# Copyright 1999-2009 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/python.eclass,v 1.70 2009/09/05 17:30:08 arfrever Exp $ # @ECLASS: python.eclass # @MAINTAINER: # python@gentoo.org # # original author: Alastair Tse # @BLURB: A Utility Eclass that should be inherited by anything that deals with Python or Python modules. # @DESCRIPTION: # Some useful functions for dealing with Python. inherit multilib if [[ -n "${NEED_PYTHON}" ]] ; then PYTHON_ATOM=">=dev-lang/python-${NEED_PYTHON}" DEPEND="${PYTHON_ATOM}" RDEPEND="${DEPEND}" else PYTHON_ATOM="dev-lang/python" fi DEPEND="${DEPEND} >=app-shells/bash-3.2" if ! has "${EAPI:-0}" 0 1 2 || [[ -n "${SUPPORT_PYTHON_ABIS}" ]]; then DEPEND="${DEPEND} >=app-admin/eselect-python-20090804" fi __python_eclass_test() { __python_version_extract 2.3 echo -n "2.3 -> PYVER: $PYVER PYVER_MAJOR: $PYVER_MAJOR" echo " PYVER_MINOR: $PYVER_MINOR PYVER_MICRO: $PYVER_MICRO" __python_version_extract 2.3.4 echo -n "2.3.4 -> PYVER: $PYVER PYVER_MAJOR: $PYVER_MAJOR" echo " PYVER_MINOR: $PYVER_MINOR PYVER_MICRO: $PYVER_MICRO" __python_version_extract 2.3.5 echo -n "2.3.5 -> PYVER: $PYVER PYVER_MAJOR: $PYVER_MAJOR" echo " PYVER_MINOR: $PYVER_MINOR PYVER_MICRO: $PYVER_MICRO" __python_version_extract 2.4 echo -n "2.4 -> PYVER: $PYVER PYVER_MAJOR: $PYVER_MAJOR" echo " PYVER_MINOR: $PYVER_MINOR PYVER_MICRO: $PYVER_MICRO" __python_version_extract 2.5b3 echo -n "2.5b3 -> PYVER: $PYVER PYVER_MAJOR: $PYVER_MAJOR" echo " PYVER_MINOR: $PYVER_MINOR PYVER_MICRO: $PYVER_MICRO" } # @FUNCTION: python_version # @DESCRIPTION: # Run without arguments and it will export the version of python # currently in use as $PYVER; sets PYVER/PYVER_MAJOR/PYVER_MINOR __python_version_extract() { local verstr=$1 export PYVER_MAJOR=${verstr:0:1} export PYVER_MINOR=${verstr:2:1} if [[ ${verstr:3:1} == . ]]; then export PYVER_MICRO=${verstr:4} fi export PYVER="${PYVER_MAJOR}.${PYVER_MINOR}" } python_version() { [[ -n "${PYVER}" ]] && return 0 local tmpstr python=${python:-/usr/bin/python} tmpstr="$(${python} -V 2>&1 )" export PYVER_ALL="${tmpstr#Python }" __python_version_extract $PYVER_ALL } # @FUNCTION: PYTHON # @USAGE: [-a|--absolute-path] # @DESCRIPTION: # Get Python interpreter filename for specified Python ABI. If Python_ABI argument # is ommitted, then PYTHON_ABI environment variable must be set and is used. PYTHON() { local absolute_path="0" slot= while (($#)); do case "$1" in -a|--absolute-path) absolute_path="1" ;; -*) die "${FUNCNAME}(): Unrecognized option $1" ;; *) break ;; esac shift done if [[ "$#" -eq "0" ]]; then if [[ -n "${PYTHON_ABI}" ]]; then slot="${PYTHON_ABI}" else die "${FUNCNAME}(): Invalid usage" fi elif [[ "$#" -eq "1" ]]; then slot="$1" else die "${FUNCNAME}(): Invalid usage" fi if [[ "${absolute_path}" == "1" ]]; then echo -n "/usr/bin/python${slot}" else echo -n "python${slot}" fi } # @FUNCTION: validate_PYTHON_ABIS # @DESCRIPTION: # Make sure PYTHON_ABIS variable has valid value. validate_PYTHON_ABIS() { # Ensure that some functions cannot be accidentally successfully used in EAPI <= 2 without setting SUPPORT_PYTHON_ABIS variable. if has "${EAPI:-0}" 0 1 2 && [[ -z "${SUPPORT_PYTHON_ABIS}" ]]; then die "${FUNCNAME}() cannot be used in this EAPI without setting SUPPORT_PYTHON_ABIS variable" fi # Ensure that /usr/bin/python and /usr/bin/python-config are valid. if [[ "$(readlink /usr/bin/python)" != "python-wrapper" ]]; then die "'/usr/bin/python' isn't valid symlink" fi if [[ "$(= 4. if [[ "$(declare -p PYTHON_ABIS 2> /dev/null)" != "declare -x PYTHON_ABIS="* ]] && has "${EAPI:-0}" 0 1 2 3; then local ABI support_ABI supported_PYTHON_ABIS= restricted_ABI PYTHON_ABI_SUPPORTED_VALUES="2.4 2.5 2.6 2.7 3.0 3.1 3.2" if [[ "$(declare -p USE_PYTHON 2> /dev/null)" == "declare -x USE_PYTHON="* ]]; then if [[ -z "${USE_PYTHON}" ]]; then die "USE_PYTHON variable is empty" fi for ABI in ${USE_PYTHON}; do if ! has "${ABI}" ${PYTHON_ABI_SUPPORTED_VALUES}; then die "USE_PYTHON variable contains invalid value '${ABI}'" fi support_ABI="1" for restricted_ABI in ${RESTRICT_PYTHON_ABIS}; do if python -c "from fnmatch import fnmatch; exit(not fnmatch('${ABI}', '${restricted_ABI}'))"; then support_ABI="0" break fi done [[ "${support_ABI}" == "1" ]] && supported_PYTHON_ABIS+=" ${ABI}" done export PYTHON_ABIS="${supported_PYTHON_ABIS# }" if [[ -z "${PYTHON_ABIS//[${IFS}]/}" ]]; then die "USE_PYTHON variable doesn't enable any Python version supported by ${CATEGORY}/${PF}" fi else local restricted_ABI python_version for restricted_ABI in ${RESTRICT_PYTHON_ABIS}; do if python -c "from fnmatch import fnmatch; exit(not fnmatch('${PYVER}', '${restricted_ABI}'))"; then die "Active Python version isn't supported by ${CATEGORY}/${PF}" fi done export PYTHON_ABIS="${PYVER}" fi fi # Ensure that EPYTHON variable is respected. local PYTHON_ABI for PYTHON_ABI in ${PYTHON_ABIS}; do if [[ "$(EPYTHON="$(PYTHON)" python -c 'from sys import version_info; print(".".join([str(x) for x in version_info[:2]]))')" != "${PYTHON_ABI}" ]]; then die "'python' doesn't respect EPYTHON variable" fi done } # @FUNCTION: python_copy_sources # @USAGE: [directory] # @DESCRIPTION: # Copy unpacked sources of given package for each Python ABI. python_copy_sources() { local dir dirs=() PYTHON_ABI if [[ "$#" -eq "0" ]]; then if [[ "${WORKDIR}" == "${S}" ]]; then die "${FUNCNAME}() cannot be used" fi dirs="${S}" else dirs="$@" fi validate_PYTHON_ABIS for PYTHON_ABI in ${PYTHON_ABIS}; do for dir in "${dirs[@]}"; do cp -lpr "${dir}" "${dir}-${PYTHON_ABI}" > /dev/null || die "Copying of sources failed" done done } # @FUNCTION: python_set_build_dir_symlink # @USAGE: [directory="build"] # @DESCRIPTION: # Create build directory symlink. python_set_build_dir_symlink() { local dir="$1" [[ -z "${PYTHON_ABI}" ]] && die "PYTHON_ABI variable not set" [[ -z "${dir}" ]] && dir="build" # Don't delete preexistent directories. rm -f "${dir}" || die "Deletion of '${dir}' failed" ln -s "${dir}-${PYTHON_ABI}" "${dir}" || die "Creation of '${dir}' directory symlink failed" } # @FUNCTION: python_execute_function # @USAGE: [--action-message message] [-d|--default-function] [--failure-message message] [--nonfatal] [-q|--quiet] [-s|--separate-build-dirs] [arguments] # @DESCRIPTION: # Execute specified function for each value of PYTHON_ABIS, optionally passing additional # arguments. The specified function can use PYTHON_ABI and BUILDDIR variables. python_execute_function() { local action action_message action_message_template= default_function="0" failure_message failure_message_template= function nonfatal="0" PYTHON_ABI quiet="0" separate_build_dirs="0" while (($#)); do case "$1" in --action-message) action_message_template="$2" shift ;; -d|--default-function) default_function="1" ;; --failure-message) failure_message_template="$2" shift ;; --nonfatal) nonfatal="1" ;; -q|--quiet) quiet="1" ;; -s|--separate-build-dirs) separate_build_dirs="1" ;; -*) die "${FUNCNAME}(): Unrecognized option '$1'" ;; *) break ;; esac shift done if [[ "${default_function}" == "0" ]]; then if [[ "$#" -eq "0" ]]; then die "${FUNCNAME}(): Missing function name" fi function="$1" shift if [[ -z "$(type -t "${function}")" ]]; then die "${FUNCNAME}(): '${function}' function isn't defined" fi else if [[ "$#" -ne "0" ]]; then die "${FUNCNAME}(): '--default-function' option and function name cannot be specified simultaneously" fi if has "${EAPI:-0}" 0 1; then die "${FUNCNAME}(): '--default-function' option cannot be used in this EAPI" fi if [[ "${EBUILD_PHASE}" == "configure" ]]; then if has "${EAPI}" 2; then python_default_function() { econf } else python_default_function() { nonfatal econf } fi elif [[ "${EBUILD_PHASE}" == "compile" ]]; then python_default_function() { emake } elif [[ "${EBUILD_PHASE}" == "test" ]]; then python_default_function() { if emake -j1 -n check &> /dev/null; then emake -j1 check elif emake -j1 -n test &> /dev/null; then emake -j1 test fi } elif [[ "${EBUILD_PHASE}" == "install" ]]; then python_default_function() { emake DESTDIR="${D}" install } else die "${FUNCNAME}(): --default-function option cannot be used in this ebuild phase" fi function="python_default_function" fi if [[ "${quiet}" == "0" ]]; then [[ "${EBUILD_PHASE}" == "setup" ]] && action="Setting up" [[ "${EBUILD_PHASE}" == "unpack" ]] && action="Unpacking" [[ "${EBUILD_PHASE}" == "prepare" ]] && action="Preparation" [[ "${EBUILD_PHASE}" == "configure" ]] && action="Configuration" [[ "${EBUILD_PHASE}" == "compile" ]] && action="Building" [[ "${EBUILD_PHASE}" == "test" ]] && action="Testing" [[ "${EBUILD_PHASE}" == "install" ]] && action="Installation" [[ "${EBUILD_PHASE}" == "preinst" ]] && action="Preinstallation" [[ "${EBUILD_PHASE}" == "postinst" ]] && action="Postinstallation" [[ "${EBUILD_PHASE}" == "prerm" ]] && action="Preuninstallation" [[ "${EBUILD_PHASE}" == "postrm" ]] && action="Postuninstallation" fi local RED GREEN BLUE NORMAL if [[ "${NOCOLOR:-false}" =~ ^(false|no)$ ]]; then RED=$'\e[1;31m' GREEN=$'\e[1;32m' BLUE=$'\e[1;34m' NORMAL=$'\e[0m' else RED= GREEN= BLUE= NORMAL= fi validate_PYTHON_ABIS for PYTHON_ABI in ${PYTHON_ABIS}; do if [[ "${quiet}" == "0" ]]; then if [[ -n "${action_message_template}" ]]; then action_message="$(eval echo -n "${action_message_template}")" else action_message="${action} of ${CATEGORY}/${PF} with Python ${PYTHON_ABI}..." fi echo " ${GREEN}*${NORMAL} ${BLUE}${action_message}${NORMAL}" fi if [[ "${separate_build_dirs}" == "1" ]]; then export BUILDDIR="${S}-${PYTHON_ABI}" pushd "${BUILDDIR}" > /dev/null || die "pushd failed" else export BUILDDIR="${S}" fi if ! has "${EAPI}" 0 1 2 && has "${PYTHON_ABI}" ${FAILURE_TOLERANT_PYTHON_ABIS}; then EPYTHON="$(PYTHON)" nonfatal "${function}" "$@" else EPYTHON="$(PYTHON)" "${function}" "$@" fi if [[ "$?" != "0" ]]; then if [[ -n "${failure_message_template}" ]]; then failure_message="$(eval echo -n "${failure_message_template}")" else failure_message="${action} failed with Python ${PYTHON_ABI} in ${function}() function" fi if [[ "${nonfatal}" == "1" ]]; then if [[ "${quiet}" == "0" ]]; then ewarn "${RED}${failure_message}${NORMAL}" fi elif has "${PYTHON_ABI}" ${FAILURE_TOLERANT_PYTHON_ABIS}; then if [[ "${EBUILD_PHASE}" != "test" ]] || ! has test-fail-continue ${FEATURES}; then local ABI enabled_PYTHON_ABIS= for ABI in ${PYTHON_ABIS}; do [[ "${ABI}" != "${PYTHON_ABI}" ]] && enabled_PYTHON_ABIS+=" ${ABI}" done export PYTHON_ABIS="${enabled_PYTHON_ABIS# }" fi if [[ "${quiet}" == "0" ]]; then ewarn "${RED}${failure_message}${NORMAL}" fi if [[ -z "${PYTHON_ABIS}" ]]; then die "${function}() function failed with all enabled versions of Python" fi else die "${failure_message}" fi fi if [[ "${separate_build_dirs}" == "1" ]]; then popd > /dev/null || die "popd failed" fi unset BUILDDIR done if [[ "${default_function}" == "1" ]]; then unset -f python_default_function fi } # @ECLASS-VARIABLE: PYTHON_USE_WITH # @DESCRIPTION: # Set this to a space separated list of use flags # the python slot in use must be built with. # @ECLASS-VARIABLE: PYTHON_USE_WITH_OR # @DESCRIPTION: # Set this to a space separated list of use flags # of which one must be turned on for the slot of # in use. # @ECLASS-VARIABLE: PYTHON_USE_WITH_OPT # @DESCRIPTION: # Set this if you need to make either PYTHON_USE_WITH or # PYTHON_USE_WITH_OR atoms conditional under a use flag. # @FUNCTION: python_pkg_setup # @DESCRIPTION: # Makes sure PYTHON_USE_WITH or PYTHON_USE_WITH_OR listed use flags # are respected. Only exported if one of those variables is set. if ! has "${EAPI:-0}" 0 1 && [[ -n ${PYTHON_USE_WITH} || -n ${PYTHON_USE_WITH_OR} ]]; then python_pkg_setup_fail() { eerror "${1}" die "${1}" } python_pkg_setup() { [[ ${PYTHON_USE_WITH_OPT} ]] && use !${PYTHON_USE_WITH_OPT} && return python_version local failed local pyatom="dev-lang/python:${PYVER}" for use in ${PYTHON_USE_WITH}; do if ! has_version "${pyatom}[${use}]"; then python_pkg_setup_fail \ "Please rebuild ${pyatom} with use flags: ${PYTHON_USE_WITH}" fi done for use in ${PYTHON_USE_WITH_OR}; do if has_version "${pyatom}[${use}]"; then return fi done if [[ ${PYTHON_USE_WITH_OR} ]]; then python_pkg_setup_fail \ "Please rebuild ${pyatom} with one of: ${PYTHON_USE_WITH_OR}" fi } EXPORT_FUNCTIONS pkg_setup if [[ ${PYTHON_USE_WITH} ]]; then PYTHON_USE_WITH_ATOM="${PYTHON_ATOM}[${PYTHON_USE_WITH/ /,}]" elif [[ ${PYTHON_USE_WITH_OR} ]]; then PYTHON_USE_WITH_ATOM="|| ( " for use in ${PYTHON_USE_WITH_OR}; do PYTHON_USE_WITH_ATOM=" ${PYTHON_USE_WITH_ATOM} ${PYTHON_ATOM}[${use}]" done PYTHON_USE_WITH_ATOM="${PYTHON_USE_WITH_ATOM} )" fi if [[ ${PYTHON_USE_WITH_OPT} ]]; then PYTHON_USE_WITH_ATOM="${PYTHON_USE_WITH_OPT}? ( ${PYTHON_USE_WITH_ATOM} )" fi DEPEND="${PYTHON_USE_WITH_ATOM}" RDEPEND="${PYTHON_USE_WITH_ATOM}" fi # @ECLASS-VARIABLE: PYTHON_DEFINE_DEFAULT_FUNCTIONS # @DESCRIPTION: # Set this to define default functions for the following ebuild phases: # src_prepare, src_configure, src_compile, src_test, src_install. if ! has "${EAPI:-0}" 0 1 && [[ -n "${PYTHON_DEFINE_DEFAULT_FUNCTIONS}" ]]; then python_src_prepare() { python_copy_sources } for python_default_function in src_configure src_compile src_test src_install; do eval "python_${python_default_function}() { python_execute_function -d -s; }" done unset python_default_function EXPORT_FUNCTIONS src_prepare src_configure src_compile src_test src_install fi # @FUNCTION: python_disable_pyc # @DESCRIPTION: # Tell Python not to automatically recompile modules to .pyc/.pyo # even if the timestamps/version stamps don't match. This is done # to protect sandbox. python_disable_pyc() { export PYTHONDONTWRITEBYTECODE="1" } # @FUNCTION: python_enable_pyc # @DESCRIPTION: # Tell Python to automatically recompile modules to .pyc/.pyo if the # timestamps/version stamps have changed. python_enable_pyc() { unset PYTHONDONTWRITEBYTECODE } python_disable_pyc # @FUNCTION: python_need_rebuild # @DESCRIPTION: Run without arguments, specifies that the package should be # rebuilt after a python upgrade. python_need_rebuild() { python_version export PYTHON_NEED_REBUILD=${PYVER} } # @FUNCTION: python_get_includedir # @DESCRIPTION: # Run without arguments, returns the Python include directory. python_get_includedir() { if [[ -n "${PYTHON_ABI}" ]]; then echo "/usr/include/python${PYTHON_ABI}" else python_version echo "/usr/include/python${PYVER}" fi } # @FUNCTION: python_get_libdir # @DESCRIPTION: # Run without arguments, returns the Python library directory. python_get_libdir() { if [[ -n "${PYTHON_ABI}" ]]; then echo "/usr/$(get_libdir)/python${PYTHON_ABI}" else python_version echo "/usr/$(get_libdir)/python${PYVER}" fi } # @FUNCTION: python_get_sitedir # @DESCRIPTION: # Run without arguments, returns the Python site-packages directory. python_get_sitedir() { echo "$(python_get_libdir)/site-packages" } # @FUNCTION: python_tkinter_exists # @DESCRIPTION: # Run without arguments, checks if python was compiled with Tkinter # support. If not, prints an error message and dies. python_tkinter_exists() { if ! python -c "import Tkinter" >/dev/null 2>&1; then eerror "You need to recompile python with Tkinter support." eerror "Try adding: 'dev-lang/python tk'" eerror "in to /etc/portage/package.use" echo die "missing tkinter support with installed python" fi } # @FUNCTION: python_mod_exists # @USAGE: # @DESCRIPTION: # Run with the module name as an argument. it will check if a # python module is installed and loadable. it will return # TRUE(0) if the module exists, and FALSE(1) if the module does # not exist. # # Example: # if python_mod_exists gtk; then # echo "gtk support enabled" # fi python_mod_exists() { [[ "$1" ]] || die "${FUNCNAME} requires an argument!" python -c "import $1" &>/dev/null } # @FUNCTION: python_mod_compile # @USAGE: [more files ...] # @DESCRIPTION: # Given filenames, it will pre-compile the module's .pyc and .pyo. # This function should only be run in pkg_postinst() # # Example: # python_mod_compile /usr/lib/python2.3/site-packages/pygoogle.py # python_mod_compile() { if ! has "${EAPI:-0}" 0 1 2 || [[ -n "${SUPPORT_PYTHON_ABIS}" ]]; then die "${FUNCNAME}() cannot be used in this EAPI" fi local f myroot myfiles=() # Check if phase is pkg_postinst() [[ ${EBUILD_PHASE} != postinst ]] &&\ die "${FUNCNAME} should only be run in pkg_postinst()" # allow compiling for older python versions if [[ "${PYTHON_OVERRIDE_PYVER}" ]]; then PYVER=${PYTHON_OVERRIDE_PYVER} else python_version fi # strip trailing slash myroot="${ROOT%/}" # respect ROOT for f in "$@"; do [[ -f "${myroot}/${f}" ]] && myfiles+=("${myroot}/${f}") done if ((${#myfiles[@]})); then python${PYVER} ${myroot}/usr/$(get_libdir)/python${PYVER}/py_compile.py "${myfiles[@]}" python${PYVER} -O ${myroot}/usr/$(get_libdir)/python${PYVER}/py_compile.py "${myfiles[@]}" &> /dev/null else ewarn "No files to compile!" fi } # @FUNCTION: python_mod_optimize # @USAGE: [options] [directory|file] # @DESCRIPTION: # If no arguments supplied, it will recompile not recursively all modules # under sys.path (eg. /usr/lib/python2.6, /usr/lib/python2.6/site-packages). # # If supplied with arguments, it will recompile all modules recursively # in the supplied directory. # This function should only be run in pkg_postinst(). # # Options passed to this function are passed to compileall.py. # # Example: # python_mod_optimize ctypesgencore python_mod_optimize() { # Check if phase is pkg_postinst(). [[ ${EBUILD_PHASE} != "postinst" ]] && die "${FUNCNAME} should only be run in pkg_postinst()" if ! has "${EAPI:-0}" 0 1 2 || [[ -n "${SUPPORT_PYTHON_ABIS}" ]]; then local dir file options=() other_dirs=() other_files=() PYTHON_ABI return_code root site_packages_absolute_dirs=() site_packages_dirs=() site_packages_absolute_files=() site_packages_files=() # Strip trailing slash from ROOT. root="${ROOT%/}" # Respect ROOT and options passed to compileall.py. while (($#)); do case "$1" in -l|-f|-q) options+=("$1") ;; -d|-x) options+=("$1" "$2") shift ;; -*) ewarn "${FUNCNAME}: Ignoring compile option $1" ;; *) if [[ "$1" =~ ^/usr/lib(32|64)?/python[[:digit:]]+\.[[:digit:]]+ ]]; then die "${FUNCNAME} doesn't support absolute paths of directories/files in site-packages directories" elif [[ "$1" =~ ^/ ]]; then if [[ -d "${root}/$1" ]]; then other_dirs+=("${root}/$1") elif [[ -f "${root}/$1" ]]; then other_files+=("${root}/$1") elif [[ -e "${root}/$1" ]]; then ewarn "'${root}/$1' is not a file or a directory!" else ewarn "'${root}/$1' doesn't exist!" fi else for PYTHON_ABI in ${PYTHON_ABIS}; do if [[ -d "${root}$(python_get_sitedir)/$1" ]]; then site_packages_dirs+=("$1") break elif [[ -f "${root}$(python_get_sitedir)/$1" ]]; then site_packages_files+=("$1") break elif [[ -e "${root}$(python_get_sitedir)/$1" ]]; then ewarn "'$1' is not a file or a directory!" else ewarn "'$1' doesn't exist!" fi done fi ;; esac shift done # Set additional options. options+=("-q") for PYTHON_ABI in ${PYTHON_ABIS}; do if ((${#site_packages_dirs[@]})) || ((${#site_packages_files[@]})); then return_code="0" ebegin "Compilation and optimization of Python modules for Python ${PYTHON_ABI}" if ((${#site_packages_dirs[@]})); then for dir in "${site_packages_dirs[@]}"; do site_packages_absolute_dirs+=("${root}$(python_get_sitedir)/${dir}") done "$(PYTHON)" "${root}$(python_get_libdir)/compileall.py" "${options[@]}" "${site_packages_absolute_dirs[@]}" || return_code="1" "$(PYTHON)" -O "${root}$(python_get_libdir)/compileall.py" "${options[@]}" "${site_packages_absolute_dirs[@]}" &> /dev/null || return_code="1" fi if ((${#site_packages_files[@]})); then for file in "${site_packages_files[@]}"; do site_packages_absolute_files+=("${root}$(python_get_sitedir)/${file}") done "$(PYTHON)" "${root}$(python_get_libdir)/py_compile.py" "${site_packages_absolute_files[@]}" || return_code="1" "$(PYTHON)" -O "${root}$(python_get_libdir)/py_compile.py" "${site_packages_absolute_files[@]}" &> /dev/null || return_code="1" fi eend "${return_code}" fi unset site_packages_absolute_dirs site_packages_absolute_files done # Don't use PYTHON_ABI in next calls to python_get_libdir(). unset PYTHON_ABI if ((${#other_dirs[@]})) || ((${#other_files[@]})); then return_code="0" ebegin "Compilation and optimization of Python modules placed outside of site-packages directories for Python ${PYVER}..." if ((${#other_dirs[@]})); then python${PYVER} "${root}$(python_get_libdir)/compileall.py" "${options[@]}" "${other_dirs[@]}" || return_code="1" python${PYVER} -O "${root}$(python_get_libdir)/compileall.py" "${options[@]}" "${other_dirs[@]}" &> /dev/null || return_code="1" fi if ((${#other_files[@]})); then python${PYVER} "${root}$(python_get_libdir)/py_compile.py" "${other_files[@]}" || return_code="1" python${PYVER} -O "${root}$(python_get_libdir)/py_compile.py" "${other_files[@]}" &> /dev/null || return_code="1" fi eend "${return_code}" fi else local myroot mydirs=() myfiles=() myopts=() return_code="0" # strip trailing slash myroot="${ROOT%/}" # respect ROOT and options passed to compileall.py while (($#)); do case "$1" in -l|-f|-q) myopts+=("$1") ;; -d|-x) myopts+=("$1" "$2") shift ;; -*) ewarn "${FUNCNAME}: Ignoring compile option $1" ;; *) if [[ -d "${myroot}"/$1 ]]; then mydirs+=("${myroot}/$1") elif [[ -f "${myroot}"/$1 ]]; then # Files are passed to python_mod_compile which is ROOT-aware myfiles+=("$1") elif [[ -e "${myroot}/$1" ]]; then ewarn "${myroot}/$1 is not a file or directory!" else ewarn "${myroot}/$1 doesn't exist!" fi ;; esac shift done # allow compiling for older python versions if [ -n "${PYTHON_OVERRIDE_PYVER}" ]; then PYVER=${PYTHON_OVERRIDE_PYVER} else python_version fi # set additional opts myopts+=(-q) ebegin "Byte compiling python modules for python-${PYVER} .." if ((${#mydirs[@]})); then python${PYVER} \ "${myroot}"/usr/$(get_libdir)/python${PYVER}/compileall.py \ "${myopts[@]}" "${mydirs[@]}" || return_code="1" python${PYVER} -O \ "${myroot}"/usr/$(get_libdir)/python${PYVER}/compileall.py \ "${myopts[@]}" "${mydirs[@]}" &> /dev/null || return_code="1" fi if ((${#myfiles[@]})); then python_mod_compile "${myfiles[@]}" fi eend "${return_code}" fi } # @FUNCTION: python_mod_cleanup # @USAGE: [directory] # @DESCRIPTION: # Run with optional arguments, where arguments are directories of # python modules. If none given, it will look in /usr/lib/python[0-9].[0-9]. # # It will recursively scan all compiled Python modules in the directories and # determine if they are orphaned (i.e. their corresponding .py files are missing.) # If they are, then it will remove their corresponding .pyc and .pyo files. # # This function should only be run in pkg_postrm(). python_mod_cleanup() { local PYTHON_ABI SEARCH_PATH=() root src_py # Check if phase is pkg_postrm(). [[ ${EBUILD_PHASE} != "postrm" ]] && die "${FUNCNAME} should only be run in pkg_postrm()" # Strip trailing slash from ROOT. root="${ROOT%/}" if (($#)); then if ! has "${EAPI:-0}" 0 1 2 || [[ -n "${SUPPORT_PYTHON_ABIS}" ]]; then while (($#)); do if [[ "$1" =~ ^/usr/lib(32|64)?/python[[:digit:]]+\.[[:digit:]]+ ]]; then die "${FUNCNAME} doesn't support absolute paths of directories/files in site-packages directories" elif [[ "$1" =~ ^/ ]]; then SEARCH_PATH+=("${root}/${1#/}") else for PYTHON_ABI in ${PYTHON_ABIS}; do SEARCH_PATH+=("${root}$(python_get_sitedir)/$1") done fi shift done else SEARCH_PATH=("${@#/}") SEARCH_PATH=("${SEARCH_PATH[@]/#/${root}/}") fi else SEARCH_PATH=("${root}"/usr/lib*/python*/site-packages) fi for path in "${SEARCH_PATH[@]}"; do [[ ! -d "${path}" ]] && continue einfo "Cleaning orphaned Python bytecode from ${path} .." find "${path}" -name '*.py[co]' -print0 | while read -rd ''; do src_py="${REPLY%[co]}" [[ -f "${src_py}" || (! -f "${src_py}c" && ! -f "${src_py}o") ]] && continue einfo "Purging ${src_py}[co]" rm -f "${src_py}"[co] done # Attempt to remove directories that may be empty. find "${path}" -type d | sort -r | while read -r dir; do rmdir "${dir}" 2>/dev/null && einfo "Removing empty directory ${dir}" done done }