -f macho${bits}
enabled x86 && darwin_arch="-arch i386" || darwin_arch="-arch x86_64"
add_cflags ${darwin_arch}
add_ldflags ${darwin_arch}
# -mdynamic-no-pic is still a bit of voodoo -- it was required at
# one time, but does not seem to be now, and it breaks some of the
# code that still relies on inline assembly.
# enabled icc && ! enabled pic && add_cflags -fno-pic -mdynamic-no-pic
enabled icc && ! enabled pic && add_cflags -fno-pic
;;
os2)
add_asflags -f aout
enabled debug && add_asflags -g
EXE_SFX=.exe
;;
*) log "Warning: Unknown os $tgt_os while setting up $AS flags"
2010-05-18 17:58:33 +02:00
;;
esac
;;
universal*|*-gcc|generic-gnu)
link_with_cc=gcc
enable gcc
2010-05-18 17:58:33 +02:00
setup_gnu_toolchain
;;
esac
# Try to enable CPU specific tuning
if [ -n "${tune_cpu}" ]; then
if [ -n "${tune_cflags}" ]; then
check_add_cflags ${tune_cflags}${tune_cpu} || \
die "Requested CPU '${tune_cpu}' not supported by compiler"
fi
if [ -n "${tune_asflags}" ]; then
check_add_asflags ${tune_asflags}${tune_cpu} || \
die "Requested CPU '${tune_cpu}' not supported by assembler"
fi
if [ -z "${tune_cflags}${tune_asflags}" ]; then
log_echo "Warning: CPU tuning not supported by this toolchain"
fi
fi
enabled debug && check_add_cflags -g && check_add_ldflags -g
enabled gprof && check_add_cflags -pg && check_add_ldflags -pg
enabled gcov &&
check_add_cflags -fprofile-arcs -ftest-coverage &&
check_add_ldflags -fprofile-arcs -ftest-coverage
if enabled optimizations; then
if enabled rvct; then
enabled small && check_add_cflags -Ospace || check_add_cflags -Otime
else
enabled small && check_add_cflags -O2 || check_add_cflags -O3
fi
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fi
# Position Independent Code (PIC) support, for building relocatable
2010-05-18 17:58:33 +02:00
# shared objects
enabled gcc && enabled pic && check_add_cflags -fPIC
# Work around longjmp interception on glibc >= 2.11, to improve binary
# compatibility. See http://code.google.com/p/webm/issues/detail?id=166
enabled linux && check_add_cflags -U_FORTIFY_SOURCE -D_FORTIFY_SOURCE=0
2010-05-18 17:58:33 +02:00
# Check for strip utility variant
${STRIP} -V 2>/dev/null | grep GNU >/dev/null && enable gnu_strip
# Try to determine target endianness
check_cc <<EOF
unsigned int e = 'O'<<24 | '2'<<16 | 'B'<<8 | 'E';
EOF
[ -f "${TMP_O}" ] && od -A n -t x1 "${TMP_O}" | tr -d '\n' |
grep '4f *32 *42 *45' >/dev/null 2>&1 && enable big_endian
# Try to find which inline keywords are supported
check_cc <<EOF && INLINE="inline"
static inline function() {}
EOF
check_cc <<EOF && INLINE="__attribute__((always_inline))"
static __attribute__((always_inline)) function() {}
EOF
2010-05-18 17:58:33 +02:00
# Almost every platform uses pthreads.
if enabled multithread; then
case ${toolchain} in
*-win*-vs*);;
*-android-gcc);;
2010-05-18 17:58:33 +02:00
*) check_header pthread.h && add_extralibs -lpthread
esac
fi
# only for MIPS platforms
case ${toolchain} in
mips*)
if enabled dspr2; then
if enabled big_endian; then
echo "dspr2 optimizations are available only for little endian platforms"
disable dspr2
fi
fi
;;
esac
2010-05-18 17:58:33 +02:00
# glibc needs these
if enabled linux; then
add_cflags -D_LARGEFILE_SOURCE
add_cflags -D_FILE_OFFSET_BITS=64
2010-05-18 17:58:33 +02:00
fi
# append any user defined extra cflags
if [ -n "${extra_cflags}" ] ; then
check_add_cflags ${extra_cflags} || \
die "Requested extra CFLAGS '${extra_cflags}' not supported by compiler"
fi
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}
process_toolchain() {
process_common_toolchain
}
print_config_mk() {
local prefix=$1
local makefile=$2
2010-05-18 17:58:33 +02:00
shift 2
for cfg; do
upname="`toupper $cfg`"
if enabled $cfg; then
echo "${prefix}_${upname}=yes" >> $makefile
fi
done
}
print_config_h() {
local prefix=$1
local header=$2
2010-05-18 17:58:33 +02:00
shift 2
for cfg; do
upname="`toupper $cfg`"
if enabled $cfg; then
echo "#define ${prefix}_${upname} 1" >> $header
else
echo "#define ${prefix}_${upname} 0" >> $header
fi
done
}
print_webm_license() {
local destination=$1
local prefix=$2
local suffix=$3
shift 3
cat <<EOF > ${destination}
${prefix} Copyright (c) 2011 The WebM project authors. All Rights Reserved.${suffix}
${prefix} ${suffix}
${prefix} Use of this source code is governed by a BSD-style license${suffix}
${prefix} that can be found in the LICENSE file in the root of the source${suffix}
${prefix} tree. An additional intellectual property rights grant can be found${suffix}
${prefix} in the file PATENTS. All contributing project authors may${suffix}
${prefix} be found in the AUTHORS file in the root of the source tree.${suffix}
EOF
}
2010-05-18 17:58:33 +02:00
process_targets() {
true;
}
process_detect() {
true;
}
enable logging
logfile="config.err"
self=$0
process() {
cmdline_args="$@"
process_cmdline "$@"
if enabled child; then
echo "# ${self} $@" >> ${logfile}
else
echo "# ${self} $@" > ${logfile}
fi
post_process_common_cmdline
2010-05-18 17:58:33 +02:00
post_process_cmdline
process_toolchain
process_detect
process_targets
OOT_INSTALLS="${OOT_INSTALLS}"
if enabled source_path_used; then
# Prepare the PWD for building.
for f in ${OOT_INSTALLS}; do
install -D ${source_path}/$f $f
done
fi
cp ${source_path}/build/make/Makefile .
clean_temp_files
true
}