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git-svn-id: https://svn.disconnected-by-peer.at/svn/linamh/trunk/linamh@2782 6952d904-891a-0410-993b-d76249ca496b
This commit is contained in:
geos_one 2010-12-15 21:30:01 +00:00
parent e863d996c6
commit f541fc1877
5 changed files with 1038 additions and 720 deletions
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222
eclass/fortran.eclass Normal file
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# Copyright 1999-2004 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
# $Header: /var/cvsroot/gentoo-x86/eclass/fortran.eclass,v 1.21 2009/03/07 10:02:33 maekke Exp $
#
# Author: Danny van Dyk <kugelfang@gentoo.org>
#
inherit eutils autotools
DESCRIPTION="Based on the ${ECLASS} eclass"
IUSE="debug"
#DEPEND="virtual/fortran" # Let's aim for this...
# Which Fortran Compiler has been selected ?
export FORTRANC
# These are the options to ./configure / econf that enable the usage
# of a specific Fortran Compiler. If your package uses a different
# option that the one listed here, overwrite it in your ebuild.
g77_CONF="--with-f77"
f2c_CONF="--with-f2c"
# This function prints the necessary options for the currently selected
# Fortran Compiler.
fortran_conf() {
echo $(eval echo \${$(echo -n ${FORTRANC})_CONF})
}
# need_fortran(<profiles>):
# profiles = <profile> ... <profile>
#
# profile:
# * gfortran - GCC Fortran 95
# * g77 - GCC Fortran 77
# * f2c - Fortran 2 C Translator
# * ifc - Intel Fortran Compiler
# * f95 - Sun Studio Fortran Compiler
#
# Checks if at least one of <profiles> is installed.
# Checks also if F77 (the fortran compiler to use) is available
# on the System.
need_fortran() {
if [ -z "$*" ]; then
eerror "Call need_fortran with at least one argument !"
fi
local AVAILABLE
local PROFILE
for PROFILE in $@; do
case ${PROFILE} in
gfortran)
if [ -x "$(type -P gfortran 2> /dev/null)" ]; then
AVAILABLE="${AVAILABLE} gfortran"
fi
;;
g77)
if [ -x "$(type -P g77 2> /dev/null)" ]; then
AVAILABLE="${AVAILABLE} g77"
fi
;;
f2c)
if [ -x "$(type -P f2c 2> /dev/null)" ]; then
AVAILABLE="${AVAILABLE} f2c"
fi
;;
ifc)
case ${ARCH} in
x86|ia64|amd64)
if [ -x "$(type -P ifort 2> /dev/null)" ]; then
AVAILABLE="${AVAILABLE} ifort"
elif [ -x "$(type -P ifc 2> /dev/null)" ]; then
AVAILABLE="${AVAILABLE} ifc"
fi
;;
*)
;;
esac
;;
f95)
case ${ARCH} in
x86|amd64)
if [ -x "$(type -P f95 2> /dev/null)" ]; then
AVAILABLE="${AVAILABLE} f95"
fi
;;
*)
;;
esac
;;
esac
done
# add the ${CHOST} variants so that one may do FC=$(potageq envvar CHOST)-gfortran
for A in ${AVAILABLE}; do
AVAILABLE="${AVAILABLE} ${CHOST}-${A}"
done
AVAILABLE="${AVAILABLE/^[[:space:]]}"
use debug && echo ${AVAILABLE}
if [ -z "${AVAILABLE}" ]; then
eerror "None of the needed Fortran Compilers ($@) is installed."
eerror "To install one of these, choose one of the following steps:"
i=1
for PROFILE in $@; do
case ${PROFILE} in
gfortran)
eerror "[${i}] USE=\"fortran\" emerge =sys-devel/gcc-4*"
;;
g77)
eerror "[${i}] USE=\"fortran\" emerge =sys-devel/gcc-3*"
;;
f2c)
eerror "[${i}] emerge dev-lang/f2c"
;;
ifc)
case ${ARCH} in
x86|ia64)
eerror "[${i}] emerge dev-lang/ifc"
;;
*)
;;
esac
;;
f95)
case ${ARCH} in
x86|amd64)
eerror "[${i}] emerge dev-lang/sunstudio"
;;
*)
;;
esac
;;
esac
i=$((i + 1))
done
die "Install a Fortran Compiler !"
else
einfo "You need one of these Fortran Compilers: $@"
einfo "Installed are: ${AVAILABLE}"
if [ -n "${F77}" -o -n "${FC}" -o -n "${F2C}" ]; then
if [ -n "${F77}" ]; then
FC="${F77}" # F77 overwrites FC
fi
if [ -n "${FC}" -a -n "${F2C}" ]; then
ewarn "Using ${FC} and f2c is impossible. Disabling F2C !"
F2C="" # Disabling f2c
MY_FORTRAN="$(basename ${FC})" # set MY_FORTRAN to filename of
# the Fortran Compiler
else
if [ -n "${F2C}" ]; then
MY_FORTRAN="$(basename ${F2C})"
elif [ -n "${FC}" ]; then
MY_FORTRAN="$(basename ${FC})"
else
MY_FORTRAN="$(basename ${F77})"
fi
fi
fi
# default to gfortran if available, g77 if not
use debug && echo "MY_FORTRAN: \"${MY_FORTRAN}\""
if hasq gfortran ${AVAILABLE}; then
MY_FORTRAN=${MY_FORTRAN:=gfortran}
elif hasq g77 ${AVAILABLE}; then
MY_FORTRAN=${MY_FORTRAN:=g77}
else
# Default to the first valid Fortran compiler
for i in ${AVAILABLE}; do
MY_FORTRAN=$i
break
done
fi
use debug && echo "MY_FORTRAN: \"${MY_FORTRAN}\""
if ! hasq ${MY_FORTRAN} ${AVAILABLE}; then
eerror "Current Fortran Compiler is set to ${MY_FORTRAN}, which is not usable with this package !"
die "Wrong Fortran Compiler !"
fi
case ${MY_FORTRAN/${CHOST}-} in
gfortran|g77|ifc|ifort|f2c|f95)
FORTRANC="${MY_FORTRAN}"
esac
fi
use debug && echo "FORTRANC: \"${FORTRANC}\""
}
# patch_fortran():
# Apply necessary patches for ${FORTRANC}
patch_fortran() {
if [[ -z "${FORTRANC}" || ! -d "${FILESDIR}" ]]; then
return
fi
local PATCHES=$(find ${FILESDIR} -name "${P}-${FORTRANC/${CHOST}-}-*")
einfo "Applying patches for selected FORTRAN compiler: ${FORTRANC} (${FORTRANC/${CHOST}-})"
local PATCH
if [ -n "${PATCHES}" ]; then
for PATCH in ${PATCHES}; do
epatch ${PATCH}
done
eautoreconf
fi
}
# fortran_pkg_setup():
# Set FORTRAN to indicate the list of Fortran Compiler that
# can be used for the ebuild.
# If not set in ebuild, FORTRAN will default to f77
fortran_pkg_setup() {
need_fortran ${FORTRAN:="gfortran g77"}
}
# fortran_src_unpack():
# Run patch_fortran if no new src_unpack() is defined.
fortran_src_unpack() {
unpack ${A}
cd "${S}"
patch_fortran
}
EXPORT_FUNCTIONS pkg_setup src_unpack

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eclass/multilib-native.eclass
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@ -1,717 +0,0 @@
# Copyright 1999-2008 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
# $Header: $
#
# @ECLASS: multilib-native.eclass
# @MAINTAINER:
# Steven Newbury <steve@snewbury.org.uk>
# @BLURB: Provide infrastructure for native multilib ebuilds
IUSE="${IUSE} lib32"
DEPEND="${DEPEND} sys-apps/abi-wrapper"
RDEPEND="${RDEPEND} sys-apps/abi-wrapper"
if use lib32; then
EMULTILIB_PKG="true"
fi
inherit base multilib
case "${EAPI:-0}" in
2|3)
EXPORT_FUNCTIONS pkg_setup src_unpack src_prepare src_configure src_compile src_install pkg_preinst pkg_postinst pkg_postrm
;;
*)
EXPORT_FUNCTIONS pkg_setup src_unpack src_compile src_install pkg_preinst pkg_postinst pkg_postrm
;;
esac
# -----------------------------------------------------------------------------
# @VARIABLE: EMULTILIB_SAVE_VARS
# @DESCRIPTION: Environment variables to save
# EMULTILIB_SAVE_VARS="${EMULTILIB_SAVE_VARS}
# AS CC CXX FC LD ASFLAGS CFLAGS CXXFLAGS FCFLAGS FFLAGS LDFLAGS
# CHOST CBUILD CDEFINE LIBDIR S CCACHE_DIR myconf PYTHON PERLBIN
# QMAKE QMAKESPEC QTBINDIR QTBASEDIR QTLIBDIR QTPCDIR
# QTPLUGINDIR CMAKE_BUILD_DIR mycmakeargs KDE_S POPPLER_MODULE_S
# ECONF_SOURCE MY_LIBDIR MOZLIBDIR SDKDIR G2CONF PKG_CONFIG_PATH
# DESTTREE SRC_PREP USE_64"
EMULTILIB_SAVE_VARS="${EMULTILIB_SAVE_VARS}
AS CC CXX FC LD ASFLAGS CFLAGS CXXFLAGS FCFLAGS FFLAGS LDFLAGS
CHOST CBUILD CDEFINE LIBDIR S CCACHE_DIR myconf PYTHON PERLBIN
QMAKE QMAKESPEC QTBINDIR QTBASEDIR QTLIBDIR QTPCDIR
QTPLUGINDIR CMAKE_BUILD_DIR mycmakeargs KDE_S POPPLER_MODULE_S
ECONF_SOURCE MY_LIBDIR MOZLIBDIR SDKDIR G2CONF PKG_CONFIG_PATH
DESTTREE SRC_PREP USE_64 osname mythreading myarch PRIV_LIB
SITE_LIB SITE_ARCH VENDOR_LIB VENDOR_ARCH ARCH_LIB"
# @VARIABLE: EMULTILIB_SOURCE_DIRNAME
# @DESCRIPTION: Holds the name of the source directory
# EMULTILIB_SOURCE_DIRNAME=""
EMULTILIB_SOURCE_DIRNAME=""
# @VARIABLE: EMULTILIB_SOURCE
# @DESCRIPTION:
# PATH to the top-level source directory. This may be used in multilib-ised
# ebuilds choosing to make use of external build directories for installing
# files from the top of the source tree although for builds with external
# build directories it's sometimes more appropriate to use ${ECONF_SOURCE}.
# EMULTILIB_SOURCE=""
EMULTILIB_SOURCE=""
# @VARIABLE: EMULTILIB_RELATIVE_BUILD_DIR
# @DESCRIPTION:
# EMULTILIB_RELATIVE_BUILD_DIR=""
EMULTILIB_RELATIVE_BUILD_DIR=""
# @VARIABLE: CMAKE_BUILD_DIR
# @DESCRIPTION:
# Despite the name, this is used for all build systems within this eclass.
# Usually this is the same as ${S}, except when using an external build
# directory. (This is per ABI and so is saved/restored for each phase.)
# CMAKE_BUILD_DIR=""
CMAKE_BUILD_DIR=""
# @VARIABLE: EMULTILIB_INHERITED
# @DESCRIPTION:
# Holds a list of inherited eclasses
# is this var is onlky used in multilib-native_check_inherited_funcs
EMULTILIB_INHERITED=""
# -----------------------------------------------------------------------------
# @FUNCTION: multilib-native_pkg_setup
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the pkg_setup phase
multilib-native_pkg_setup() {
multilib-native_src_generic pkg_setup
}
# @FUNCTION: multilib-native_src_unpack
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the src_unpack phase
multilib-native_src_unpack() {
multilib-native_src_generic src_unpack
}
# @FUNCTION: multilib-native_src_prepare
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the src_prepare phase
multilib-native_src_prepare() {
multilib-native_src_generic src_prepare
}
# @FUNCTION: multilib-native_src_configure
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the src_configure phase
multilib-native_src_configure() {
multilib-native_src_generic src_configure
}
# @FUNCTION: multilib-native_src_compile
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the src_compile phase
multilib-native_src_compile() {
multilib-native_src_generic src_compile
}
# @FUNCTION: multilib-native_src_install
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the src_install phase
multilib-native_src_install() {
multilib-native_src_generic src_install
}
# @FUNCTION: multilib-native_pkg_preinst
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the pkg_preinst phase
multilib-native_pkg_preinst() {
multilib-native_src_generic pkg_preinst
}
# @FUNCTION: multilib-native_pkg_postinst
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the pkg_postinst phase
multilib-native_pkg_postinst() {
multilib-native_src_generic pkg_postinst
}
# @FUNCTION: multilib-native_pkg_postrm
# @USAGE:
# @DESCRIPTION: This is a multilib wrapper for the pkg_postrm phase
multilib-native_pkg_postrm() {
multilib-native_src_generic pkg_postrm
}
# @FUNCTION: multilib_debug
# @USAGE: <name_of_variable> <content_of_variable>
# @DESCRIPTION: print debug output if MULTILIB_DEBUG is set
multilib_debug() {
[[ -n ${MULTILIB_DEBUG} ]] && einfo "MULTILIB_DEBUG: ${1}=\"${2}\""
}
# -----------------------------------------------------------------------------
# Internal function
# @FUNCTION: multilib-native_src_generic
# @USAGE: <phase>
# @DESCRIPTION: Run each phase for each "install ABI"
multilib-native_src_generic() {
# Recurse this function for each ABI from get_install_abis()
if [[ -n ${EMULTILIB_PKG} ]] && [[ -z ${OABI} ]] ; then
local abilist=""
if has_multilib_profile ; then
abilist=$(get_install_abis)
einfo "${1/src_/} multilib ${PN} for ABIs: ${abilist}"
elif is_crosscompile || tc-is-cross-compiler ; then
abilist=${DEFAULT_ABI}
fi
if [[ -n ${abilist} ]] ; then
OABI=${ABI}
for ABI in ${abilist} ; do
export ABI
multilib-native_src_generic ${1}
done
ABI=${OABI}
unset OABI
return 0
fi
fi
# If this is the first time through, initialise the source path variables early
# and unconditionally, whether building for multilib or not. (This allows
# multilib-native ebuilds to always make use of them.) Then save the initial
# environment.
#
# Sometimes, packages assume a directory structure ABOVE "S". ("S" is set to a
# subdirectory of the tree they unpack into ${WORKDIR}.) We need to deal with
# this by finding the top-level of the source tree and keeping track of ${S}
# relative to it.
if [[ -z ${EMULTILIB_INITIALISED[$(multilib-native_abi_to_index_key "INIT")]} ]]; then
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: Determining EMULTILIB_SOURCE from S and WORKDIR"
EMULTILIB_RELATIVE_BUILD_DIR="${S#*${WORKDIR}\/}"
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: EMULTILIB_RELATIVE_BUILD_DIR=\"${EMULTILIB_RELATIVE_BUILD_DIR}\""
EMULTILIB_SOURCE_DIRNAME="${EMULTILIB_RELATIVE_BUILD_DIR%%/*}"
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: EMULTILIB_SOURCE_DIRNAME=\"${EMULTILIB_SOURCE_DIRNAME}\""
EMULTILIB_SOURCE="${WORKDIR}/${EMULTILIB_SOURCE_DIRNAME}"
CMAKE_BUILD_DIR="${S}"
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: EMULTILIB_SOURCE=\"${EMULTILIB_SOURCE}\""
multilib-native_save_abi_env "INIT"
EMULTILIB_INITIALISED[$(multilib-native_abi_to_index_key "INIT")]=1
fi
if [[ -n ${EMULTILIB_PKG} ]] && has_multilib_profile; then
multilib-native_src_generic_sub ${1}
# Save the environment for this ABI
multilib-native_save_abi_env "${ABI}"
# If this is the default ABI and we have a build tree, update the INIT
# environment
[[ "${ABI}" == "${DEFAULT_ABI}" ]] && \
[[ -d "${WORKDIR}/${PN}_build_${ABI}" ]] && \
multilib-native_save_abi_env "INIT"
# This assures the environment is correctly configured for non-multilib phases
# such as a src_unpack override in ebuilds.
multilib-native_restore_abi_env "INIT"
else
multilib-native_${1}_internal
fi
}
# Internal function
# @FUNCTION: multilib-native_src_generic_sub
# @USAGE: <phase>
# @DESCRIPTION: This function gets used for each ABI pass of each phase
multilib-native_src_generic_sub() {
# We support two kinds of build: By default we copy/move the source dir for
# each ABI. Where supported with the underlying package, we can just create an
# external build dir. This requires a modified ebuild which makes use of the
# EMULTILIB_SOURCE variable (which points the the top of the original
# source dir) to install doc files etc. This latter behaviour is enabled with
# MULTILIB_EXT_SOURCE_BUILD. For CMake based packages default is reversed and
# the CMAKE_IN_SOURCE_BUILD environment variable is used to specify the former
# behaviour.
#
if [[ -z ${EMULTILIB_INITIALISED[$(multilib-native_abi_to_index_key ${ABI})]} ]]; then
multilib-native_restore_abi_env "INIT"
multilib-native_setup_abi_env "${ABI}"
else
multilib-native_restore_abi_env "${ABI}"
fi
# If this is the unpack or prepare phase we only need to run for the
# DEFAULT_ABI when we are building out of the source tree since it is shared
# between each ABI.
#
# After the unpack phase, some eclasses change into the unpacked source tree
# (gnome2.eclass for example), we need to change back to the WORKDIR otherwise
# the next ABI tree will get unpacked into a subdir of previous tree.
case ${1/*_} in
setup)
;;
unpack)
[[ -d "${WORKDIR}" ]] && cd "${WORKDIR}"
if multilib-native_is_EBD && \
[[ ! "${ABI}" == "${DEFAULT_ABI}" ]]; then
einfo "Skipping ${1} for ${ABI}"
return
fi
;;
prepare)
if multilib-native_is_EBD; then
if [[ ! "${ABI}" == "${DEFAULT_ABI}" ]]; then
einfo "Skipping ${1} for ${ABI}"
return
fi
else
[[ ! -d "${WORKDIR}/${PN}_build_${ABI}" ]] && multilib-native_setup_build_directory
fi
if [[ -d "${S}" ]]; then
einfo "Working in ${S}"
cd "${S}"
else
ewarn "Not changing to non-existant source directory"
fi
;;
configure|compile|install)
[[ ! -d "${WORKDIR}/${PN}_build_${ABI}" ]] && multilib-native_setup_build_directory
[[ -d "${S}" ]] && cd "${S}"
;;
*)
[[ -d "${S}" ]] && cd "${S}"
;;
esac
# FIXME: There is a failure case when there is no source directory
# at ${EMULTILIB_SOURCE}, creating a directory there is the *wrong*
# thing to do, certianly not unconditionally!
# mkdir -p "${EMULTILIB_SOURCE}"
# Call the "real" phase function
multilib-native_${1}_internal
# If we've just unpacked the source, move it into place.
if [[ ! "${1/unpack}" == "${1}" ]] && \
( [[ -d "${EMULTILIB_SOURCE}" ]] && \
[[ ! -d "${WORKDIR}/${PN}_build_${ABI}" ]] ) && ! (multilib-native_is_EBD); then
einfo "Moving source tree from ${EMULTILIB_SOURCE} to ${WORKDIR}/${PN}_build_${ABI}"
mv "${EMULTILIB_SOURCE}" "${WORKDIR}/${PN}_build_${ABI}"
S="${CMAKE_BUILD_DIR}"
[[ -n ${KDE_S} ]] && KDE_S="${S}"
[[ -n ${POPPLER_MODULE_S} ]] && \
POPPLER_MODULE_S=${S}/${POPPLER_MODULE}
fi
}
multilib-native_setup_build_directory() {
if multilib-native_is_EBD; then
einfo "Preparing external build directory for ABI: ${ABI} ..."
einfo "Creating build directory: ${WORKDIR}/${PN}_build_${ABI}"
mkdir -p "${CMAKE_BUILD_DIR}"
ECONF_SOURCE="${S}"
else
if [[ -d ${EMULTILIB_SOURCE} ]]; then
if ! is_final_abi; then
einfo "Copying source tree from ${EMULTILIB_SOURCE} to ${WORKDIR}/${PN}_build_${ABI}"
cp -al "${EMULTILIB_SOURCE}" "${WORKDIR}/${PN}_build_${ABI}"
else
einfo "Moving source tree from ${EMULTILIB_SOURCE} to ${WORKDIR}/${PN}_build_${ABI}"
mv "${EMULTILIB_SOURCE}" "${WORKDIR}/${PN}_build_${ABI}"
fi
fi
fi
if ([[ -n "${CMAKE_BUILD_TYPE}" ]] && \
[[ -n "${CMAKE_IN_SOURCE_BUILD}" ]]) || \
[[ -z "${CMAKE_BUILD_TYPE}" ]]; then
S="${CMAKE_BUILD_DIR}"
fi
}
# Internal function
# @FUNCTION: multilib-native_is_EBD
# @USAGE:
# @DESCRIPTION: Returns true if we're building with an "External Build Directory"
multilib-native_is_EBD() {
! ( [[ -n "${CMAKE_IN_SOURCE_BUILD}" ]] || \
( [[ -z "${CMAKE_BUILD_TYPE}" ]] && \
[[ -z "${MULTILIB_EXT_SOURCE_BUILD}" ]] ) )
}
# Internal function
# @FUNCTION: multilib-native_setup_abi_env
# @USAGE: <ABI>
# @DESCRIPTION: Setup initial environment for ABI, flags, workarounds etc.
multilib-native_setup_abi_env() {
local pyver="" libsuffix=""
[[ -z $(multilib-native_abi_to_index_key ${1}) ]] && \
die "Unknown ABI (${1})"
# Set the CHOST native first so that we pick up the native #202811.
export CHOST=$(get_abi_CHOST ${DEFAULT_ABI})
export AS="$(tc-getAS)"
export CC="$(tc-getCC)"
export CXX="$(tc-getCXX)"
export FC="$(tc-getFC)"
export LD="$(tc-getLD) $(get_abi_LDFLAGS)"
export ASFLAGS="${ASFLAGS} $(get_abi_ASFLAGS)"
export CFLAGS="${CFLAGS} $(get_abi_CFLAGS)"
export CXXFLAGS="${CXXFLAGS} $(get_abi_CFLAGS)"
export FCFLAGS="${FCFLAGS} ${CFLAGS}"
export FFLAGS="${FFLAGS} ${CFLAGS}"
export CHOST=$(get_abi_CHOST $1)
export CBUILD=$(get_abi_CHOST $1)
export CDEFINE="${CDEFINE} $(get_abi_CDEFINE $1)"
export LDFLAGS="${LDFLAGS} -L/$(get_abi_LIBDIR $1) -L/usr/$(get_abi_LIBDIR $1)"
if [[ -z PKG_CONFIG_PATH ]]; then
export PKG_CONFIG_PATH="/usr/$(get_libdir)/pkgconfig"
else
PKG_CONFIG_PATH="${PKG_CONFIG_PATH/lib*\//$(get_libdir)/}:/usr/$(get_libdir)/pkgconfig"
fi
# if ! [[ "${ABI}" == "${DEFAULT_ABI}" ]]; then
# built_with_use dev-lang/perl lib32 && [[ "$(readlink /usr/bin/perl)" == "/usr/bin/abi-wrapper" ]] || eerror multilib-native.eclass: please rebuild dev-lang/perl to avoid problems
# pyver=$(python --version 2>&1)
# pyver=${pyver/Python /python}
# pyver=${pyver%.*}
# built_with_use dev-lang/python lib32 && [[ "$(readlink /usr/bin/${pyver})" == "/usr/bin/abi-wrapper" ]] || eerror multilib-native.eclass: please rebuild dev-lang/python to avoid problems
# fi
# ccache is ABI dependent
if [[ -z ${CCACHE_DIR} ]] ; then
CCACHE_DIR="/var/tmp/ccache-${1}"
else
CCACHE_DIR="${CCACHE_DIR}-${1}"
fi
CMAKE_BUILD_DIR="${WORKDIR}/${PN}_build_${ABI}/${EMULTILIB_RELATIVE_BUILD_DIR/${EMULTILIB_SOURCE_DIRNAME}}"
# Strip any trailing slash (fixes build failure with python.eclass)
CMAKE_BUILD_DIR="${CMAKE_BUILD_DIR%/}"
EMULTILIB_INITIALISED[$(multilib-native_abi_to_index_key ${1})]=1
}
# Internal function
# @FUNCTION: multilib-native_abi_to_index_key
# @USAGE: <ABI>
# @RETURN: <index key>
# @DESCRIPTION: Return an array index key for a given ABI
multilib-native_abi_to_index_key() {
# Until we can count on bash version > 4, we can't use associative arrays.
local index=0 element=""
if [[ -z "${EMULTILIB_ARRAY_INDEX}" ]]; then
local abilist=""
abilist=$(get_install_abis)
EMULTILIB_ARRAY_INDEX=(INIT ${abilist})
fi
for element in ${EMULTILIB_ARRAY_INDEX[@]}; do
[[ "${element}" == "${1}" ]] && echo "${index}"
let index++
done
}
# Internal function
# @FUNCTION: multilib-native_save_abi_env
# @USAGE: <ABI>
# @DESCRIPTION: Save environment for ABI
multilib-native_save_abi_env() {
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: Saving Environment:" "${1}"
local _var _array
for _var in ${EMULTILIB_SAVE_VARS}; do
_array="EMULTILIB_${_var}"
declare -p ${_var} &>/dev/null || continue
multilib_debug ${_array}[$(multilib-native_abi_to_index_key ${1})] "${!_var}"
eval "${_array}[$(multilib-native_abi_to_index_key ${1})]"=\"${!_var}\"
done
}
# Internal function
# @FUNCTION: multilib-native_restore_abi_env
# @USAGE: <ABI>
# @DESCRIPTION: Restore environment for ABI
multilib-native_restore_abi_env() {
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: Restoring Environment:" "${1}"
local _var _array
for _var in ${EMULTILIB_SAVE_VARS}; do
_array="EMULTILIB_${_var}[$(multilib-native_abi_to_index_key ${1})]"
if ! (declare -p EMULTILIB_${_var} &>/dev/null) || \
[[ -z ${!_array} ]]; then
if (declare -p ${_var} &>/dev/null); then
[[ -n ${MULTILIB_DEBUG} ]] && \
einfo "MULTILIB_DEBUG: unsetting ${_var}"
unset ${_var}
fi
continue
fi
multilib_debug "${_var}" "${!_array}"
export ${_var}="${!_array}"
done
}
# Internal function
# @FUNCTION multilib-native_check_inherited_funcs
# @USAGE: <phase>
# @DESCRIPTION: Checks all inherited eclasses for requested phase function
multilib-native_check_inherited_funcs() {
# Check all eclasses for given function, in order of inheritance.
# If none provides it, the var stays empty. If more have it, the last one wins.
# Ignore the ones we inherit ourselves, base doesn't matter, as we default on
# it.
local declared_func=""
if [[ -f "${T}"/eclass-debug.log ]]; then
EMULTILIB_INHERITED="$(grep ${1} "${T}"/eclass-debug.log | cut -d ' ' -f 4 | cut -d '_' -f 1)"
else
if [[ "$1" != pkg_postrm ]]; then
ewarn "You are using a package manager that does not provide "${T}"/eclass-debug.log."
ewarn "Join #gentoo-multilib-overlay on freenode to help finding another way for you."
ewarn "Falling back to old behaviour ..."
fi
EMULTILIB_INHERITED="${INHERITED}"
fi
EMULTILIB_INHERITED="${EMULTILIB_INHERITED//base/}"
EMULTILIB_INHERITED="${EMULTILIB_INHERITED//multilib-native/}"
multilib_debug EMULTILIB_INHERITED ${EMULTILIB_INHERITED}
for func in ${EMULTILIB_INHERITED}; do
if [[ -n $(declare -f ${func}_${1}) ]]; then
multilib_debug declared_func "${declared_func}"
declared_func="${func}_${1}"
fi
done
if [[ "$declared_func" == "distutils_src_unpack" ]]; then
if ! has "${EAPI:-0}" 0 1; then
unset declared_func
fi
fi
# Now if $declared_func is still empty, none of the inherited eclasses provides
# it, so default on base.eclass. Do nothing for "phase != src_*".
if [[ -z "${declared_func}" ]]; then
if [[ "${1/_*}" != "src" ]]; then
declared_func="return"
else
declared_func="base_${1}"
fi
fi
if [[ -z ${SRC_URI} && ( "${declared_func}" == "base_src_prepare" || "${declared_func}" == "base_src_install" ) ]]; then
# those functions do not work if we do not have sources
declared_func="return"
fi
einfo "Using ${declared_func} for ABI ${ABI} ..."
${declared_func}
}
# @FUNCTION: multilib-native_src_prepare_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom src_configure.
multilib-native_src_prepare_internal() {
multilib-native_check_inherited_funcs src_prepare
}
# @FUNCTION: multilib-native_src_configure_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom src_configure.
multilib-native_src_configure_internal() {
multilib-native_check_inherited_funcs src_configure
}
# @FUNCTION: multilib-native_src_compile_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom src_compile.
multilib-native_src_compile_internal() {
multilib-native_check_inherited_funcs src_compile
}
# @FUNCTION: multilib-native_src_install_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom src_install
multilib-native_src_install_internal() {
multilib-native_check_inherited_funcs src_install
}
# @FUNCTION: multilib-native_pkg_setup_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom pkg_setup
multilib-native_pkg_setup_internal() {
multilib-native_check_inherited_funcs pkg_setup
}
# @FUNCTION: multilib-native_src_unpack_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom src_unpack
multilib-native_src_unpack_internal() {
multilib-native_check_inherited_funcs src_unpack
}
# @FUNCTION: multilib-native_pkg_preinst_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom pkg_preinst
multilib-native_pkg_preinst_internal() {
multilib-native_check_inherited_funcs pkg_preinst
}
# @FUNCTION: multilib-native_pkg_postinst_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom pkg_postinst
multilib-native_pkg_postinst_internal() {
multilib-native_check_inherited_funcs pkg_postinst
}
# @FUNCTION: multilib-native_pkg_postrm_internal
# @USAGE:
# @DESCRIPTION: Override this function if you want a custom pkg_postrm
multilib-native_pkg_postrm_internal() {
multilib-native_check_inherited_funcs pkg_postrm
}
# @FUNCTION: is_crosscompile
# @USAGE:
# @DESCRIPTION:
# True if we are cross-compiling.
# This is identical to the version in
# toolchain.eclass, but inheriting that eclass from here breaks many packages
# so just define locally.
is_crosscompile() {
[[ ${CHOST} != ${CTARGET} ]]
}
# @FUNCTION: _check_build_dir
# @USAGE:
# @DESCRIPTION:
# This function overrides the function of the same name
# in cmake-utils.eclass. We handle the build dir ourselves.
# Determine using IN or OUT source build
_check_build_dir() {
# @ECLASS-VARIABLE: CMAKE_USE_DIR
# @DESCRIPTION:
# Sets the directory where we are working with cmake.
# For example when application uses autotools and only one
# plugin needs to be done by cmake. By default it uses ${S}.
: ${CMAKE_USE_DIR:=${S}}
# in/out source build
echo ">>> Working in BUILD_DIR: \"$CMAKE_BUILD_DIR\""
}
# @FUNCTION prep_ml_binaries
# @USAGE:
# @DESCRIPTION: Use wrapper to support non-default binaries
prep_ml_binaries() {
if [[ -n $EMULTILIB_PKG ]] ; then
for binary in "$@"; do
if [[ -a ${D}/${binary} ]]; then
mv ${D}/${binary} ${D}/${binary}-${ABI} || \
die "${D}/${binary} not found!"
einfo "mv ${D}/${binary} ${D}/${binary}-${ABI}"
if is_final_abi; then
ln -s /usr/bin/abi-wrapper ${D}/${binary} || \
die "could link abi-wrapper to ${D}/${binary}!"
einfo "ln -s /usr/bin/abi-wrapper ${D}/${binary}"
fi
else
ewarn "${D}/${binary} does not exist, please inform the people in #gentoo-multilib-overlay on freenode"
fi
done
fi
}
# @FUNCTION: prep_ml_includes
# @DESCRIPTION:
# Some includes (include/asm, glibc, etc) are ABI dependent. In this case,
# We can install them in different locations for each ABI and create a common
# header which includes the right one based on CDEFINE_${ABI}. If your
# package installs ABI-specific headers, just add 'prep_ml_includes' to the
# end of your src_install(). It takes a list of directories that include
# files are installed in (default is /usr/include if none are passed).
#
# Example:
# src_install() {
# ...
# prep_ml_includes /usr/qt/3/include
# }
prep_ml_includes() {
if [[ $(number_abis) -gt 1 ]] ; then
local dir
local dirs
local base
if [[ $# -eq 0 ]] ; then
dirs=/usr/include
else
dirs="$@"
fi
for dir in ${dirs} ; do
base=${T}/gentoo-multilib/${dir}/gentoo-multilib
mkdir -p "${base}"
[[ -d ${base}/${ABI} ]] && rm -rf "${base}/${ABI}"
mv "${D}/${dir}" "${base}/${ABI}"
done
if is_final_abi; then
base=${T}/gentoo-multilib
local files_differ=
local install_abis=$(get_install_abis)
local alternate_abis=${install_abis% *}
for dir in ${dirs}; do
pushd "${base}${dir}/gentoo-multilib/${ABI}"
for i in $(find . -type f); do
for diffabi in ${alternate_abis}; do
diff -q "${i}" ../${diffabi}/"${i}" >/dev/null || files_differ=1
done
if [ -z "${files_differ}" ]; then
[ -d "${D}${dir}/${i%/*}" ] || mkdir -p "${D}${dir}/${i%/*}"
mv ${base}${dir}/gentoo-multilib/${ABI}/"${i}" "${D}${dir}/${i}"
einfo rm -rf ${base}${dir}/gentoo-multilib/*/"${i}"
rm -rf ${base}${dir}/gentoo-multilib/*/"${i}"
fi
files_differ=
done
popd
done
pushd "${base}"
find . | tar -c -T - -f - | tar -x --no-same-owner -f - -C "${D}"
popd
# This 'set' stuff is required by mips profiles to properly pass
# CDEFINE's (which have spaces) to sub-functions
set --
for dir in ${dirs} ; do
set -- "$@" "${dir}"
local abi
for abi in $(get_install_abis); do
set -- "$@" "$(get_abi_CDEFINE ${abi}):${dir}/gentoo-multilib/${abi}"
done
create_ml_includes "$@"
done
fi
fi
}

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@ -0,0 +1,810 @@
# Copyright 1999-2009 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
# $Header: /var/cvsroot/gentoo-x86/eclass/qt4-build.eclass,v 1.87 2010/11/13 20:50:57 wired Exp $
# @ECLASS: qt4-build.eclass
# @MAINTAINER:
# Ben de Groot <yngwin@gentoo.org>,
# Markos Chandras <hwoarang@gentoo.org>,
# Caleb Tennis <caleb@gentoo.org>
# Alex Alexander <wired@gentoo.org>
# @BLURB: Eclass for Qt4 split ebuilds.
# @DESCRIPTION:
# This eclass contains various functions that are used when building Qt4
inherit base eutils multilib toolchain-funcs flag-o-matic versionator
MY_PV=${PV/_/-}
if version_is_at_least 4.5.99999999; then
MY_P=qt-everywhere-opensource-src-${MY_PV}
[[ ${CATEGORY}/${PN} != x11-libs/qt-xmlpatterns ]] &&
[[ ${CATEGORY}/${PN} != x11-themes/qgtkstyle ]] &&
IUSE="+exceptions"
else
MY_P=qt-x11-opensource-src-${MY_PV}
fi
HOMEPAGE="http://qt.nokia.com/"
SRC_URI="http://get.qt.nokia.com/qt/source/${MY_P}.tar.gz"
LICENSE="|| ( LGPL-2.1 GPL-3 )"
IUSE+=" debug pch aqua"
RDEPEND="
!<x11-libs/qt-assistant-${PV}
!>x11-libs/qt-assistant-${PV}-r9999
!<x11-libs/qt-core-${PV}
!>x11-libs/qt-core-${PV}-r9999
!<x11-libs/qt-dbus-${PV}
!>x11-libs/qt-dbus-${PV}-r9999
!<x11-libs/qt-demo-${PV}
!>x11-libs/qt-demo-${PV}-r9999
!<x11-libs/qt-gui-${PV}
!>x11-libs/qt-gui-${PV}-r9999
!<x11-libs/qt-multimedia-${PV}
!>x11-libs/qt-multimedia-${PV}-r9999
!<x11-libs/qt-opengl-${PV}
!>x11-libs/qt-opengl-${PV}-r9999
!<x11-libs/qt-phonon-${PV}
!>x11-libs/qt-phonon-${PV}-r9999
!<x11-libs/qt-qt3support-${PV}
!>x11-libs/qt-qt3support-${PV}-r9999
!<x11-libs/qt-script-${PV}
!>x11-libs/qt-script-${PV}-r9999
!<x11-libs/qt-sql-${PV}
!>x11-libs/qt-sql-${PV}-r9999
!<x11-libs/qt-svg-${PV}
!>x11-libs/qt-svg-${PV}-r9999
!<x11-libs/qt-test-${PV}
!>x11-libs/qt-test-${PV}-r9999
!<x11-libs/qt-webkit-${PV}
!>x11-libs/qt-webkit-${PV}-r9999
!<x11-libs/qt-xmlpatterns-${PV}
!>x11-libs/qt-xmlpatterns-${PV}-r9999
"
S=${WORKDIR}/${MY_P}
# @FUNCTION: qt4-build_pkg_setup
# @DESCRIPTION:
# Sets up S, MY_P, PATH, and LD_LIBRARY_PATH
qt4-build_pkg_setup() {
[[ ${EAPI} == 2 ]] && use !prefix && EPREFIX=
# Protect users by not allowing downgrades between releases
# Downgrading revisions within the same release should be allowed
if has_version '>'${CATEGORY}/${P}-r9999 ; then
if [[ -z $I_KNOW_WHAT_I_AM_DOING ]] ; then
eerror "Sanity check to keep you from breaking your system:"
eerror " Downgrading Qt is completely unsupported and will break your system!"
die "aborting to save your system"
else
ewarn "Downgrading Qt is completely unsupported and will break your system!"
fi
fi
if [[ "${PN}" == "qt-webkit" ]]; then
eshopts_push -s extglob
if is-flagq '-g?(gdb)?([1-9])'; then
echo
ewarn "You have enabled debug info (probably have -g or -ggdb in your \$C{,XX}FLAGS)."
ewarn "You may experience really long compilation times and/or increased memory usage."
ewarn "If compilation fails, please try removing -g{,gdb} before reporting a bug."
ewarn "For more info check out bug #307861"
echo
fi
eshopts_pop
fi
PATH="${S}/bin${PATH:+:}${PATH}"
if [[ ${CHOST} != *-darwin* ]]; then
LD_LIBRARY_PATH="${S}/lib${LD_LIBRARY_PATH:+:}${LD_LIBRARY_PATH}"
else
DYLD_LIBRARY_PATH="${S}/lib${DYLD_LIBRARY_PATH:+:}${DYLD_LIBRARY_PATH}"
# On MacOS we *need* at least src/gui/kernel/qapplication_mac.mm for
# platform detection. Note: needs to come before any directories to
# avoid extract failure.
[[ ${CHOST} == *-apple-darwin* ]] && \
QT4_EXTRACT_DIRECTORIES="src/gui/kernel/qapplication_mac.mm
${QT4_EXTRACT_DIRECTORIES}"
fi
# Make sure ebuilds use the required EAPI
if [[ ${EAPI} != [23] ]]; then
eerror "The qt4-build eclass requires EAPI=2 or EAPI=3, but this ebuild is using"
eerror "EAPI=${EAPI:-0}. The ebuild author or editor failed. This ebuild needs to be"
eerror "fixed. Using qt4-build eclass without EAPI=2 or EAPI=3 will fail."
die "qt4-build eclass requires EAPI=2 or EAPI=3"
fi
if ! version_is_at_least 4.1 $(gcc-version); then
ewarn "Using a GCC version lower than 4.1 is not supported!"
fi
}
# @ECLASS-VARIABLE: QT4_TARGET_DIRECTORIES
# @DESCRIPTION:
# Arguments for build_target_directories. Takes the directories, in which the
# code should be compiled. This is a space-separated list
# @ECLASS-VARIABLE: QT4_EXTRACT_DIRECTORIES
# @DESCRIPTION:
# Space separated list including the directories that will be extracted from Qt
# tarball
# @FUNCTION: qt4-build_src_unpack
# @DESCRIPTION:
# Unpacks the sources
qt4-build_src_unpack() {
setqtenv
local target targets=
for target in configure LICENSE.GPL3 LICENSE.LGPL projects.pro \
src/{qbase,qt_targets,qt_install}.pri bin config.tests mkspecs qmake \
${QT4_EXTRACT_DIRECTORIES}; do
targets+=" ${MY_P}/${target}"
done
echo tar xzf "${DISTDIR}"/${MY_P}.tar.gz ${targets}
tar xzf "${DISTDIR}"/${MY_P}.tar.gz ${targets} || die
}
# @ECLASS-VARIABLE: PATCHES
# @DESCRIPTION:
# In case you have patches to apply, specify them in PATCHES variable. Make sure
# to specify the full path. This variable is necessary for src_prepare phase.
# example:
# PATCHES="${FILESDIR}"/mypatch.patch
# ${FILESDIR}"/mypatch2.patch"
#
# @FUNCTION: qt4-build_src_prepare
# @DESCRIPTION:
# Prepare the sources before the configure phase. Strip CFLAGS if necessary, and fix
# source files in order to respect CFLAGS/CXXFLAGS/LDFLAGS specified on /etc/make.conf.
qt4-build_src_prepare() {
setqtenv
cd "${S}"
# fix qt 4.7 regression that skips -fvisibility=hidden
if version_is_at_least "4.7.0_beta1"; then
sed -e "s/^gcc|g++)/*gcc|*g++)/" \
-i config.tests/unix/fvisibility.test ||
die "visibility fixing sed failed"
fi
# fix libx11 dependency on non X packages
if version_is_at_least "4.7.0_beta2"; then
local NOLIBX11PKG="qt-core qt-dbus qt-script qt-sql qt-test qt-xmlpatterns"
hasq ${PN} ${NOLIBX11PKG} && qt_nolibx11
[[ ${PN} == "qt-assistant" ]] && qt_assistant_cleanup
fi
if use aqua; then
# provide a proper macx-g++-64
use x64-macos && ln -s macx-g++ mkspecs/$(qt_mkspecs_dir)
sed -e '/^CONFIG/s:app_bundle::' \
-e '/^CONFIG/s:plugin_no_soname:plugin_with_soname absolute_library_soname:' \
-i mkspecs/$(qt_mkspecs_dir)/qmake.conf || die "sed failed"
fi
if [[ ${PN} != qt-core ]]; then
skip_qmake_build_patch
skip_project_generation_patch
symlink_binaries_to_buildtree
fi
if [[ ${CHOST} == *86*-apple-darwin* ]] ; then
# qmake bus errors with -O2 but -O3 works
replace-flags -O2 -O3
fi
# Bug 178652
if [[ $(gcc-major-version) == 3 ]] && use amd64; then
ewarn "Appending -fno-gcse to CFLAGS/CXXFLAGS"
append-flags -fno-gcse
fi
# Unsupported old gcc versions - hardened needs this :(
if [[ $(gcc-major-version) -lt 4 ]] ; then
ewarn "Appending -fno-stack-protector to CXXFLAGS"
append-cxxflags -fno-stack-protector
# Bug 253127
sed -e "/^QMAKE_CFLAGS\t/ s:$: -fno-stack-protector-all:" \
-i "${S}"/mkspecs/common/g++.conf || die "sed ${S}/mkspecs/common/g++.conf failed"
fi
# Bug 261632
if use ppc64; then
ewarn "Appending -mminimal-toc to CFLAGS/CXXFLAGS"
append-flags -mminimal-toc
fi
# Bug 282984 && Bug 295530
sed -e "s:\(^SYSTEM_VARIABLES\):CC="$(tc-getCC)"\nCXX="$(tc-getCXX)"\nCFLAGS=\"${CFLAGS}\"\nCXXFLAGS=\"${CXXFLAGS}\"\nLDFLAGS=\"${LDFLAGS}\"\n\1:" \
-i configure || die "sed qmake compilers failed"
# bug 321335
if version_is_at_least 4.6; then
find ./config.tests/unix -name "*.test" -type f -exec grep -lZ \$MAKE '{}' \; | \
xargs -0 \
sed -e "s:\(\$MAKE\):\1 CC="$(tc-getCC)" CXX="$(tc-getCXX)" LD="$(tc-getCXX)" LINK="$(tc-getCXX)":g" \
-i || die "sed test compilers failed"
fi
# Bug 172219
sed -e "s:X11R6/::" \
-i "${S}"/mkspecs/$(qt_mkspecs_dir)/qmake.conf || die "sed ${S}/mkspecs/$(qt_mkspecs_dir)/qmake.conf failed"
if [[ ${CHOST} == *-darwin* ]]; then
# Set FLAGS *and* remove -arch, since our gcc-apple is multilib
# crippled (by design) :/
sed -e "s:QMAKE_CFLAGS_RELEASE.*=.*:QMAKE_CFLAGS_RELEASE=${CFLAGS}:" \
-e "s:QMAKE_CXXFLAGS_RELEASE.*=.*:QMAKE_CXXFLAGS_RELEASE=${CXXFLAGS}:" \
-e "s:QMAKE_LFLAGS_RELEASE.*=.*:QMAKE_LFLAGS_RELEASE=-headerpad_max_install_names ${LDFLAGS}:" \
-e "s:-arch\s\w*::g" \
-i mkspecs/common/mac-g++.conf || die "sed mkspecs/common/mac-g++.conf failed"
# Fix configure's -arch settings that appear in qmake/Makefile and also
# fix arch handling (automagically duplicates our -arch arg and breaks
# pch). Additionally disable Xarch support.
sed \
-e "s:-arch i386::" \
-e "s:-arch ppc::" \
-e "s:-arch x86_64::" \
-e "s:-arch ppc64::" \
-e "s:-arch \$i::" \
-e "/if \[ ! -z \"\$NATIVE_64_ARCH\" \]; then/,/fi/ d" \
-e "s:CFG_MAC_XARCH=yes:CFG_MAC_XARCH=no:g" \
-e "s:-Xarch_x86_64::g" \
-e "s:-Xarch_ppc64::g" \
-i configure mkspecs/common/mac-g++.conf || die "sed configure failed"
# On Snow Leopard don't fall back to 10.5 deployment target.
if [[ ${CHOST} == *-apple-darwin10 ]] ; then
sed -e "s:QMakeVar set QMAKE_MACOSX_DEPLOYMENT_TARGET.*:QMakeVar set QMAKE_MACOSX_DEPLOYMENT_TARGET 10.6:g" \
-e "s:-mmacosx-version-min=10.[0-9]:-mmacosx-version-min=10.6:g" \
-i configure mkspecs/common/mac-g++.conf || die "sed configure failed"
fi
fi
# this one is needed for all systems with a separate -liconv, apart from
# Darwin, for which the sources already cater for -liconv
if use !elibc_glibc && [[ ${CHOST} != *-darwin* ]] ; then
sed \
-e "s|mac:LIBS += -liconv|LIBS += -liconv|g" \
-i config.tests/unix/iconv/iconv.pro \
|| die "sed on iconv.pro failed"
fi
# we need some patches for Solaris
sed -i \
-e '/^QMAKE_LFLAGS_THREAD/a\QMAKE_LFLAGS_DYNAMIC_LIST = -Wl,--dynamic-list,' \
mkspecs/$(qt_mkspecs_dir)/qmake.conf || die
# use GCC over SunStudio
sed -i -e '/PLATFORM=solaris-cc/s/cc/g++/' configure || die
# don't flirt with non-Prefix stuff, we're quite possessive
sed -i -e '/^QMAKE_\(LIB\|INC\)DIR\(_X11\|_OPENGL\|\)\t/s/=.*$/=/' \
mkspecs/$(qt_mkspecs_dir)/qmake.conf || die
# strip predefined CFLAGS from qmake ( bug #312689 )
sed -i '/^QMAKE_CFLAGS_RELEASE/s:+=.*:+=:' mkspecs/common/g++.conf
base_src_prepare
}
# @FUNCTION: qt4-build_src_configure
# @DESCRIPTION:
# Default configure phase
qt4-build_src_configure() {
setqtenv
myconf="$(standard_configure_options) ${myconf}"
# this one is needed for all systems with a separate -liconv, apart from
# Darwin, for which the sources already cater for -liconv
use !elibc_glibc && [[ ${CHOST} != *-darwin* ]] && \
myconf+=" -liconv"
if has glib ${IUSE//+} && use glib; then
# use -I, -L and -l from configure
local glibflags="$(pkg-config --cflags --libs glib-2.0 gthread-2.0)"
# avoid the -pthread argument
myconf+=" ${glibflags//-pthread}"
unset glibflags
fi
if use aqua ; then
# On (snow) leopard use the new (frameworked) cocoa code.
if [[ ${CHOST##*-darwin} -ge 9 ]] ; then
myconf+=" -cocoa -framework"
# We are crazy and build cocoa + qt3support :-)
if use qt3support; then
sed -e "/case \"\$PLATFORM,\$CFG_MAC_COCOA\" in/,/;;/ s|CFG_QT3SUPPORT=\"no\"|CFG_QT3SUPPORT=\"yes\"|" \
-i configure
fi
# We need the source's headers, not the installed ones.
myconf+=" -I${S}/include"
# Add hint for the framework location.
myconf+=" -F${QTLIBDIR}"
fi
else
# freetype2 include dir is non-standard, thus include it on configure
# use -I from configure
myconf+=" $(pkg-config --cflags freetype2)"
fi
# Disable SSE4.x, since auto-detection is currently broken
# Upstream bug http://bugreports.qt.nokia.com/browse/QTBUG-13623
if version_is_at_least 4.7.1; then
myconf+=" -no-sse4.1 -no-sse4.2"
fi
echo ./configure ${myconf}
./configure ${myconf} || die "./configure failed"
myconf=""
}
# @FUNCTION: qt4-build_src_compile
# @DESCRIPTION: Actual compile phase
qt4-build_src_compile() {
setqtenv
build_directories ${QT4_TARGET_DIRECTORIES}
}
# @FUNCTION: qt4-build_src_test
# @DESCRIPTION:
# Runs tests only in target directories.
qt4-build_src_test() {
for dir in ${QT4_TARGET_DIRECTORIES}; do
emake -j1 check -C ${dir}
done
}
# @FUNCTION: fix_includes
# @DESCRIPTION:
# For MacOSX we need to add some symlinks when frameworks are
# being used, to avoid complications with some more or less stupid packages.
fix_includes() {
if use aqua && [[ ${CHOST##*-darwin} -ge 9 ]] ; then
# Some packages tend to include <Qt/...>
dodir "${QTHEADERDIR#${EPREFIX}}"/Qt
# Fake normal headers when frameworks are installed... eases life later on
local dest f
for frw in "${D}${QTLIBDIR}"/*.framework; do
[[ -e "${frw}"/Headers ]] || continue
f=$(basename ${frw})
dest="${QTHEADERDIR#${EPREFIX}}"/${f%.framework}
dosym "${QTLIBDIR#${EPREFIX}}"/${f}/Headers "${dest}"
# Link normal headers as well.
for hdr in "${D}/${QTLIBDIR}/${f}"/Headers/*; do
h=$(basename ${hdr})
dosym "${QTLIBDIR#${EPREFIX}}"/${f}/Headers/${h} "${QTHEADERDIR#${EPREFIX}}"/Qt/${h}
done
done
fi
}
# @FUNCTION: qt4-build_src_install
# @DESCRIPTION:
# Perform the actual installation including some library fixes.
qt4-build_src_install() {
[[ ${EAPI} == 2 ]] && use !prefix && ED=${D}
setqtenv
install_directories ${QT4_TARGET_DIRECTORIES}
install_qconfigs
fix_library_files
fix_includes
# remove .la files since we are building only shared Qt libraries
find "${D}"${QTLIBDIR} -name "*.la" -print0 | xargs -0 rm
}
# @FUNCTION: setqtenv
setqtenv() {
# Set up installation directories
QTBASEDIR=${EPREFIX}/usr/$(get_libdir)/qt4
QTPREFIXDIR=${EPREFIX}/usr
QTBINDIR=${EPREFIX}/usr/bin
QTLIBDIR=${EPREFIX}/usr/$(get_libdir)/qt4
QMAKE_LIBDIR_QT=${QTLIBDIR}
QTPCDIR=${EPREFIX}/usr/$(get_libdir)/pkgconfig
QTDATADIR=${EPREFIX}/usr/share/qt4
QTDOCDIR=${EPREFIX}/usr/share/doc/qt-${PV}
QTHEADERDIR=${EPREFIX}/usr/include/qt4
QTPLUGINDIR=${QTLIBDIR}/plugins
QTSYSCONFDIR=${EPREFIX}/etc/qt4
QTTRANSDIR=${QTDATADIR}/translations
QTEXAMPLESDIR=${QTDATADIR}/examples
QTDEMOSDIR=${QTDATADIR}/demos
QT_INSTALL_PREFIX=${EPREFIX}/usr/$(get_libdir)/qt4
PLATFORM=$(qt_mkspecs_dir)
unset QMAKESPEC
}
# @FUNCTION: standard_configure_options
# @DESCRIPTION:
# Sets up some standard configure options, like libdir (if necessary), whether
# debug info is wanted or not.
standard_configure_options() {
local myconf=
[[ $(get_libdir) != lib ]] && myconf+=" -L${EPREFIX}/usr/$(get_libdir)"
# Disable visibility explicitly if gcc version isn't 4
if [[ $(gcc-major-version) -lt 4 ]]; then
myconf+=" -no-reduce-exports"
fi
# precompiled headers doesn't work on hardened, where the flag is masked.
myconf+=" $(qt_use pch)"
if use debug; then
myconf+=" -debug"
else
myconf+=" -release"
fi
myconf+=" -no-separate-debug-info"
use aqua && myconf+=" -no-framework"
# ARCH is set on Gentoo. Qt now falls back to generic on an unsupported
# $(tc-arch). Therefore we convert it to supported values.
case "$(tc-arch)" in
amd64|x64-*) myconf+=" -arch x86_64" ;;
ppc-macos) myconf+=" -arch ppc" ;;
ppc|ppc64|ppc-*) myconf+=" -arch powerpc" ;;
sparc|sparc-*) myconf+=" -arch sparc" ;;
x86-macos) myconf+=" -arch x86" ;;
x86|x86-*) myconf+=" -arch i386" ;;
alpha|arm|ia64|mips|s390|sparc) myconf+=" -arch $(tc-arch)" ;;
hppa|sh) myconf+=" -arch generic" ;;
*) die "$(tc-arch) is unsupported by this eclass. Please file a bug." ;;
esac
# 4.5: build everything but qt-xmlpatterns w/o exceptions
# 4.6: exceptions USE flag
local exceptions="-exceptions"
case "${PV}" in
4.5.*)
[[ ${PN} == "qt-xmlpatterns" ]] || exceptions="-no-exceptions"
;;
*)
has exceptions "${IUSE//+}" && exceptions="$(qt_use exceptions)"
;;
esac
# note about -reduce-relocations:
# That flag seems to introduce major breakage to applications,
# mostly to be seen as a core dump with the message "QPixmap: Must
# construct a QApplication before a QPaintDevice" on Solaris
# -- Daniel Vergien
[[ ${CHOST} != *-solaris* ]] && myconf+=" -reduce-relocations"
myconf+=" -platform $(qt_mkspecs_dir) -stl -verbose -largefile -confirm-license
-prefix ${QTPREFIXDIR} -bindir ${QTBINDIR} -libdir ${QTLIBDIR}
-datadir ${QTDATADIR} -docdir ${QTDOCDIR} -headerdir ${QTHEADERDIR}
-plugindir ${QTPLUGINDIR} -sysconfdir ${QTSYSCONFDIR}
-translationdir ${QTTRANSDIR} -examplesdir ${QTEXAMPLESDIR}
-demosdir ${QTDEMOSDIR} -silent -fast -opensource
${exceptions}
-nomake examples -nomake demos"
echo "${myconf}"
}
# @FUNCTION: build_directories
# @USAGE: < directories >
# @DESCRIPTION:
# Compiles the code in $QT4_TARGET_DIRECTORIES
build_directories() {
for x in "$@"; do
pushd "${S}"/${x} >/dev/null
# avoid running over the maximum argument number, bug #299810
{
echo "${S}"/mkspecs/common/*.conf
find "${S}" -name '*.pr[io]'
} | xargs sed -i -e "s:\$\$\[QT_INSTALL_LIBS\]:${EPREFIX}/usr/$(get_libdir)/qt4:g" || die
"${S}"/bin/qmake "LIBS+=-L${QTLIBDIR}" "CONFIG+=nostrip" || die "qmake failed"
emake CC="$(tc-getCC)" \
CXX="$(tc-getCXX)" \
LINK="$(tc-getCXX)" || die "emake failed"
popd >/dev/null
done
}
# @FUNCTION: install_directories
# @USAGE: < directories >
# @DESCRIPTION:
# run emake install in the given directories, which are separated by spaces
install_directories() {
for x in "$@"; do
pushd "${S}"/${x} >/dev/null || die "Can't pushd ${S}/${x}"
emake INSTALL_ROOT="${D}" install || die "emake install failed"
popd >/dev/null || die "Can't popd from ${S}/${x}"
done
}
# @ECLASS-VARIABLE: QCONFIG_ADD
# @DESCRIPTION:
# List options that need to be added to QT_CONFIG in qconfig.pri
: ${QCONFIG_ADD:=}
# @ECLASS-VARIABLE: QCONFIG_REMOVE
# @DESCRIPTION:
# List options that need to be removed from QT_CONFIG in qconfig.pri
: ${QCONFIG_REMOVE:=}
# @ECLASS-VARIABLE: QCONFIG_DEFINE
# @DESCRIPTION:
# List variables that should be defined at the top of QtCore/qconfig.h
: ${QCONFIG_DEFINE:=}
# @FUNCTION: install_qconfigs
# @DESCRIPTION: Install gentoo-specific mkspecs configurations
install_qconfigs() {
local x
if [[ -n ${QCONFIG_ADD} || -n ${QCONFIG_REMOVE} ]]; then
for x in QCONFIG_ADD QCONFIG_REMOVE; do
[[ -n ${!x} ]] && echo ${x}=${!x} >> "${T}"/${PN}-qconfig.pri
done
insinto ${QTDATADIR#${EPREFIX}}/mkspecs/gentoo
doins "${T}"/${PN}-qconfig.pri || die "installing ${PN}-qconfig.pri failed"
fi
if [[ -n ${QCONFIG_DEFINE} ]]; then
for x in ${QCONFIG_DEFINE}; do
echo "#define ${x}" >> "${T}"/gentoo-${PN}-qconfig.h
done
insinto ${QTHEADERDIR#${EPREFIX}}/Gentoo
doins "${T}"/gentoo-${PN}-qconfig.h || die "installing ${PN}-qconfig.h failed"
fi
}
# @FUNCTION: generate_qconfigs
# @DESCRIPTION: Generates gentoo-specific configurations
generate_qconfigs() {
if [[ -n ${QCONFIG_ADD} || -n ${QCONFIG_REMOVE} || -n ${QCONFIG_DEFINE} || ${CATEGORY}/${PN} == x11-libs/qt-core ]]; then
local x qconfig_add qconfig_remove qconfig_new
for x in "${ROOT}${QTDATADIR}"/mkspecs/gentoo/*-qconfig.pri; do
[[ -f ${x} ]] || continue
qconfig_add+=" $(sed -n 's/^QCONFIG_ADD=//p' "${x}")"
qconfig_remove+=" $(sed -n 's/^QCONFIG_REMOVE=//p' "${x}")"
done
# these error checks do not use die because dying in pkg_post{inst,rm}
# just makes things worse.
if [[ -e "${ROOT}${QTDATADIR}"/mkspecs/gentoo/qconfig.pri ]]; then
# start with the qconfig.pri that qt-core installed
if ! cp "${ROOT}${QTDATADIR}"/mkspecs/gentoo/qconfig.pri \
"${ROOT}${QTDATADIR}"/mkspecs/qconfig.pri; then
eerror "cp qconfig failed."
return 1
fi
# generate list of QT_CONFIG entries from the existing list
# including qconfig_add and excluding qconfig_remove
for x in $(sed -n 's/^QT_CONFIG +=//p' \
"${ROOT}${QTDATADIR}"/mkspecs/qconfig.pri) ${qconfig_add}; do
hasq ${x} ${qconfig_remove} || qconfig_new+=" ${x}"
done
# replace the existing QT_CONFIG list with qconfig_new
if ! sed -i -e "s/QT_CONFIG +=.*/QT_CONFIG += ${qconfig_new}/" \
"${ROOT}${QTDATADIR}"/mkspecs/qconfig.pri; then
eerror "Sed for QT_CONFIG failed"
return 1
fi
# create Gentoo/qconfig.h
if [[ ! -e ${ROOT}${QTHEADERDIR}/Gentoo ]]; then
if ! mkdir -p "${ROOT}${QTHEADERDIR}"/Gentoo; then
eerror "mkdir ${QTHEADERDIR}/Gentoo failed"
return 1
fi
fi
: > "${ROOT}${QTHEADERDIR}"/Gentoo/gentoo-qconfig.h
for x in "${ROOT}${QTHEADERDIR}"/Gentoo/gentoo-*-qconfig.h; do
[[ -f ${x} ]] || continue
cat "${x}" >> "${ROOT}${QTHEADERDIR}"/Gentoo/gentoo-qconfig.h
done
else
rm -f "${ROOT}${QTDATADIR}"/mkspecs/qconfig.pri
rm -f "${ROOT}${QTHEADERDIR}"/Gentoo/gentoo-qconfig.h
rmdir "${ROOT}${QTDATADIR}"/mkspecs \
"${ROOT}${QTDATADIR}" \
"${ROOT}${QTHEADERDIR}"/Gentoo \
"${ROOT}${QTHEADERDIR}" 2>/dev/null
fi
fi
}
# @FUNCTION: qt4-build_pkg_postrm
# @DESCRIPTION: Generate configurations when the package is completely removed
qt4-build_pkg_postrm() {
generate_qconfigs
}
# @FUNCTION: qt4-build_pkg_postinst
# @DESCRIPTION: Generate configuration, plus throws a message about possible
# breakages and proposed solutions.
qt4-build_pkg_postinst() {
generate_qconfigs
}
# @FUNCTION: skip_qmake_build_patch
# @DESCRIPTION:
# Don't need to build qmake, as it's already installed from qt-core
skip_qmake_build_patch() {
# Don't need to build qmake, as it's already installed from qt-core
sed -i -e "s:if true:if false:g" "${S}"/configure || die "Sed failed"
}
# @FUNCTION: skip_project_generation_patch
# @DESCRIPTION:
# Exit the script early by throwing in an exit before all of the .pro files are scanned
skip_project_generation_patch() {
# Exit the script early by throwing in an exit before all of the .pro files are scanned
sed -e "s:echo \"Finding:exit 0\n\necho \"Finding:g" \
-i "${S}"/configure || die "Sed failed"
}
# @FUNCTION: symlink_binaries_to_buildtree
# @DESCRIPTION:
# Symlink generated binaries to buildtree so they can be used during compilation
# time
symlink_binaries_to_buildtree() {
for bin in qmake moc uic rcc; do
ln -s ${QTBINDIR}/${bin} "${S}"/bin/ || die "Symlinking ${bin} to ${S}/bin failed."
done
}
# @FUNCTION: fix_library_files
# @DESCRIPTION:
# Fixes the pathes in *.la, *.prl, *.pc, as they are wrong due to sandbox and
# moves the *.pc-files into the pkgconfig directory
fix_library_files() {
for libfile in "${D}"/${QTLIBDIR}/{*.la,*.prl,pkgconfig/*.pc}; do
if [[ -e ${libfile} ]]; then
sed -i -e "s:${S}/lib:${QTLIBDIR}:g" ${libfile} || die "Sed on ${libfile} failed."
fi
done
# pkgconfig files refer to WORKDIR/bin as the moc and uic locations. Fix:
for libfile in "${D}"/${QTLIBDIR}/pkgconfig/*.pc; do
if [[ -e ${libfile} ]]; then
sed -i -e "s:${S}/bin:${QTBINDIR}:g" ${libfile} || die "Sed failed"
# Move .pc files into the pkgconfig directory
dodir ${QTPCDIR#${EPREFIX}}
mv ${libfile} "${D}"/${QTPCDIR}/ \
|| die "Moving ${libfile} to ${D}/${QTPCDIR}/ failed."
fi
done
# Don't install an empty directory
rmdir "${D}"/${QTLIBDIR}/pkgconfig
}
# @FUNCTION: qt_use
# @USAGE: < flag > [ feature ] [ enableval ]
# @DESCRIPTION:
# This will echo "${enableval}-${feature}" if <flag> is enabled, or
# "-no-${feature} if the flag is disabled. If [feature] is not specified <flag>
# will be used for that. If [enableval] is not specified, it omits the
# assignment-part
qt_use() {
local flag=$1
local feature=$1
local enableval=
[[ -n $2 ]] && feature=$2
[[ -n $3 ]] && enableval=-$3
if use ${flag}; then
echo "${enableval}-${feature}"
else
echo "-no-${feature}"
fi
}
# @FUNCTION: qt_mkspecs_dir
# @RETURN: the specs-directory w/o path
# @DESCRIPTION:
# Allows us to define which mkspecs dir we want to use.
qt_mkspecs_dir() {
# Allows us to define which mkspecs dir we want to use.
local spec
case ${CHOST} in
*-freebsd*|*-dragonfly*)
spec=freebsd ;;
*-openbsd*)
spec=openbsd ;;
*-netbsd*)
spec=netbsd ;;
*-darwin*)
if use aqua; then
# mac with carbon/cocoa
spec=macx
else
# darwin/mac with x11
spec=darwin
fi
;;
*-solaris*)
spec=solaris ;;
*-linux-*|*-linux)
spec=linux ;;
*)
die "Unknown CHOST, no platform choosen."
esac
CXX=$(tc-getCXX)
if [[ ${CXX} == *g++* ]]; then
spec+=-g++
elif [[ ${CXX} == *icpc* ]]; then
spec+=-icc
else
die "Unknown compiler ${CXX}."
fi
if [[ -n ${LIBDIR/lib} ]]; then
spec+=-${LIBDIR/lib}
fi
# Add -64 for 64bit profiles
if use x64-freebsd ||
use amd64-linux ||
use x64-macos ||
use x64-solaris ||
use sparc64-solaris
then
spec+=-64
fi
if [[ "$ABI" == "x86" ]]; then
spec+=-32
else
ewarn "Unknown Arch $ABI."
fi
echo "${spec}"
}
# @FUNCTION: qt_assistant_cleanup
# @RETURN: nothing
# @DESCRIPTION:
# Tries to clean up tools.pro for qt-assistant ebuilds
# Meant to be called in src_prepare
qt_assistant_cleanup() {
# different versions (and branches...) may need different handling,
# add a case if you need special handling
case "${MY_PV_EXTRA}" in
*kde-qt*)
sed -e "/^[ \t]*porting/,/^[ \t]*win32.*activeqt$/d" \
-e "/mac/,/^embedded.*makeqpf$/d" \
-i tools/tools.pro || die "patching tools.pro failed"
;;
*)
sed -e "/^[ \t]*porting/,/^[ \t]*win32.*activeqt$/d" \
-e "/mac/,/^embedded.*makeqpf$/d" \
-e "s/^\([ \t]*pixeltool\) /\1 qdoc3 /" \
-i tools/tools.pro || die "patching tools.pro failed"
;;
esac
}
# @FUNCTION: qt_nolibx11
# @RETURN: nothing
# @DESCRIPTION:
# Ignore X11 tests for packages that don't need X libraries installed
qt_nolibx11() {
einfo "removing X11 check to allow X-less compilation"
sed -i "/unixtests\/compile.test.*config.tests\/x11\/xlib/,/fi$/d" "${S}"/configure ||
die "x11 check sed failed"
}
EXPORT_FUNCTIONS pkg_setup src_unpack src_prepare src_configure src_compile src_install src_test pkg_postrm pkg_postinst

2
x11-libs/qt-core/Manifest
View File

@ -6,6 +6,6 @@ AUX qt-4.6.2-alpha.patch 2913 RMD160 52ca59388d88c8e0ea2a40fd8d9d6721d324664e SH
AUX rcc.pro 3440 RMD160 42e65efa8dc027f8a2b6c933243a91c1cac96092 SHA1 017ea0aea74a27012608f8be8f301d3cda3dd2b7 SHA256 b09c74046a97ec87b19a05abfe08d959040b737430e498269fb0d0c00bf0a38d
AUX uic.pro 3671 RMD160 b6d3c392a67b66f6996134975e99db03a9987baf SHA1 f87fff37256b5c966e4d21b0fb6cb64b717f3d07 SHA256 904084b6d936fb9bab33d3592ec69dc9872708a74834f0cb498e8153f784c7fc
DIST qt-everywhere-opensource-src-4.7.1.tar.gz 211768512 RMD160 de6998948eb9f51a9193b9020ba80cfd52d50899 SHA1 fcf764d39d982c7f84703821582bd10c3192e341 SHA256 8cb5277c41f824cfc6dcee0e95e0bf23a9ad2c8d18d245105137481d092b124a
EBUILD qt-core-4.7.1-r1.ebuild 5180 RMD160 0edd1ca4915cc697098c9adaac8cb31733c1bc49 SHA1 a8d9a358cf0c66040a53b7f7e195665297f1acb8 SHA256 fc101e3a1b6bc9ad684b0d67b25e81e63857ee5fb8449368eae6ddfeeeb7162d
EBUILD qt-core-4.7.1-r1.ebuild 5175 RMD160 5b7c3b231ebf316202715e0d2e1586f912dd1f7e SHA1 8f262eeb47049c72f836e93e8455559113de035e SHA256 aac3eb99cc4f8819140ea43dedfd9da0411aa29009a87b748ab880a0d8fea57a
MISC ChangeLog 15622 RMD160 88b29517686f501f38ee39186a036c84faba9b4b SHA1 bb733e98605a6fabd9c2cfe52e5f6d9e67db5fab SHA256 65b9b9946728be7c11c7da5a7857b9ffb71bf112f9da7d901d0e12b94dd9d896
MISC metadata.xml 802 RMD160 0341afae262322299759a5a33bae9a42e5b7801c SHA1 b564551c1b4a7902e09200255c6c0a6ede646a23 SHA256 a84f88402ece782e8ac52ad0b90eea94e5bd563ca0a7956e1d89f1263d7f2925

7
x11-libs/qt-core/qt-core-4.7.1-r1.ebuild
View File

@ -74,8 +74,6 @@ src_prepare() {
"${S}/qmake/Makefile.unix" || die "sed qmake/Makefile.unix CXXFLAGS failed"
sed -i -e "s:LFLAGS.*=:LFLAGS=${LDFLAGS} :" \
"${S}/qmake/Makefile.unix" || die "sed qmake/Makefile.unix LDFLAGS failed"
sed -i -e "s:-m32::" \
"${S}/config.tests/.qmake.cache" || die "sed qmake/Makefile.unix LDFLAGS failed"
}
src_configure() {
@ -96,6 +94,11 @@ src_configure() {
-no-freetype -no-libtiff -no-accessibility -no-fontconfig -no-opengl
-no-svg -no-gtkstyle -no-phonon-backend -no-script -no-scripttools
-no-cups -no-xsync -no-xinput -no-multimedia"
if [ "$ABI" = "x86" ] ; then
myconf="${myconf} -little-endian -host-little-endian -continue"
fi
qt4-build_src_configure
}