eclass/python-utils-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-utils-r1.eclass,v 1.5 2012/11/30 11:43:14 mgorny Exp $

 # @ECLASS: python-utils-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: Utility functions for packages with Python parts.
 # @DESCRIPTION:
 # An utility eclass providing functions to query Python implementations,
 # install Python modules and scripts.
 #
 # This eclass does not set any metadata variables nor export any phase
 # functions. It can be inherited safely.
 #
 # For more information, please see the python-r1 Developer's Guide:
 # http://www.gentoo.org/proj/en/Python/python-r1/dev-guide.xml

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

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

 if [[ ! ${_PYTHON_UTILS_R1} ]]; then

 inherit multilib

 # @ECLASS-VARIABLE: _PYTHON_ALL_IMPLS
 # @INTERNAL
 # @DESCRIPTION:
 # All supported Python implementations, most preferred last.
 _PYTHON_ALL_IMPLS=(
 	jython2_5
 	pypy1_8 pypy1_9
 	python3_1 python3_2 python3_3
 	python2_5 python2_6 python2_7
 )

 # @ECLASS-VARIABLE: PYTHON
 # @DESCRIPTION:
 # The absolute path to the current Python interpreter.
 #
 # Set and exported only in commands run by python_foreach_impl().
 #
 # Example value:
 # @CODE
 # /usr/bin/python2.6
 # @CODE

 # @ECLASS-VARIABLE: EPYTHON
 # @DESCRIPTION:
 # The executable name of the current Python interpreter.
 #
 # This variable is used consistently with python.eclass.
 #
 # Set and exported only in commands run by python_foreach_impl().
 #
 # Example value:
 # @CODE
 # python2.6
 # @CODE

 # @ECLASS-VARIABLE: PYTHON_SITEDIR
 # @DESCRIPTION:
 # The path to Python site-packages directory.
 #
 # Set and exported on request using python_export().
 #
 # Example value:
 # @CODE
 # /usr/lib64/python2.6/site-packages
 # @CODE

 # @FUNCTION: python_export
 # @USAGE: [<impl>] <variables>...
 # @DESCRIPTION:
 # Set and export the Python implementation-relevant variables passed
 # as parameters.
 #
 # The optional first parameter may specify the requested Python
 # implementation (either as PYTHON_TARGETS value, e.g. python2_7,
 # or an EPYTHON one, e.g. python2.7). If no implementation passed,
 # the current one will be obtained from ${EPYTHON}.
 #
 # The variables which can be exported are: PYTHON, EPYTHON,
 # PYTHON_SITEDIR. They are described more completely in the eclass
 # variable documentation.
 python_export() {
 	debug-print-function ${FUNCNAME} "${@}"

 	local impl var

 	case "${1}" in
 		python*|jython*)
 			impl=${1/_/.}
 			shift
 			;;
 		pypy-c*)
 			impl=${1}
 			shift
 			;;
 		pypy*)
 			local v=${1#pypy}
 			impl=pypy-c${v/_/.}
 			shift
 			;;
 		*)
 			impl=${EPYTHON}
 			[[ ${impl} ]] || die "python_export: no impl nor EPYTHON"
 			;;
 	esac
 	debug-print "${FUNCNAME}: implementation: ${impl}"

 	for var; do
 		case "${var}" in
 			EPYTHON)
 				export EPYTHON=${impl}
 				debug-print "${FUNCNAME}: EPYTHON = ${EPYTHON}"
 				;;
 			PYTHON)
 				export PYTHON=${EPREFIX}/usr/bin/${impl}
 				debug-print "${FUNCNAME}: PYTHON = ${PYTHON}"
 				;;
 			PYTHON_SITEDIR)
 				local dir
 				case "${impl}" in
 					python*)
 						dir=/usr/$(get_libdir)/${impl}
 						;;
 					jython*)
 						dir=/usr/share/${impl}/Lib
 						;;
 					pypy*)
 						dir=/usr/$(get_libdir)/${impl/-c/}
 						;;
 				esac

 				export PYTHON_SITEDIR=${EPREFIX}${dir}/site-packages
 				debug-print "${FUNCNAME}: PYTHON_SITEDIR = ${PYTHON_SITEDIR}"
 				;;
 			*)
 				die "python_export: unknown variable ${var}"
 		esac
 	done
 }

 # @FUNCTION: python_get_PYTHON
 # @USAGE: [<impl>]
 # @DESCRIPTION:
 # Obtain and print the path to the Python interpreter for the given
 # implementation. If no implementation is provided, ${EPYTHON} will
 # be used.
 #
 # If you just need to have PYTHON set (and exported), then it is better
 # to use python_export() directly instead.
 python_get_PYTHON() {
 	debug-print-function ${FUNCNAME} "${@}"

 	python_export "${@}" PYTHON
 	echo "${PYTHON}"
 }

 # @FUNCTION: python_get_EPYTHON
 # @USAGE: <impl>
 # @DESCRIPTION:
 # Obtain and print the EPYTHON value for the given implementation.
 #
 # If you just need to have EPYTHON set (and exported), then it is better
 # to use python_export() directly instead.
 python_get_EPYTHON() {
 	debug-print-function ${FUNCNAME} "${@}"

 	python_export "${@}" EPYTHON
 	echo "${EPYTHON}"
 }

 # @FUNCTION: python_get_sitedir
 # @USAGE: [<impl>]
 # @DESCRIPTION:
 # Obtain and print the 'site-packages' path for the given
 # implementation. If no implementation is provided, ${EPYTHON} will
 # be used.
 #
 # If you just need to have PYTHON_SITEDIR set (and exported), then it is
 # better to use python_export() directly instead.
 python_get_sitedir() {
 	debug-print-function ${FUNCNAME} "${@}"

 	python_export "${@}" PYTHON_SITEDIR
 	echo "${PYTHON_SITEDIR}"
 }

 # @FUNCTION: _python_rewrite_shebang
 # @INTERNAL
 # @USAGE: [<EPYTHON>] <path>...
 # @DESCRIPTION:
 # Replaces 'python' executable in the shebang with the executable name
 # of the specified interpreter. If no EPYTHON value (implementation) is
 # used, the current ${EPYTHON} will be used.
 #
 # All specified files must start with a 'python' shebang. A file not
 # having a matching shebang will be refused. The exact shebang style
 # will be preserved in order not to break anything.
 #
 # Example conversions:
 # @CODE
 # From: #!/usr/bin/python -R
 # To: #!/usr/bin/python2.7 -R
 #
 # From: #!/usr/bin/env FOO=bar python
 # To: #!/usr/bin/env FOO=bar python2.7
 # @CODE
 _python_rewrite_shebang() {
 	debug-print-function ${FUNCNAME} "${@}"

 	local impl
 	case "${1}" in
 		python*|jython*|pypy-c*)
 			impl=${1}
 			shift
 			;;
 		*)
 			impl=${EPYTHON}
 			[[ ${impl} ]] || die "${FUNCNAME}: no impl nor EPYTHON"
 			;;
 	esac
 	debug-print "${FUNCNAME}: implementation: ${impl}"

 	local f
 	for f; do
 		local shebang=$(head -n 1 "${f}")
 		debug-print "${FUNCNAME}: path = ${f}"
 		debug-print "${FUNCNAME}: shebang = ${shebang}"

 		if [[ "${shebang} " != *'python '* ]]; then
 			eerror "A file does not seem to have a supported shebang:"
 			eerror "  file: ${f}"
 			eerror "  shebang: ${shebang}"
 			die "${FUNCNAME}: ${f} does not seem to have a valid shebang"
 		fi

 		sed -i -e "1s:python:${impl}:" "${f}" || die
 	done
 }

 # @FUNCTION: _python_ln_rel
 # @INTERNAL
 # @USAGE: <from> <to>
 # @DESCRIPTION:
 # Create a relative symlink.
 _python_ln_rel() {
 	debug-print-function ${FUNCNAME} "${@}"

 	local from=${1}
 	local to=${2}

 	local frpath=${from%/*}/
 	local topath=${to%/*}/
 	local rel_path=

 	# remove double slashes
 	frpath=${frpath/\/\///}
 	topath=${topath/\/\///}

 	while [[ ${topath} ]]; do
 		local frseg=${frpath%%/*}
 		local toseg=${topath%%/*}

 		if [[ ${frseg} != ${toseg} ]]; then
 			rel_path=../${rel_path}${frseg:+${frseg}/}
 		fi

 		frpath=${frpath#${frseg}/}
 		topath=${topath#${toseg}/}
 	done
 	rel_path+=${frpath}${1##*/}

 	debug-print "${FUNCNAME}: ${from} -> ${to}"
 	debug-print "${FUNCNAME}: rel_path = ${rel_path}"

 	ln -fs "${rel_path}" "${to}"
 }

 # @FUNCTION: python_optimize
 # @USAGE: [<directory>...]
 # @DESCRIPTION:
 # Compile and optimize Python modules in specified directories (absolute
 # paths). If no directories are provided, the default system paths
 # are used (prepended with ${D}).
 python_optimize() {
 	debug-print-function ${FUNCNAME} "${@}"

 	[[ ${EPYTHON} ]] || die 'No Python implementation set (EPYTHON is null).'

 	local PYTHON=${PYTHON}
 	[[ ${PYTHON} ]] || python_export PYTHON

 	# Note: python2.6 can't handle passing files to compileall...

 	# default to sys.path
 	if [[ ${#} -eq 0 ]]; then
 		local f
 		while IFS= read -r -d '' f; do
 			# 1) accept only absolute paths
 			#    (i.e. skip '', '.' or anything like that)
 			# 2) skip paths which do not exist
 			#    (python2.6 complains about them verbosely)

 			if [[ ${f} == /* && -d ${D}${f} ]]; then
 				set -- "${D}${f}" "${@}"
 			fi
 		done < <("${PYTHON}" -c 'import sys; print("\0".join(sys.path))')
 	fi

 	local d
 	for d; do
 		# make sure to get a nice path without //
 		local instpath=${d#${D}}
 		instpath=/${instpath##/}

 		case "${EPYTHON}" in
 			python*)
 				"${PYTHON}" -m compileall -q -f -d "${instpath}" "${d}"
 				"${PYTHON}" -OO -m compileall -q -f -d "${instpath}" "${d}"
 				;;
 			*)
 				"${PYTHON}" -m compileall -q -f -d "${instpath}" "${@}"
 				;;
 		esac
 	done
 }

 # @ECLASS-VARIABLE: python_scriptroot
 # @DEFAULT_UNSET
 # @DESCRIPTION:
 # The current script destination for python_doscript(). The path
 # is relative to the installation root (${ED}).
 #
 # When unset, ${DESTTREE}/bin (/usr/bin by default) will be used.
 #
 # Can be set indirectly through the python_scriptinto() function.
 #
 # Example:
 # @CODE
 # src_install() {
 #   local python_scriptroot=${GAMES_BINDIR}
 #   python_foreach_impl python_doscript foo
 # }
 # @CODE

 # @FUNCTION: python_scriptinto
 # @USAGE: <new-path>
 # @DESCRIPTION:
 # Set the current scriptroot. The new value will be stored
 # in the 'python_scriptroot' environment variable. The new value need
 # be relative to the installation root (${ED}).
 #
 # Alternatively, you can set the variable directly.
 python_scriptinto() {
 	debug-print-function ${FUNCNAME} "${@}"

 	python_scriptroot=${1}
 }

 # @FUNCTION: python_doscript
 # @USAGE: <files>...
 # @DESCRIPTION:
 # Install the given scripts into current python_scriptroot,
 # for the current Python implementation (${EPYTHON}).
 #
 # All specified files must start with a 'python' shebang. The shebang
 # will be converted, the file will be renamed to be EPYTHON-suffixed
 # and a wrapper will be installed in place of the original name.
 #
 # Example:
 # @CODE
 # src_install() {
 #   python_foreach_impl python_doscript ${PN}
 # }
 # @CODE
 python_doscript() {
 	debug-print-function ${FUNCNAME} "${@}"

 	[[ ${EPYTHON} ]] || die 'No Python implementation set (EPYTHON is null).'

 	local d=${python_scriptroot:-${DESTTREE}/bin}
 	local INSDESTTREE INSOPTIONS

 	insinto "${d}"
 	insopts -m755

 	local f
 	for f; do
 		local oldfn=${f##*/}
 		local newfn=${oldfn}-${EPYTHON}

 		debug-print "${FUNCNAME}: ${oldfn} -> ${newfn}"
 		newins "${f}" "${newfn}" || die
 		_python_rewrite_shebang "${D}/${d}/${newfn}"

 		# install the wrapper
 		_python_ln_rel "${ED}"/usr/bin/python-exec "${D}/${d}/${oldfn}" || die
 	done
 }

 # @ECLASS-VARIABLE: python_moduleroot
 # @DEFAULT_UNSET
 # @DESCRIPTION:
 # The current module root for python_domodule(). The path can be either
 # an absolute system path (it must start with a slash, and ${D} will be
 # prepended to it) or relative to the implementation's site-packages directory
 # (then it must start with a non-slash character).
 #
 # When unset, the modules will be installed in the site-packages root.
 #
 # Can be set indirectly through the python_moduleinto() function.
 #
 # Example:
 # @CODE
 # src_install() {
 #   local python_moduleroot=bar
 #   # installs ${PYTHON_SITEDIR}/bar/baz.py
 #   python_foreach_impl python_domodule baz.py
 # }
 # @CODE

 # @FUNCTION: python_moduleinto
 # @USAGE: <new-path>
 # @DESCRIPTION:
 # Set the current module root. The new value will be stored
 # in the 'python_moduleroot' environment variable. The new value need
 # be relative to the site-packages root.
 #
 # Alternatively, you can set the variable directly.
 python_moduleinto() {
 	debug-print-function ${FUNCNAME} "${@}"

 	python_moduleroot=${1}
 }

 # @FUNCTION: python_domodule
 # @USAGE: <files>...
 # @DESCRIPTION:
 # Install the given modules (or packages) into the current
 # python_moduleroot. The list can mention both modules (files)
 # and packages (directories). All listed files will be installed
 # for all enabled implementations, and compiled afterwards.
 #
 # Example:
 # @CODE
 # src_install() {
 #   # (${PN} being a directory)
 #   python_foreach_impl python_domodule ${PN}
 # }
 # @CODE
 python_domodule() {
 	debug-print-function ${FUNCNAME} "${@}"

 	[[ ${EPYTHON} ]] || die 'No Python implementation set (EPYTHON is null).'

 	local d
 	if [[ ${python_moduleroot} == /* ]]; then
 		# absolute path
 		d=${python_moduleroot}
 	else
 		# relative to site-packages
 		local PYTHON_SITEDIR=${PYTHON_SITEDIR}
 		[[ ${PYTHON_SITEDIR} ]] || python_export PYTHON_SITEDIR

 		d=${PYTHON_SITEDIR}/${python_moduleroot}
 	fi

 	local INSDESTTREE

 	insinto "${d}"
 	doins -r "${@}" || die

 	python_optimize "${D}/${d}"
 }

 _PYTHON_UTILS_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-utils-r1.eclass,v 1.5 2012/11/30 11:43:14 mgorny Exp $

	# @ECLASS: python-utils-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: Utility functions for packages with Python parts.
	# @DESCRIPTION:
	# An utility eclass providing functions to query Python implementations,
	# install Python modules and scripts.
	#
	# This eclass does not set any metadata variables nor export any phase
	# functions. It can be inherited safely.
	#
	# For more information, please see the python-r1 Developer's Guide:
	# http://www.gentoo.org/proj/en/Python/python-r1/dev-guide.xml

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

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

	if [[ ! ${_PYTHON_UTILS_R1} ]]; then

	inherit multilib

	# @ECLASS-VARIABLE: _PYTHON_ALL_IMPLS
	# @INTERNAL
	# @DESCRIPTION:
	# All supported Python implementations, most preferred last.
	_PYTHON_ALL_IMPLS=(
	jython2_5
	pypy1_8 pypy1_9
	python3_1 python3_2 python3_3
	python2_5 python2_6 python2_7
	)

	# @ECLASS-VARIABLE: PYTHON
	# @DESCRIPTION:
	# The absolute path to the current Python interpreter.
	#
	# Set and exported only in commands run by python_foreach_impl().
	#
	# Example value:
	# @CODE
	# /usr/bin/python2.6
	# @CODE

	# @ECLASS-VARIABLE: EPYTHON
	# @DESCRIPTION:
	# The executable name of the current Python interpreter.
	#
	# This variable is used consistently with python.eclass.
	#
	# Set and exported only in commands run by python_foreach_impl().
	#
	# Example value:
	# @CODE
	# python2.6
	# @CODE

	# @ECLASS-VARIABLE: PYTHON_SITEDIR
	# @DESCRIPTION:
	# The path to Python site-packages directory.
	#
	# Set and exported on request using python_export().
	#
	# Example value:
	# @CODE
	# /usr/lib64/python2.6/site-packages
	# @CODE

	# @FUNCTION: python_export
	# @USAGE: [<impl>] <variables>...
	# @DESCRIPTION:
	# Set and export the Python implementation-relevant variables passed
	# as parameters.
	#
	# The optional first parameter may specify the requested Python
	# implementation (either as PYTHON_TARGETS value, e.g. python2_7,
	# or an EPYTHON one, e.g. python2.7). If no implementation passed,
	# the current one will be obtained from ${EPYTHON}.
	#
	# The variables which can be exported are: PYTHON, EPYTHON,
	# PYTHON_SITEDIR. They are described more completely in the eclass
	# variable documentation.
	python_export() {
	debug-print-function ${FUNCNAME} "${@}"

	local impl var

	case "${1}" in
	python\|jython)
	impl=${1/_/.}
	shift
	;;
	pypy-c*)
	impl=${1}
	shift
	;;
	pypy*)
	local v=${1#pypy}
	impl=pypy-c${v/_/.}
	shift
	;;
	*)
	impl=${EPYTHON}
	[[ ${impl} ]] \|\| die "python_export: no impl nor EPYTHON"
	;;
	esac
	debug-print "${FUNCNAME}: implementation: ${impl}"

	for var; do
	case "${var}" in
	EPYTHON)
	export EPYTHON=${impl}
	debug-print "${FUNCNAME}: EPYTHON = ${EPYTHON}"
	;;
	PYTHON)
	export PYTHON=${EPREFIX}/usr/bin/${impl}
	debug-print "${FUNCNAME}: PYTHON = ${PYTHON}"
	;;
	PYTHON_SITEDIR)
	local dir
	case "${impl}" in
	python*)
	dir=/usr/$(get_libdir)/${impl}
	;;
	jython*)
	dir=/usr/share/${impl}/Lib
	;;
	pypy*)
	dir=/usr/$(get_libdir)/${impl/-c/}
	;;
	esac

	export PYTHON_SITEDIR=${EPREFIX}${dir}/site-packages
	debug-print "${FUNCNAME}: PYTHON_SITEDIR = ${PYTHON_SITEDIR}"
	;;
	*)
	die "python_export: unknown variable ${var}"
	esac
	done
	}

	# @FUNCTION: python_get_PYTHON
	# @USAGE: [<impl>]
	# @DESCRIPTION:
	# Obtain and print the path to the Python interpreter for the given
	# implementation. If no implementation is provided, ${EPYTHON} will
	# be used.
	#
	# If you just need to have PYTHON set (and exported), then it is better
	# to use python_export() directly instead.
	python_get_PYTHON() {
	debug-print-function ${FUNCNAME} "${@}"

	python_export "${@}" PYTHON
	echo "${PYTHON}"
	}

	# @FUNCTION: python_get_EPYTHON
	# @USAGE: <impl>
	# @DESCRIPTION:
	# Obtain and print the EPYTHON value for the given implementation.
	#
	# If you just need to have EPYTHON set (and exported), then it is better
	# to use python_export() directly instead.
	python_get_EPYTHON() {
	debug-print-function ${FUNCNAME} "${@}"

	python_export "${@}" EPYTHON
	echo "${EPYTHON}"
	}

	# @FUNCTION: python_get_sitedir
	# @USAGE: [<impl>]
	# @DESCRIPTION:
	# Obtain and print the 'site-packages' path for the given
	# implementation. If no implementation is provided, ${EPYTHON} will
	# be used.
	#
	# If you just need to have PYTHON_SITEDIR set (and exported), then it is
	# better to use python_export() directly instead.
	python_get_sitedir() {
	debug-print-function ${FUNCNAME} "${@}"

	python_export "${@}" PYTHON_SITEDIR
	echo "${PYTHON_SITEDIR}"
	}

	# @FUNCTION: _python_rewrite_shebang
	# @INTERNAL
	# @USAGE: [<EPYTHON>] <path>...
	# @DESCRIPTION:
	# Replaces 'python' executable in the shebang with the executable name
	# of the specified interpreter. If no EPYTHON value (implementation) is
	# used, the current ${EPYTHON} will be used.
	#
	# All specified files must start with a 'python' shebang. A file not
	# having a matching shebang will be refused. The exact shebang style
	# will be preserved in order not to break anything.
	#
	# Example conversions:
	# @CODE
	# From: #!/usr/bin/python -R
	# To: #!/usr/bin/python2.7 -R
	#
	# From: #!/usr/bin/env FOO=bar python
	# To: #!/usr/bin/env FOO=bar python2.7
	# @CODE
	_python_rewrite_shebang() {
	debug-print-function ${FUNCNAME} "${@}"

	local impl
	case "${1}" in
	python\|jython\|pypy-c*)
	impl=${1}
	shift
	;;
	*)
	impl=${EPYTHON}
	[[ ${impl} ]] \|\| die "${FUNCNAME}: no impl nor EPYTHON"
	;;
	esac
	debug-print "${FUNCNAME}: implementation: ${impl}"

	local f
	for f; do
	local shebang=$(head -n 1 "${f}")
	debug-print "${FUNCNAME}: path = ${f}"
	debug-print "${FUNCNAME}: shebang = ${shebang}"

	if [[ "${shebang} " != 'python ' ]]; then
	eerror "A file does not seem to have a supported shebang:"
	eerror " file: ${f}"
	eerror " shebang: ${shebang}"
	die "${FUNCNAME}: ${f} does not seem to have a valid shebang"
	fi

	sed -i -e "1s:python:${impl}:" "${f}" \|\| die
	done
	}

	# @FUNCTION: _python_ln_rel
	# @INTERNAL
	# @USAGE: <from> <to>
	# @DESCRIPTION:
	# Create a relative symlink.
	_python_ln_rel() {
	debug-print-function ${FUNCNAME} "${@}"

	local from=${1}
	local to=${2}

	local frpath=${from%/*}/
	local topath=${to%/*}/
	local rel_path=

	# remove double slashes
	frpath=${frpath/\/\///}
	topath=${topath/\/\///}

	while [[ ${topath} ]]; do
	local frseg=${frpath%%/*}
	local toseg=${topath%%/*}

	if [[ ${frseg} != ${toseg} ]]; then
	rel_path=../${rel_path}${frseg:+${frseg}/}
	fi

	frpath=${frpath#${frseg}/}
	topath=${topath#${toseg}/}
	done
	rel_path+=${frpath}${1##*/}

	debug-print "${FUNCNAME}: ${from} -> ${to}"
	debug-print "${FUNCNAME}: rel_path = ${rel_path}"

	ln -fs "${rel_path}" "${to}"
	}

	# @FUNCTION: python_optimize
	# @USAGE: [<directory>...]
	# @DESCRIPTION:
	# Compile and optimize Python modules in specified directories (absolute
	# paths). If no directories are provided, the default system paths
	# are used (prepended with ${D}).
	python_optimize() {
	debug-print-function ${FUNCNAME} "${@}"

	[[ ${EPYTHON} ]] \|\| die 'No Python implementation set (EPYTHON is null).'

	local PYTHON=${PYTHON}
	[[ ${PYTHON} ]] \|\| python_export PYTHON

	# Note: python2.6 can't handle passing files to compileall...

	# default to sys.path
	if [[ ${#} -eq 0 ]]; then
	local f
	while IFS= read -r -d '' f; do
	# 1) accept only absolute paths
	# (i.e. skip '', '.' or anything like that)
	# 2) skip paths which do not exist
	# (python2.6 complains about them verbosely)

	if [[ ${f} == /* && -d ${D}${f} ]]; then
	set -- "${D}${f}" "${@}"
	fi
	done < <("${PYTHON}" -c 'import sys; print("\0".join(sys.path))')
	fi

	local d
	for d; do
	# make sure to get a nice path without //
	local instpath=${d#${D}}
	instpath=/${instpath##/}

	case "${EPYTHON}" in
	python*)
	"${PYTHON}" -m compileall -q -f -d "${instpath}" "${d}"
	"${PYTHON}" -OO -m compileall -q -f -d "${instpath}" "${d}"
	;;
	*)
	"${PYTHON}" -m compileall -q -f -d "${instpath}" "${@}"
	;;
	esac
	done
	}

	# @ECLASS-VARIABLE: python_scriptroot
	# @DEFAULT_UNSET
	# @DESCRIPTION:
	# The current script destination for python_doscript(). The path
	# is relative to the installation root (${ED}).
	#
	# When unset, ${DESTTREE}/bin (/usr/bin by default) will be used.
	#
	# Can be set indirectly through the python_scriptinto() function.
	#
	# Example:
	# @CODE
	# src_install() {
	# local python_scriptroot=${GAMES_BINDIR}
	# python_foreach_impl python_doscript foo
	# }
	# @CODE

	# @FUNCTION: python_scriptinto
	# @USAGE: <new-path>
	# @DESCRIPTION:
	# Set the current scriptroot. The new value will be stored
	# in the 'python_scriptroot' environment variable. The new value need
	# be relative to the installation root (${ED}).
	#
	# Alternatively, you can set the variable directly.
	python_scriptinto() {
	debug-print-function ${FUNCNAME} "${@}"

	python_scriptroot=${1}
	}

	# @FUNCTION: python_doscript
	# @USAGE: <files>...
	# @DESCRIPTION:
	# Install the given scripts into current python_scriptroot,
	# for the current Python implementation (${EPYTHON}).
	#
	# All specified files must start with a 'python' shebang. The shebang
	# will be converted, the file will be renamed to be EPYTHON-suffixed
	# and a wrapper will be installed in place of the original name.
	#
	# Example:
	# @CODE
	# src_install() {
	# python_foreach_impl python_doscript ${PN}
	# }
	# @CODE
	python_doscript() {
	debug-print-function ${FUNCNAME} "${@}"

	[[ ${EPYTHON} ]] \|\| die 'No Python implementation set (EPYTHON is null).'

	local d=${python_scriptroot:-${DESTTREE}/bin}
	local INSDESTTREE INSOPTIONS

	insinto "${d}"
	insopts -m755

	local f
	for f; do
	local oldfn=${f##*/}
	local newfn=${oldfn}-${EPYTHON}

	debug-print "${FUNCNAME}: ${oldfn} -> ${newfn}"
	newins "${f}" "${newfn}" \|\| die
	_python_rewrite_shebang "${D}/${d}/${newfn}"

	# install the wrapper
	_python_ln_rel "${ED}"/usr/bin/python-exec "${D}/${d}/${oldfn}" \|\| die
	done
	}

	# @ECLASS-VARIABLE: python_moduleroot
	# @DEFAULT_UNSET
	# @DESCRIPTION:
	# The current module root for python_domodule(). The path can be either
	# an absolute system path (it must start with a slash, and ${D} will be
	# prepended to it) or relative to the implementation's site-packages directory
	# (then it must start with a non-slash character).
	#
	# When unset, the modules will be installed in the site-packages root.
	#
	# Can be set indirectly through the python_moduleinto() function.
	#
	# Example:
	# @CODE
	# src_install() {
	# local python_moduleroot=bar
	# # installs ${PYTHON_SITEDIR}/bar/baz.py
	# python_foreach_impl python_domodule baz.py
	# }
	# @CODE

	# @FUNCTION: python_moduleinto
	# @USAGE: <new-path>
	# @DESCRIPTION:
	# Set the current module root. The new value will be stored
	# in the 'python_moduleroot' environment variable. The new value need
	# be relative to the site-packages root.
	#
	# Alternatively, you can set the variable directly.
	python_moduleinto() {
	debug-print-function ${FUNCNAME} "${@}"

	python_moduleroot=${1}
	}

	# @FUNCTION: python_domodule
	# @USAGE: <files>...
	# @DESCRIPTION:
	# Install the given modules (or packages) into the current
	# python_moduleroot. The list can mention both modules (files)
	# and packages (directories). All listed files will be installed
	# for all enabled implementations, and compiled afterwards.
	#
	# Example:
	# @CODE
	# src_install() {
	# # (${PN} being a directory)
	# python_foreach_impl python_domodule ${PN}
	# }
	# @CODE
	python_domodule() {
	debug-print-function ${FUNCNAME} "${@}"

	[[ ${EPYTHON} ]] \|\| die 'No Python implementation set (EPYTHON is null).'

	local d
	if [[ ${python_moduleroot} == /* ]]; then
	# absolute path
	d=${python_moduleroot}
	else
	# relative to site-packages
	local PYTHON_SITEDIR=${PYTHON_SITEDIR}
	[[ ${PYTHON_SITEDIR} ]] \|\| python_export PYTHON_SITEDIR

	d=${PYTHON_SITEDIR}/${python_moduleroot}
	fi

	local INSDESTTREE

	insinto "${d}"
	doins -r "${@}" \|\| die

	python_optimize "${D}/${d}"
	}

	_PYTHON_UTILS_R1=1
	fi