eclass/python-r1.eclass - mirrors/cros/chromiumos/overlays/portage-stable - Git at Google

 # Copyright 1999-2012 Gentoo Foundation
 # Distributed under the terms of the GNU General Public License v2
 # $Header: /var/cvsroot/gentoo-x86/eclass/python-r1.eclass,v 1.24 2012/11/30 11:40:15 mgorny Exp $

 # @ECLASS: python-r1
 # @MAINTAINER:
 # Michał Górny <mgorny@gentoo.org>
 # Python herd <python@gentoo.org>
 # @AUTHOR:
 # Author: Michał Górny <mgorny@gentoo.org>
 # Based on work of: Krzysztof Pawlik <nelchael@gentoo.org>
 # @BLURB: A common, simple eclass for Python packages.
 # @DESCRIPTION:
 # A common eclass providing helper functions to build and install
 # packages supporting being installed for multiple Python
 # implementations.
 #
 # This eclass sets correct IUSE and REQUIRED_USE. It exports PYTHON_DEPS
 # and PYTHON_USEDEP so you can create correct dependencies for your
 # package easily. It also provides methods to easily run a command for
 # each enabled Python implementation and duplicate the sources for them.
 #
 # Please note that python-r1 will always inherit python-utils-r1 as
 # well. Thus, all the functions defined there can be used
 # in the packages using python-r1, and there is no need ever to inherit
 # both.
 #
 # For more information, please see the python-r1 Developer's Guide:
 # http://www.gentoo.org/proj/en/Python/python-r1/dev-guide.xml

 case "${EAPI:-0}" in
 	0|1|2|3)
 		die "Unsupported EAPI=${EAPI:-0} (too old) for ${ECLASS}"
 		;;
 	4|5)
 		# EAPI=4 needed for REQUIRED_USE
 		;;
 	*)
 		die "Unsupported EAPI=${EAPI} (unknown) for ${ECLASS}"
 		;;
 esac

 if [[ ! ${_PYTHON_R1} ]]; then

 if [[ ${_PYTHON_SINGLE_R1} ]]; then
 	die 'python-r1.eclass can not be used with python-single-r1.eclass.'
 fi

 inherit python-utils-r1

 # @ECLASS-VARIABLE: PYTHON_COMPAT
 # @REQUIRED
 # @DESCRIPTION:
 # This variable contains a list of Python implementations the package
 # supports. It must be set before the `inherit' call. It has to be
 # an array.
 #
 # Example:
 # @CODE
 # PYTHON_COMPAT=( python2_5 python2_6 python2_7 )
 # @CODE
 #
 # Please note that you can also use bash brace expansion if you like:
 # @CODE
 # PYTHON_COMPAT=( python{2_5,2_6,2_7} )
 # @CODE
 if ! declare -p PYTHON_COMPAT &>/dev/null; then
 	if [[ ${CATEGORY}/${PN} == dev-python/python-exec ]]; then
 		PYTHON_COMPAT=( "${_PYTHON_ALL_IMPLS[@]}" )
 	else
 		die 'PYTHON_COMPAT not declared.'
 	fi
 fi

 # @ECLASS-VARIABLE: PYTHON_REQ_USE
 # @DEFAULT_UNSET
 # @DESCRIPTION:
 # The list of USEflags required to be enabled on the chosen Python
 # implementations, formed as a USE-dependency string. It should be valid
 # for all implementations in PYTHON_COMPAT, so it may be necessary to
 # use USE defaults.
 #
 # Example:
 # @CODE
 # PYTHON_REQ_USE="gdbm,ncurses(-)?"
 # @CODE
 #
 # It will cause the Python dependencies to look like:
 # @CODE
 # python_targets_pythonX_Y? ( dev-lang/python:X.Y[gdbm,ncurses(-)?] )
 # @CODE

 # @ECLASS-VARIABLE: PYTHON_DEPS
 # @DESCRIPTION:
 # This is an eclass-generated Python dependency string for all
 # implementations listed in PYTHON_COMPAT.
 #
 # Example use:
 # @CODE
 # RDEPEND="${PYTHON_DEPS}
 #	dev-foo/mydep"
 # DEPEND="${RDEPEND}"
 # @CODE
 #
 # Example value:
 # @CODE
 # dev-python/python-exec
 # python_targets_python2_6? ( dev-lang/python:2.6[gdbm] )
 # python_targets_python2_7? ( dev-lang/python:2.7[gdbm] )
 # @CODE

 # @ECLASS-VARIABLE: PYTHON_USEDEP
 # @DESCRIPTION:
 # This is an eclass-generated USE-dependency string which can be used to
 # depend on another Python package being built for the same Python
 # implementations.
 #
 # The generate USE-flag list is compatible with packages using python-r1
 # and python-distutils-ng eclasses. It must not be used on packages
 # using python.eclass.
 #
 # Example use:
 # @CODE
 # RDEPEND="dev-python/foo[${PYTHON_USEDEP}]"
 # @CODE
 #
 # Example value:
 # @CODE
 # python_targets_python2_6?,python_targets_python2_7?
 # @CODE

 _python_set_globals() {
 	local flags=( "${PYTHON_COMPAT[@]/#/python_targets_}" )
 	local optflags=${flags[@]/%/?}

 	IUSE=${flags[*]}
 	REQUIRED_USE="|| ( ${flags[*]} )"
 	PYTHON_USEDEP=${optflags// /,}

 	local usestr
 	[[ ${PYTHON_REQ_USE} ]] && usestr="[${PYTHON_REQ_USE}]"

 	# 1) well, python-exec would suffice as an RDEP
 	# but no point in making this overcomplex, BDEP doesn't hurt anyone
 	# 2) python-exec should be built with all targets forced anyway
 	# but if new targets were added, we may need to force a rebuild
 	PYTHON_DEPS="dev-python/python-exec[${PYTHON_USEDEP}]"
 	local i
 	for i in "${PYTHON_COMPAT[@]}"; do
 		local d
 		case ${i} in
 			python*)
 				d='dev-lang/python';;
 			jython*)
 				d='dev-java/jython';;
 			pypy*)
 				d='dev-python/pypy';;
 			*)
 				die "Invalid implementation: ${i}"
 		esac

 		local v=${i##*[a-z]}
 		PYTHON_DEPS+=" python_targets_${i}? ( ${d}:${v/_/.}${usestr} )"
 	done
 }
 _python_set_globals

 # @ECLASS-VARIABLE: BUILD_DIR
 # @DESCRIPTION:
 # The current build directory. In global scope, it is supposed to
 # contain an initial build directory; if unset, it defaults to ${S}.
 #
 # In functions run by python_foreach_impl(), the BUILD_DIR is locally
 # set to an implementation-specific build directory. That path is
 # created through appending a hyphen and the implementation name
 # to the final component of the initial BUILD_DIR.
 #
 # Example value:
 # @CODE
 # ${WORKDIR}/foo-1.3-python2_6
 # @CODE

 # @FUNCTION: python_copy_sources
 # @DESCRIPTION:
 # Create a single copy of the package sources (${S}) for each enabled
 # Python implementation.
 #
 # The sources are always copied from S to implementation-specific build
 # directories respecting BUILD_DIR.
 python_copy_sources() {
 	debug-print-function ${FUNCNAME} "${@}"

 	local impl
 	local bdir=${BUILD_DIR:-${S}}

 	debug-print "${FUNCNAME}: bdir = ${bdir}"
 	einfo "Will copy sources from ${S}"
 	# the order is irrelevant here
 	for impl in "${PYTHON_COMPAT[@]}"; do
 		if use "python_targets_${impl}"
 		then
 			local BUILD_DIR=${bdir%%/}-${impl}

 			einfo "${impl}: copying to ${BUILD_DIR}"
 			debug-print "${FUNCNAME}: [${impl}] cp ${S} => ${BUILD_DIR}"
 			cp -pr "${S}" "${BUILD_DIR}" || die
 		fi
 	done
 }

 # @FUNCTION: _python_check_USE_PYTHON
 # @INTERNAL
 # @DESCRIPTION:
 # Check whether USE_PYTHON and PYTHON_TARGETS are in sync. Output
 # warnings if they are not.
 _python_check_USE_PYTHON() {
 	debug-print-function ${FUNCNAME} "${@}"

 	if [[ ! ${_PYTHON_USE_PYTHON_CHECKED} ]]; then
 		_PYTHON_USE_PYTHON_CHECKED=1

 		# python-exec has profile-forced flags.
 		if [[ ${CATEGORY}/${PN} == dev-python/python-exec ]]; then
 			return
 		fi

 		_try_eselect() {
 			# The eselect solution will work only with one py2 & py3.

 			local impl py2 py3 dis_py2 dis_py3
 			for impl in "${PYTHON_COMPAT[@]}"; do
 				if use "python_targets_${impl}"; then
 					case "${impl}" in
 						python2_*)
 							if [[ ${py2+1} ]]; then
 								debug-print "${FUNCNAME}: -> more than one py2: ${py2} ${impl}"
 								return 1
 							fi
 							py2=${impl/_/.}
 							;;
 						python3_*)
 							if [[ ${py3+1} ]]; then
 								debug-print "${FUNCNAME}: -> more than one py3: ${py3} ${impl}"
 								return 1
 							fi
 							py3=${impl/_/.}
 							;;
 						*)
 							return 1
 							;;
 					esac
 				else
 					case "${impl}" in
 						python2_*)
 							dis_py2=1
 							;;
 						python3_*)
 							dis_py3=1
 							;;
 					esac
 				fi
 			done

 			# The eselect solution won't work if the disabled Python version
 			# is installed.
 			if [[ ! ${py2+1} && ${dis_py2} ]]; then
 				debug-print "${FUNCNAME}: -> all py2 versions disabled"
 				if has_version '=dev-lang/python-2*'; then
 					debug-print "${FUNCNAME}: ---> but =python-2* installed!"
 					return 1
 				fi
 			fi
 			if [[ ! ${py3+1} && ${dis_py3} ]]; then
 				debug-print "${FUNCNAME}: -> all py3 versions disabled"
 				if has_version '=dev-lang/python-3*'; then
 					debug-print "${FUNCNAME}: ---> but =python-3* installed!"
 					return 1
 				fi
 			fi

 			local warned

 			# Now check whether the correct implementations are active.
 			if [[ ${py2+1} ]]; then
 				local sel_py2=$(eselect python show --python2)

 				debug-print "${FUNCNAME}: -> py2 built: ${py2}, active: ${sel_py2}"
 				if [[ ${py2} != ${sel_py2} ]]; then
 					ewarn "Building package for ${py2} only while ${sel_py2} is active."
 					ewarn "Please consider switching the active Python 2 interpreter:"
 					ewarn
 					ewarn "	eselect python set --python2 ${py2}"
 					warned=1
 				fi
 			fi

 			if [[ ${py3+1} ]]; then
 				local sel_py3=$(eselect python show --python3)

 				debug-print "${FUNCNAME}: -> py3 built: ${py3}, active: ${sel_py3}"
 				if [[ ${py3} != ${sel_py3} ]]; then
 					[[ ${warned} ]] && ewarn
 					ewarn "Building package for ${py3} only while ${sel_py3} is active."
 					ewarn "Please consider switching the active Python 3 interpreter:"
 					ewarn
 					ewarn "	eselect python set --python3 ${py3}"
 					warned=1
 				fi
 			fi

 			if [[ ${warned} ]]; then
 				ewarn
 				ewarn "Please note that after switching the active Python interpreter,"
 				ewarn "you may need to run 'python-updater' to rebuild affected packages."
 				ewarn
 				ewarn "For more information on python.eclass compatibility, please see"
 				ewarn "the appropriate python-r1 User's Guide chapter [1]."
 				ewarn
 				ewarn "[1] http://www.gentoo.org/proj/en/Python/python-r1/user-guide.xml#doc_chap2"
 			fi
 		}

 		# If user has no USE_PYTHON, try to avoid it.
 		if [[ ! ${USE_PYTHON} ]]; then
 			debug-print "${FUNCNAME}: trying eselect solution ..."
 			_try_eselect && return
 		fi

 		debug-print "${FUNCNAME}: trying USE_PYTHON solution ..."
 		debug-print "${FUNCNAME}: -> USE_PYTHON=${USE_PYTHON}"

 		local impl old=${USE_PYTHON} new=() removed=()

 		for impl in "${PYTHON_COMPAT[@]}"; do
 			local abi
 			case "${impl}" in
 				python*)
 					abi=${impl#python}
 					;;
 				jython*)
 					abi=${impl#jython}-jython
 					;;
 				pypy*)
 					abi=2.7-pypy-${impl#pypy}
 					;;
 				*)
 					die "Unexpected Python implementation: ${impl}"
 					;;
 			esac
 			abi=${abi/_/.}

 			has "${abi}" ${USE_PYTHON}
 			local has_abi=${?}
 			use "python_targets_${impl}"
 			local has_impl=${?}

 			# 0 = has, 1 = does not have
 			if [[ ${has_abi} == 0 && ${has_impl} == 1 ]]; then
 				debug-print "${FUNCNAME}: ---> remove ${abi}"
 				# remove from USE_PYTHON
 				old=${old/${abi}/}
 				removed+=( ${abi} )
 			elif [[ ${has_abi} == 1 && ${has_impl} == 0 ]]; then
 				debug-print "${FUNCNAME}: ---> add ${abi}"
 				# add to USE_PYTHON
 				new+=( ${abi} )
 			fi
 		done

 		if [[ ${removed[@]} || ${new[@]} ]]; then
 			old=( ${old} )

 			debug-print "${FUNCNAME}: -> old: ${old[@]}"
 			debug-print "${FUNCNAME}: -> new: ${new[@]}"
 			debug-print "${FUNCNAME}: -> removed: ${removed[@]}"

 			if [[ ${USE_PYTHON} ]]; then
 				ewarn "It seems that your USE_PYTHON setting lists different Python"
 				ewarn "implementations than your PYTHON_TARGETS variable. Please consider"
 				ewarn "using the following value instead:"
 				ewarn
 				ewarn "	USE_PYTHON='\033[35m${old[@]}${new[@]+ \033[1m${new[@]}}\033[0m'"

 				if [[ ${removed[@]} ]]; then
 					ewarn
 					ewarn "(removed \033[31m${removed[@]}\033[0m)"
 				fi
 			else
 				ewarn "It seems that you need to set USE_PYTHON to make sure that legacy"
 				ewarn "packages will be built with respect to PYTHON_TARGETS correctly:"
 				ewarn
 				ewarn "	USE_PYTHON='\033[35;1m${new[@]}\033[0m'"
 			fi

 			ewarn
 			ewarn "Please note that after changing the USE_PYTHON variable, you may need"
 			ewarn "to run 'python-updater' to rebuild affected packages."
 			ewarn
 			ewarn "For more information on python.eclass compatibility, please see"
 			ewarn "the appropriate python-r1 User's Guide chapter [1]."
 			ewarn
 			ewarn "[1] http://www.gentoo.org/proj/en/Python/python-r1/user-guide.xml#doc_chap2"
 		fi
 	fi
 }

 # @FUNCTION: python_foreach_impl
 # @USAGE: <command> [<args>...]
 # @DESCRIPTION:
 # Run the given command for each of the enabled Python implementations.
 # If additional parameters are passed, they will be passed through
 # to the command. If the command fails, python_foreach_impl dies.
 # If necessary, use ':' to force a successful return.
 #
 # For each command being run, EPYTHON, PYTHON and BUILD_DIR are set
 # locally, and the former two are exported to the command environment.
 python_foreach_impl() {
 	debug-print-function ${FUNCNAME} "${@}"

 	_python_check_USE_PYTHON

 	local impl
 	local bdir=${BUILD_DIR:-${S}}

 	debug-print "${FUNCNAME}: bdir = ${bdir}"
 	for impl in "${_PYTHON_ALL_IMPLS[@]}"; do
 		if has "${impl}" "${PYTHON_COMPAT[@]}" && use "python_targets_${impl}"
 		then
 			local EPYTHON PYTHON
 			python_export "${impl}" EPYTHON PYTHON
 			local BUILD_DIR=${bdir%%/}-${impl}
 			export EPYTHON PYTHON

 			einfo "${EPYTHON}: running ${@}"
 			"${@}" || die "${EPYTHON}: ${1} failed"
 		fi
 	done
 }

 # @FUNCTION: python_export_best
 # @USAGE: [<variable>...]
 # @DESCRIPTION:
 # Find the best (most preferred) Python implementation enabled
 # and export given variables for it. If no variables are provided,
 # EPYTHON & PYTHON will be exported.
 python_export_best() {
 	debug-print-function ${FUNCNAME} "${@}"

 	[[ ${#} -gt 0 ]] || set -- EPYTHON PYTHON

 	local impl best
 	for impl in "${_PYTHON_ALL_IMPLS[@]}"; do
 		if has "${impl}" "${PYTHON_COMPAT[@]}" && use "python_targets_${impl}"
 		then
 			best=${impl}
 		fi
 	done

 	[[ ${best+1} ]] || die "python_export_best(): no implementation found!"

 	debug-print "${FUNCNAME}: Best implementation is: ${impl}"
 	python_export "${impl}" "${@}"
 }

 # @FUNCTION: python_replicate_script
 # @USAGE: <path>...
 # @DESCRIPTION:
 # Copy the given script to variants for all enabled Python
 # implementations, then replace it with a symlink to the wrapper.
 #
 # All specified files must start with a 'python' shebang. A file not
 # having a matching shebang will be refused.
 python_replicate_script() {
 	debug-print-function ${FUNCNAME} "${@}"

 	if [[ ${_PYTHON_SINGLE_R1} ]]; then
 		die "${FUNCNAME} must not be used with python-single-r1 eclass."
 	fi

 	local suffixes=()

 	_add_suffix() {
 		suffixes+=( "${EPYTHON}" )
 	}
 	python_foreach_impl _add_suffix
 	debug-print "${FUNCNAME}: suffixes = ( ${suffixes[@]} )"

 	local f suffix
 	for suffix in "${suffixes[@]}"; do
 		for f; do
 			local newf=${f}-${suffix}

 			debug-print "${FUNCNAME}: ${f} -> ${newf}"
 			cp "${f}" "${newf}" || die
 		done

 		_python_rewrite_shebang "${suffix}" "${@/%/-${suffix}}"
 	done

 	for f; do
 		_python_ln_rel "${ED}"/usr/bin/python-exec "${f}" || die
 	done
 }

 _PYTHON_R1=1
 fi
	# Copyright 1999-2012 Gentoo Foundation
	# Distributed under the terms of the GNU General Public License v2
	# $Header: /var/cvsroot/gentoo-x86/eclass/python-r1.eclass,v 1.24 2012/11/30 11:40:15 mgorny Exp $

	# @ECLASS: python-r1
	# @MAINTAINER:
	# Michał Górny <mgorny@gentoo.org>
	# Python herd <python@gentoo.org>
	# @AUTHOR:
	# Author: Michał Górny <mgorny@gentoo.org>
	# Based on work of: Krzysztof Pawlik <nelchael@gentoo.org>
	# @BLURB: A common, simple eclass for Python packages.
	# @DESCRIPTION:
	# A common eclass providing helper functions to build and install
	# packages supporting being installed for multiple Python
	# implementations.
	#
	# This eclass sets correct IUSE and REQUIRED_USE. It exports PYTHON_DEPS
	# and PYTHON_USEDEP so you can create correct dependencies for your
	# package easily. It also provides methods to easily run a command for
	# each enabled Python implementation and duplicate the sources for them.
	#
	# Please note that python-r1 will always inherit python-utils-r1 as
	# well. Thus, all the functions defined there can be used
	# in the packages using python-r1, and there is no need ever to inherit
	# both.
	#
	# For more information, please see the python-r1 Developer's Guide:
	# http://www.gentoo.org/proj/en/Python/python-r1/dev-guide.xml

	case "${EAPI:-0}" in
	0\|1\|2\|3)
	die "Unsupported EAPI=${EAPI:-0} (too old) for ${ECLASS}"
	;;
	4\|5)
	# EAPI=4 needed for REQUIRED_USE
	;;
	*)
	die "Unsupported EAPI=${EAPI} (unknown) for ${ECLASS}"
	;;
	esac

	if [[ ! ${_PYTHON_R1} ]]; then

	if [[ ${_PYTHON_SINGLE_R1} ]]; then
	die 'python-r1.eclass can not be used with python-single-r1.eclass.'
	fi

	inherit python-utils-r1

	# @ECLASS-VARIABLE: PYTHON_COMPAT
	# @REQUIRED
	# @DESCRIPTION:
	# This variable contains a list of Python implementations the package
	# supports. It must be set before the `inherit' call. It has to be
	# an array.
	#
	# Example:
	# @CODE
	# PYTHON_COMPAT=( python2_5 python2_6 python2_7 )
	# @CODE
	#
	# Please note that you can also use bash brace expansion if you like:
	# @CODE
	# PYTHON_COMPAT=( python{2_5,2_6,2_7} )
	# @CODE
	if ! declare -p PYTHON_COMPAT &>/dev/null; then
	if [[ ${CATEGORY}/${PN} == dev-python/python-exec ]]; then
	PYTHON_COMPAT=( "${_PYTHON_ALL_IMPLS[@]}" )
	else
	die 'PYTHON_COMPAT not declared.'
	fi
	fi

	# @ECLASS-VARIABLE: PYTHON_REQ_USE
	# @DEFAULT_UNSET
	# @DESCRIPTION:
	# The list of USEflags required to be enabled on the chosen Python
	# implementations, formed as a USE-dependency string. It should be valid
	# for all implementations in PYTHON_COMPAT, so it may be necessary to
	# use USE defaults.
	#
	# Example:
	# @CODE
	# PYTHON_REQ_USE="gdbm,ncurses(-)?"
	# @CODE
	#
	# It will cause the Python dependencies to look like:
	# @CODE
	# python_targets_pythonX_Y? ( dev-lang/python:X.Y[gdbm,ncurses(-)?] )
	# @CODE

	# @ECLASS-VARIABLE: PYTHON_DEPS
	# @DESCRIPTION:
	# This is an eclass-generated Python dependency string for all
	# implementations listed in PYTHON_COMPAT.
	#
	# Example use:
	# @CODE
	# RDEPEND="${PYTHON_DEPS}
	# dev-foo/mydep"
	# DEPEND="${RDEPEND}"
	# @CODE
	#
	# Example value:
	# @CODE
	# dev-python/python-exec
	# python_targets_python2_6? ( dev-lang/python:2.6[gdbm] )
	# python_targets_python2_7? ( dev-lang/python:2.7[gdbm] )
	# @CODE

	# @ECLASS-VARIABLE: PYTHON_USEDEP
	# @DESCRIPTION:
	# This is an eclass-generated USE-dependency string which can be used to
	# depend on another Python package being built for the same Python
	# implementations.
	#
	# The generate USE-flag list is compatible with packages using python-r1
	# and python-distutils-ng eclasses. It must not be used on packages
	# using python.eclass.
	#
	# Example use:
	# @CODE
	# RDEPEND="dev-python/foo[${PYTHON_USEDEP}]"
	# @CODE
	#
	# Example value:
	# @CODE
	# python_targets_python2_6?,python_targets_python2_7?
	# @CODE

	_python_set_globals() {
	local flags=( "${PYTHON_COMPAT[@]/#/python_targets_}" )
	local optflags=${flags[@]/%/?}

	IUSE=${flags[*]}
	REQUIRED_USE="\|\| ( ${flags[*]} )"
	PYTHON_USEDEP=${optflags// /,}

	local usestr
	[[ ${PYTHON_REQ_USE} ]] && usestr="[${PYTHON_REQ_USE}]"

	# 1) well, python-exec would suffice as an RDEP
	# but no point in making this overcomplex, BDEP doesn't hurt anyone
	# 2) python-exec should be built with all targets forced anyway
	# but if new targets were added, we may need to force a rebuild
	PYTHON_DEPS="dev-python/python-exec[${PYTHON_USEDEP}]"
	local i
	for i in "${PYTHON_COMPAT[@]}"; do
	local d
	case ${i} in
	python*)
	d='dev-lang/python';;
	jython*)
	d='dev-java/jython';;
	pypy*)
	d='dev-python/pypy';;
	*)
	die "Invalid implementation: ${i}"
	esac

	local v=${i##*[a-z]}
	PYTHON_DEPS+=" python_targets_${i}? ( ${d}:${v/_/.}${usestr} )"
	done
	}
	_python_set_globals

	# @ECLASS-VARIABLE: BUILD_DIR
	# @DESCRIPTION:
	# The current build directory. In global scope, it is supposed to
	# contain an initial build directory; if unset, it defaults to ${S}.
	#
	# In functions run by python_foreach_impl(), the BUILD_DIR is locally
	# set to an implementation-specific build directory. That path is
	# created through appending a hyphen and the implementation name
	# to the final component of the initial BUILD_DIR.
	#
	# Example value:
	# @CODE
	# ${WORKDIR}/foo-1.3-python2_6
	# @CODE

	# @FUNCTION: python_copy_sources
	# @DESCRIPTION:
	# Create a single copy of the package sources (${S}) for each enabled
	# Python implementation.
	#
	# The sources are always copied from S to implementation-specific build
	# directories respecting BUILD_DIR.
	python_copy_sources() {
	debug-print-function ${FUNCNAME} "${@}"

	local impl
	local bdir=${BUILD_DIR:-${S}}

	debug-print "${FUNCNAME}: bdir = ${bdir}"
	einfo "Will copy sources from ${S}"
	# the order is irrelevant here
	for impl in "${PYTHON_COMPAT[@]}"; do
	if use "python_targets_${impl}"
	then
	local BUILD_DIR=${bdir%%/}-${impl}

	einfo "${impl}: copying to ${BUILD_DIR}"
	debug-print "${FUNCNAME}: [${impl}] cp ${S} => ${BUILD_DIR}"
	cp -pr "${S}" "${BUILD_DIR}" \|\| die
	fi
	done
	}

	# @FUNCTION: _python_check_USE_PYTHON
	# @INTERNAL
	# @DESCRIPTION:
	# Check whether USE_PYTHON and PYTHON_TARGETS are in sync. Output
	# warnings if they are not.
	_python_check_USE_PYTHON() {
	debug-print-function ${FUNCNAME} "${@}"

	if [[ ! ${_PYTHON_USE_PYTHON_CHECKED} ]]; then
	_PYTHON_USE_PYTHON_CHECKED=1

	# python-exec has profile-forced flags.
	if [[ ${CATEGORY}/${PN} == dev-python/python-exec ]]; then
	return
	fi

	_try_eselect() {
	# The eselect solution will work only with one py2 & py3.

	local impl py2 py3 dis_py2 dis_py3
	for impl in "${PYTHON_COMPAT[@]}"; do
	if use "python_targets_${impl}"; then
	case "${impl}" in
	python2_*)
	if [[ ${py2+1} ]]; then
	debug-print "${FUNCNAME}: -> more than one py2: ${py2} ${impl}"
	return 1
	fi
	py2=${impl/_/.}
	;;
	python3_*)
	if [[ ${py3+1} ]]; then
	debug-print "${FUNCNAME}: -> more than one py3: ${py3} ${impl}"
	return 1
	fi
	py3=${impl/_/.}
	;;
	*)
	return 1
	;;
	esac
	else
	case "${impl}" in
	python2_*)
	dis_py2=1
	;;
	python3_*)
	dis_py3=1
	;;
	esac
	fi
	done

	# The eselect solution won't work if the disabled Python version
	# is installed.
	if [[ ! ${py2+1} && ${dis_py2} ]]; then
	debug-print "${FUNCNAME}: -> all py2 versions disabled"
	if has_version '=dev-lang/python-2*'; then
	debug-print "${FUNCNAME}: ---> but =python-2* installed!"
	return 1
	fi
	fi
	if [[ ! ${py3+1} && ${dis_py3} ]]; then
	debug-print "${FUNCNAME}: -> all py3 versions disabled"
	if has_version '=dev-lang/python-3*'; then
	debug-print "${FUNCNAME}: ---> but =python-3* installed!"
	return 1
	fi
	fi

	local warned

	# Now check whether the correct implementations are active.
	if [[ ${py2+1} ]]; then
	local sel_py2=$(eselect python show --python2)

	debug-print "${FUNCNAME}: -> py2 built: ${py2}, active: ${sel_py2}"
	if [[ ${py2} != ${sel_py2} ]]; then
	ewarn "Building package for ${py2} only while ${sel_py2} is active."
	ewarn "Please consider switching the active Python 2 interpreter:"
	ewarn
	ewarn " eselect python set --python2 ${py2}"
	warned=1
	fi
	fi

	if [[ ${py3+1} ]]; then
	local sel_py3=$(eselect python show --python3)

	debug-print "${FUNCNAME}: -> py3 built: ${py3}, active: ${sel_py3}"
	if [[ ${py3} != ${sel_py3} ]]; then
	[[ ${warned} ]] && ewarn
	ewarn "Building package for ${py3} only while ${sel_py3} is active."
	ewarn "Please consider switching the active Python 3 interpreter:"
	ewarn
	ewarn " eselect python set --python3 ${py3}"
	warned=1
	fi
	fi

	if [[ ${warned} ]]; then
	ewarn
	ewarn "Please note that after switching the active Python interpreter,"
	ewarn "you may need to run 'python-updater' to rebuild affected packages."
	ewarn
	ewarn "For more information on python.eclass compatibility, please see"
	ewarn "the appropriate python-r1 User's Guide chapter [1]."
	ewarn
	ewarn "[1] http://www.gentoo.org/proj/en/Python/python-r1/user-guide.xml#doc_chap2"
	fi
	}

	# If user has no USE_PYTHON, try to avoid it.
	if [[ ! ${USE_PYTHON} ]]; then
	debug-print "${FUNCNAME}: trying eselect solution ..."
	_try_eselect && return
	fi

	debug-print "${FUNCNAME}: trying USE_PYTHON solution ..."
	debug-print "${FUNCNAME}: -> USE_PYTHON=${USE_PYTHON}"

	local impl old=${USE_PYTHON} new=() removed=()

	for impl in "${PYTHON_COMPAT[@]}"; do
	local abi
	case "${impl}" in
	python*)
	abi=${impl#python}
	;;
	jython*)
	abi=${impl#jython}-jython
	;;
	pypy*)
	abi=2.7-pypy-${impl#pypy}
	;;
	*)
	die "Unexpected Python implementation: ${impl}"
	;;
	esac
	abi=${abi/_/.}

	has "${abi}" ${USE_PYTHON}
	local has_abi=${?}
	use "python_targets_${impl}"
	local has_impl=${?}

	# 0 = has, 1 = does not have
	if [[ ${has_abi} == 0 && ${has_impl} == 1 ]]; then
	debug-print "${FUNCNAME}: ---> remove ${abi}"
	# remove from USE_PYTHON
	old=${old/${abi}/}
	removed+=( ${abi} )
	elif [[ ${has_abi} == 1 && ${has_impl} == 0 ]]; then
	debug-print "${FUNCNAME}: ---> add ${abi}"
	# add to USE_PYTHON
	new+=( ${abi} )
	fi
	done

	if [[ ${removed[@]} \|\| ${new[@]} ]]; then
	old=( ${old} )

	debug-print "${FUNCNAME}: -> old: ${old[@]}"
	debug-print "${FUNCNAME}: -> new: ${new[@]}"
	debug-print "${FUNCNAME}: -> removed: ${removed[@]}"

	if [[ ${USE_PYTHON} ]]; then
	ewarn "It seems that your USE_PYTHON setting lists different Python"
	ewarn "implementations than your PYTHON_TARGETS variable. Please consider"
	ewarn "using the following value instead:"
	ewarn
	ewarn " USE_PYTHON='\033[35m${old[@]}${new[@]+ \033[1m${new[@]}}\033[0m'"

	if [[ ${removed[@]} ]]; then
	ewarn
	ewarn "(removed \033[31m${removed[@]}\033[0m)"
	fi
	else
	ewarn "It seems that you need to set USE_PYTHON to make sure that legacy"
	ewarn "packages will be built with respect to PYTHON_TARGETS correctly:"
	ewarn
	ewarn " USE_PYTHON='\033[35;1m${new[@]}\033[0m'"
	fi

	ewarn
	ewarn "Please note that after changing the USE_PYTHON variable, you may need"
	ewarn "to run 'python-updater' to rebuild affected packages."
	ewarn
	ewarn "For more information on python.eclass compatibility, please see"
	ewarn "the appropriate python-r1 User's Guide chapter [1]."
	ewarn
	ewarn "[1] http://www.gentoo.org/proj/en/Python/python-r1/user-guide.xml#doc_chap2"
	fi
	fi
	}

	# @FUNCTION: python_foreach_impl
	# @USAGE: <command> [<args>...]
	# @DESCRIPTION:
	# Run the given command for each of the enabled Python implementations.
	# If additional parameters are passed, they will be passed through
	# to the command. If the command fails, python_foreach_impl dies.
	# If necessary, use ':' to force a successful return.
	#
	# For each command being run, EPYTHON, PYTHON and BUILD_DIR are set
	# locally, and the former two are exported to the command environment.
	python_foreach_impl() {
	debug-print-function ${FUNCNAME} "${@}"

	_python_check_USE_PYTHON

	local impl
	local bdir=${BUILD_DIR:-${S}}

	debug-print "${FUNCNAME}: bdir = ${bdir}"
	for impl in "${_PYTHON_ALL_IMPLS[@]}"; do
	if has "${impl}" "${PYTHON_COMPAT[@]}" && use "python_targets_${impl}"
	then
	local EPYTHON PYTHON
	python_export "${impl}" EPYTHON PYTHON
	local BUILD_DIR=${bdir%%/}-${impl}
	export EPYTHON PYTHON

	einfo "${EPYTHON}: running ${@}"
	"${@}" \|\| die "${EPYTHON}: ${1} failed"
	fi
	done
	}

	# @FUNCTION: python_export_best
	# @USAGE: [<variable>...]
	# @DESCRIPTION:
	# Find the best (most preferred) Python implementation enabled
	# and export given variables for it. If no variables are provided,
	# EPYTHON & PYTHON will be exported.
	python_export_best() {
	debug-print-function ${FUNCNAME} "${@}"

	[[ ${#} -gt 0 ]] \|\| set -- EPYTHON PYTHON

	local impl best
	for impl in "${_PYTHON_ALL_IMPLS[@]}"; do
	if has "${impl}" "${PYTHON_COMPAT[@]}" && use "python_targets_${impl}"
	then
	best=${impl}
	fi
	done

	[[ ${best+1} ]] \|\| die "python_export_best(): no implementation found!"

	debug-print "${FUNCNAME}: Best implementation is: ${impl}"
	python_export "${impl}" "${@}"
	}

	# @FUNCTION: python_replicate_script
	# @USAGE: <path>...
	# @DESCRIPTION:
	# Copy the given script to variants for all enabled Python
	# implementations, then replace it with a symlink to the wrapper.
	#
	# All specified files must start with a 'python' shebang. A file not
	# having a matching shebang will be refused.
	python_replicate_script() {
	debug-print-function ${FUNCNAME} "${@}"

	if [[ ${_PYTHON_SINGLE_R1} ]]; then
	die "${FUNCNAME} must not be used with python-single-r1 eclass."
	fi

	local suffixes=()

	_add_suffix() {
	suffixes+=( "${EPYTHON}" )
	}
	python_foreach_impl _add_suffix
	debug-print "${FUNCNAME}: suffixes = ( ${suffixes[@]} )"

	local f suffix
	for suffix in "${suffixes[@]}"; do
	for f; do
	local newf=${f}-${suffix}

	debug-print "${FUNCNAME}: ${f} -> ${newf}"
	cp "${f}" "${newf}" \|\| die
	done

	_python_rewrite_shebang "${suffix}" "${@/%/-${suffix}}"
	done

	for f; do
	_python_ln_rel "${ED}"/usr/bin/python-exec "${f}" \|\| die
	done
	}

	_PYTHON_R1=1
	fi