# Copyright 1999-2022 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 # @ECLASS: python-r1.eclass # @MAINTAINER: # Python team # @AUTHOR: # Author: Michał Górny # Based on work of: Krzysztof Pawlik # @SUPPORTED_EAPIS: 6 7 8 # @PROVIDES: multibuild python-utils-r1 # @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. Modification of REQUIRED_USE has to # be done by the author of the ebuild (but PYTHON_REQUIRED_USE is # provided for convenience, see below). python-r1 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 Guide: # https://projects.gentoo.org/python/guide/ case "${EAPI:-0}" in [0-5]) die "Unsupported EAPI=${EAPI:-0} (too old) for ${ECLASS}" ;; [6-8]) ;; *) die "Unsupported EAPI=${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.' elif [[ ${_PYTHON_ANY_R1} ]]; then die 'python-r1.eclass can not be used with python-any-r1.eclass.' fi inherit multibuild python-utils-r1 fi # @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_7 python3_3 python3_4 ) # @CODE # # Please note that you can also use bash brace expansion if you like: # @CODE # PYTHON_COMPAT=( python2_7 python3_{3,4} ) # @CODE # @ECLASS-VARIABLE: PYTHON_COMPAT_OVERRIDE # @USER_VARIABLE # @DEFAULT_UNSET # @DESCRIPTION: # This variable can be used when working with ebuilds to override # the in-ebuild PYTHON_COMPAT. It is a string listing all # the implementations which package will be built for. It need be # specified in the calling environment, and not in ebuilds. # # It should be noted that in order to preserve metadata immutability, # PYTHON_COMPAT_OVERRIDE does not affect IUSE nor dependencies. # The state of PYTHON_TARGETS is ignored, and all the implementations # in PYTHON_COMPAT_OVERRIDE are built. Dependencies need to be satisfied # manually. # # Example: # @CODE # PYTHON_COMPAT_OVERRIDE='pypy python3_3' emerge -1v dev-python/foo # @CODE # @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. # # This should be set before calling `inherit'. # # 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 # @OUTPUT_VARIABLE # @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" # BDEPEND="${PYTHON_DEPS}" # @CODE # # Example value: # @CODE # python_targets_python2_7? ( dev-lang/python:2.7[gdbm] ) # python_targets_pypy? ( dev-python/pypy[gdbm] ) # @CODE # @ECLASS-VARIABLE: PYTHON_USEDEP # @OUTPUT_VARIABLE # @DESCRIPTION: # This is an eclass-generated USE-dependency string which can be used to # depend on another Python package being built for the same Python # implementations. # # The generate USE-flag list is compatible with packages using python-r1 # and python-distutils-ng eclasses. It must not be used on packages # using python.eclass. # # Example use: # @CODE # RDEPEND="dev-python/foo[${PYTHON_USEDEP}]" # @CODE # # Example value: # @CODE # python_targets_python2_7(-)?,python_targets_python3_4(-)? # @CODE # @ECLASS-VARIABLE: PYTHON_SINGLE_USEDEP # @OUTPUT_VARIABLE # @DESCRIPTION: # An eclass-generated USE-dependency string for the currently tested # implementation. It is set locally for python_check_deps() call. # # The generated USE-flag list is compatible with packages using # python-single-r1 eclass. For python-r1 dependencies, # use PYTHON_USEDEP. # # Example use: # @CODE # python_check_deps() { # has_version "dev-python/bar[${PYTHON_SINGLE_USEDEP}]" # } # @CODE # # Example value: # @CODE # python_single_target_python3_7(-) # @CODE # @ECLASS-VARIABLE: PYTHON_REQUIRED_USE # @OUTPUT_VARIABLE # @DESCRIPTION: # This is an eclass-generated required-use expression which ensures at # least one Python implementation has been enabled. # # This expression should be utilized in an ebuild by including it in # REQUIRED_USE, optionally behind a use flag. # # Example use: # @CODE # REQUIRED_USE="python? ( ${PYTHON_REQUIRED_USE} )" # @CODE # # Example value: # @CODE # || ( python_targets_python2_7 python_targets_python3_4 ) # @CODE _python_set_globals() { local deps i PYTHON_PKG_DEP _python_set_impls for i in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do _python_export "${i}" PYTHON_PKG_DEP deps+="python_targets_${i}? ( ${PYTHON_PKG_DEP} ) " done local flags=( "${_PYTHON_SUPPORTED_IMPLS[@]/#/python_targets_}" ) local optflags=${flags[@]/%/(-)?} local requse="|| ( ${flags[*]} )" local usedep=${optflags// /,} if [[ ${PYTHON_DEPS+1} ]]; then # IUSE is magical, so we can't really check it # (but we verify PYTHON_COMPAT already) if [[ ${PYTHON_DEPS} != "${deps}" ]]; then eerror "PYTHON_DEPS have changed between inherits (PYTHON_REQ_USE?)!" eerror "Before: ${PYTHON_DEPS}" eerror "Now : ${deps}" die "PYTHON_DEPS integrity check failed" fi # these two are formality -- they depend on PYTHON_COMPAT only if [[ ${PYTHON_REQUIRED_USE} != ${requse} ]]; then eerror "PYTHON_REQUIRED_USE have changed between inherits!" eerror "Before: ${PYTHON_REQUIRED_USE}" eerror "Now : ${requse}" die "PYTHON_REQUIRED_USE integrity check failed" fi if [[ ${PYTHON_USEDEP} != "${usedep}" ]]; then eerror "PYTHON_USEDEP have changed between inherits!" eerror "Before: ${PYTHON_USEDEP}" eerror "Now : ${usedep}" die "PYTHON_USEDEP integrity check failed" fi else IUSE=${flags[*]} PYTHON_DEPS=${deps} PYTHON_REQUIRED_USE=${requse} PYTHON_USEDEP=${usedep} readonly PYTHON_DEPS PYTHON_REQUIRED_USE fi } _python_set_globals unset -f _python_set_globals if [[ ! ${_PYTHON_R1} ]]; then # @FUNCTION: _python_validate_useflags # @INTERNAL # @DESCRIPTION: # Enforce the proper setting of PYTHON_TARGETS, if PYTHON_COMPAT_OVERRIDE # is not in effect. If it is, just warn that the flags will be ignored. _python_validate_useflags() { debug-print-function ${FUNCNAME} "${@}" if [[ ${PYTHON_COMPAT_OVERRIDE} ]]; then if [[ ! ${_PYTHON_COMPAT_OVERRIDE_WARNED} ]]; then ewarn "WARNING: PYTHON_COMPAT_OVERRIDE in effect. The following Python" ewarn "implementations will be enabled:" ewarn ewarn " ${PYTHON_COMPAT_OVERRIDE}" ewarn ewarn "Dependencies won't be satisfied, and PYTHON_TARGETS will be ignored." _PYTHON_COMPAT_OVERRIDE_WARNED=1 fi # we do not use flags with PCO return fi local i for i in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do use "python_targets_${i}" && return 0 done eerror "No Python implementation selected for the build. Please add one" eerror "of the following values to your PYTHON_TARGETS (in make.conf):" eerror eerror "${PYTHON_COMPAT[@]}" echo die "No supported Python implementation in PYTHON_TARGETS." } # @FUNCTION: _python_gen_usedep # @USAGE: [...] # @INTERNAL # @DESCRIPTION: # Output a USE dependency string for Python implementations which # are both in PYTHON_COMPAT and match any of the patterns passed # as parameters to the function. # # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # This is an internal function used to implement python_gen_cond_dep # and deprecated python_gen_usedep. _python_gen_usedep() { debug-print-function ${FUNCNAME} "${@}" local impl matches=() _python_verify_patterns "${@}" for impl in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do if _python_impl_matches "${impl}" "${@}"; then matches+=( "python_targets_${impl}(-)?" ) fi done [[ ${matches[@]} ]] || die "No supported implementations match python_gen_usedep patterns: ${@}" local out=${matches[@]} echo "${out// /,}" } # @FUNCTION: python_gen_usedep # @USAGE: [...] # @DESCRIPTION: # DEPRECATED. Please use python_gen_cond_dep instead. # # Output a USE dependency string for Python implementations which # are both in PYTHON_COMPAT and match any of the patterns passed # as parameters to the function. # # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # When all implementations are requested, please use ${PYTHON_USEDEP} # instead. Please also remember to set an appropriate REQUIRED_USE # to avoid ineffective USE flags. # # Example: # @CODE # PYTHON_COMPAT=( python{2_7,3_4} ) # BDEPEND="doc? ( dev-python/epydoc[$(python_gen_usedep 'python2*')] )" # @CODE # # It will cause the dependency to look like: # @CODE # BDEPEND="doc? ( dev-python/epydoc[python_targets_python2_7?] )" # @CODE python_gen_usedep() { debug-print-function ${FUNCNAME} "${@}" # output only once, during some reasonable phase # (avoid spamming cache regen runs) if [[ ${EBUILD_PHASE} == setup ]]; then eqawarn "python_gen_usedep() is deprecated. Please use python_gen_cond_dep instead." fi [[ ${EAPI} == [67] ]] || die "${FUNCNAME} banned in EAPI ${EAPI}" _python_gen_usedep "${@}" } # @FUNCTION: python_gen_useflags # @USAGE: [...] # @DESCRIPTION: # Output a list of USE flags for Python implementations which # are both in PYTHON_COMPAT and match any of the patterns passed # as parameters to the function. # # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # Example: # @CODE # PYTHON_COMPAT=( python{2_7,3_4} ) # REQUIRED_USE="doc? ( || ( $(python_gen_useflags python2*) ) )" # @CODE # # It will cause the variable to look like: # @CODE # REQUIRED_USE="doc? ( || ( python_targets_python2_7 ) )" # @CODE python_gen_useflags() { debug-print-function ${FUNCNAME} "${@}" local impl matches=() _python_verify_patterns "${@}" for impl in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do if _python_impl_matches "${impl}" "${@}"; then matches+=( "python_targets_${impl}" ) fi done echo "${matches[@]}" } # @FUNCTION: python_gen_cond_dep # @USAGE: [...] # @DESCRIPTION: # Output a list of -ies made conditional to USE flags # of Python implementations which are both in PYTHON_COMPAT and match # any of the patterns passed as the remaining parameters. # # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # In order to enforce USE constraints on the packages, verbatim # '${PYTHON_USEDEP}' (quoted!) may be placed in the dependency # specification. It will get expanded within the function into a proper # USE dependency string. # # Example: # @CODE # PYTHON_COMPAT=( python{2_7,3_{3,4}} pypy ) # RDEPEND="$(python_gen_cond_dep \ # 'dev-python/unittest2[${PYTHON_USEDEP}]' python2_7 pypy )" # @CODE # # It will cause the variable to look like: # @CODE # RDEPEND="python_targets_python2_7? ( # dev-python/unittest2[python_targets_python2_7?] ) # python_targets_pypy? ( # dev-python/unittest2[python_targets_pypy?] )" # @CODE python_gen_cond_dep() { debug-print-function ${FUNCNAME} "${@}" local impl matches=() local dep=${1} shift _python_verify_patterns "${@}" for impl in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do if _python_impl_matches "${impl}" "${@}"; then # substitute ${PYTHON_USEDEP} if used # (since python_gen_usedep() will not return ${PYTHON_USEDEP} # the code is run at most once) if [[ ${dep} == *'${PYTHON_USEDEP}'* ]]; then local usedep=$(_python_gen_usedep "${@}") dep=${dep//\$\{PYTHON_USEDEP\}/${usedep}} fi matches+=( "python_targets_${impl}? ( ${dep} )" ) fi done echo "${matches[@]}" } # @FUNCTION: python_gen_impl_dep # @USAGE: [ [...]] # @DESCRIPTION: # Output a dependency on Python implementations with the specified USE # dependency string appended, or no USE dependency string if called # without the argument (or with empty argument). If any implementation # patterns are passed, the output dependencies will be generated only # for the implementations matching them. # # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # Use this function when you need to request different USE flags # on the Python interpreter depending on package's USE flags. If you # only need a single set of interpreter USE flags, just set # PYTHON_REQ_USE and use ${PYTHON_DEPS} globally. # # Example: # @CODE # PYTHON_COMPAT=( python{2_7,3_{3,4}} pypy ) # RDEPEND="foo? ( $(python_gen_impl_dep 'xml(+)') )" # @CODE # # It will cause the variable to look like: # @CODE # RDEPEND="foo? ( # python_targets_python2_7? ( # dev-lang/python:2.7[xml(+)] ) # python_targets_pypy? ( # dev-python/pypy[xml(+)] ) )" # @CODE python_gen_impl_dep() { debug-print-function ${FUNCNAME} "${@}" local impl matches=() local PYTHON_REQ_USE=${1} shift _python_verify_patterns "${@}" for impl in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do if _python_impl_matches "${impl}" "${@}"; then local PYTHON_PKG_DEP _python_export "${impl}" PYTHON_PKG_DEP matches+=( "python_targets_${impl}? ( ${PYTHON_PKG_DEP} )" ) fi done echo "${matches[@]}" } # @FUNCTION: python_gen_any_dep # @USAGE: [ [...]] # @DESCRIPTION: # Generate an any-of dependency that enforces a version match between # the Python interpreter and Python packages. may # list one or more dependencies with verbatim '${PYTHON_USEDEP}' # or '${PYTHON_SINGLE_USEDEP}' references (quoted!) that will get # expanded inside the function. If is an empty string # (or no arguments are passed), a pure dependency on any Python # interpreter will be generated. # # Optionally, patterns may be specified to restrict the dependency to # a subset of Python implementations supported by the ebuild. # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # This should be used along with an appropriate python_check_deps() # that checks which of the any-of blocks were matched, and python_setup # call that enables use of the matched implementation. # # Example use: # @CODE # BDEPEND="$(python_gen_any_dep ' # dev-python/foo[${PYTHON_SINGLE_USEDEP}] # || ( dev-python/bar[${PYTHON_USEDEP}] # dev-python/baz[${PYTHON_USEDEP}] )' -2)" # # python_check_deps() { # has_version "dev-python/foo[${PYTHON_SINGLE_USEDEP}]" \ # && { has_version "dev-python/bar[${PYTHON_USEDEP}]" \ # || has_version "dev-python/baz[${PYTHON_USEDEP}]"; } # } # # src_compile() { # python_foreach_impl usual_code # # # some common post-build task that requires Python 2 # python_setup -2 # emake frobnicate # } # @CODE # # Example value: # @CODE # || ( # ( # dev-lang/python:3.7 # dev-python/foo[python_single_target_python3_7(-)] # || ( dev-python/bar[python_targets_python3_7(-),-python_single_target_python3_7(-)] # dev-python/baz[python_targets_python3_7(-),-python_single_target_python3_7(-)] ) # ) # ( # dev-lang/python:3.8 # dev-python/foo[python_single_target_python3_8(-)] # || ( dev-python/bar[python_targets_python3_8(-)] # dev-python/baz[python_targets_python3_8(-)] ) # ) # ) # @CODE python_gen_any_dep() { debug-print-function ${FUNCNAME} "${@}" local depstr=${1} shift local i PYTHON_PKG_DEP out= _python_verify_patterns "${@}" for i in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do if _python_impl_matches "${i}" "${@}"; then local PYTHON_USEDEP="python_targets_${i}(-)" local PYTHON_SINGLE_USEDEP="python_single_target_${i}(-)" _python_export "${i}" PYTHON_PKG_DEP local i_depstr=${depstr//\$\{PYTHON_USEDEP\}/${PYTHON_USEDEP}} i_depstr=${i_depstr//\$\{PYTHON_SINGLE_USEDEP\}/${PYTHON_SINGLE_USEDEP}} # note: need to strip '=' slot operator for || deps out="( ${PYTHON_PKG_DEP/:0=/:0} ${i_depstr} ) ${out}" fi done echo "|| ( ${out})" } # @ECLASS-VARIABLE: BUILD_DIR # @OUTPUT_VARIABLE # @DEFAULT_UNSET # @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_7 # @CODE # @FUNCTION: python_copy_sources # @DESCRIPTION: # Create a single copy of the package sources for each enabled Python # implementation. # # The sources are always copied from initial BUILD_DIR (or S if unset) # to implementation-specific build directory matching BUILD_DIR used by # python_foreach_abi(). python_copy_sources() { debug-print-function ${FUNCNAME} "${@}" local MULTIBUILD_VARIANTS _python_obtain_impls multibuild_copy_sources } # @FUNCTION: _python_obtain_impls # @INTERNAL # @DESCRIPTION: # Set up the enabled implementation list. _python_obtain_impls() { _python_validate_useflags if [[ ${PYTHON_COMPAT_OVERRIDE} ]]; then MULTIBUILD_VARIANTS=( ${PYTHON_COMPAT_OVERRIDE} ) return fi MULTIBUILD_VARIANTS=() local impl for impl in "${_PYTHON_SUPPORTED_IMPLS[@]}"; do has "${impl}" "${PYTHON_COMPAT[@]}" && \ use "python_targets_${impl}" && MULTIBUILD_VARIANTS+=( "${impl}" ) done } # @FUNCTION: _python_multibuild_wrapper # @USAGE: [...] # @INTERNAL # @DESCRIPTION: # Initialize the environment for Python implementation selected # for multibuild. _python_multibuild_wrapper() { debug-print-function ${FUNCNAME} "${@}" local -x EPYTHON PYTHON local -x PATH=${PATH} PKG_CONFIG_PATH=${PKG_CONFIG_PATH} _python_export "${MULTIBUILD_VARIANT}" EPYTHON PYTHON _python_wrapper_setup "${@}" } # @FUNCTION: python_foreach_impl # @USAGE: [...] # @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. # # The function will return 0 status if all invocations succeed. # Otherwise, the return code from first failing invocation will # be returned. # # 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 ${FUNCNAME} "${@}" local MULTIBUILD_VARIANTS _python_obtain_impls multibuild_foreach_variant _python_multibuild_wrapper "${@}" } # @FUNCTION: python_setup # @USAGE: [...] # @DESCRIPTION: # Find the best (most preferred) Python implementation that is suitable # for running common Python code. Set the Python build environment up # for that implementation. This function has two modes of operation: # pure and any-of dep. # # The pure mode is used if python_check_deps() function is not declared. # In this case, an implementation is considered suitable if it is # supported (in PYTHON_COMPAT), enabled (via USE flags) and matches # at least one of the patterns passed (or '*' if no patterns passed). # # Implementation restrictions in the pure mode need to be accompanied # by appropriate REQUIRED_USE constraints. Otherwise, the eclass may # fail at build time due to unsatisfied dependencies. # # The any-of dep mode is used if python_check_deps() is declared. # In this mode, an implementation is considered suitable if it is # supported, matches at least one of the patterns and python_check_deps() # has successful return code. USE flags are not considered. # # The python_check_deps() function in the any-of mode needs to be # accompanied by appropriate any-of dependencies. # # The patterns are fnmatch-style patterns (matched via bash # == operator against PYTHON_COMPAT values). Remember to escape # or quote the fnmatch patterns to prevent accidental shell filename # expansion. # # This function needs to be used when Python is being called outside # of python_foreach_impl calls (e.g. for shared processes like doc # building). python_foreach_impl sets up the build environment itself. # # Pure mode example: # @CODE # BDEPEND="doc? ( dev-python/epydoc[$(python_gen_usedep 'python2*')] )" # REQUIRED_USE="doc? ( $(python_gen_useflags 'python2*') )" # # src_compile() { # #... # if use doc; then # python_setup 'python2*' # make doc # fi # } # @CODE # # Any-of mode example: # @CODE # BDEPEND="doc? ( # $(python_gen_any_dep 'dev-python/epydoc[${PYTHON_USEDEP}]' 'python2*') )" # # python_check_deps() { # has_version "dev-python/epydoc[${PYTHON_USEDEP}]" # } # # src_compile() { # #... # if use doc; then # python_setup 'python2*' # make doc # fi # } # @CODE python_setup() { debug-print-function ${FUNCNAME} "${@}" local has_check_deps declare -f python_check_deps >/dev/null && has_check_deps=1 if [[ ! ${has_check_deps} ]]; then _python_validate_useflags fi local pycompat=( "${PYTHON_COMPAT[@]}" ) if [[ ${PYTHON_COMPAT_OVERRIDE} ]]; then pycompat=( ${PYTHON_COMPAT_OVERRIDE} ) fi # (reverse iteration -- newest impl first) local found _python_verify_patterns "${@}" for (( i = ${#_PYTHON_SUPPORTED_IMPLS[@]} - 1; i >= 0; i-- )); do local impl=${_PYTHON_SUPPORTED_IMPLS[i]} # check PYTHON_COMPAT[_OVERRIDE] has "${impl}" "${pycompat[@]}" || continue # match USE flags only if override is not in effect # and python_check_deps() is not defined if [[ ! ${PYTHON_COMPAT_OVERRIDE} && ! ${has_check_deps} ]]; then use "python_targets_${impl}" || continue fi # check patterns _python_impl_matches "${impl}" "${@}" || continue _python_export "${impl}" EPYTHON PYTHON # if python_check_deps() is declared, switch into any-of mode if [[ ${has_check_deps} ]]; then # first check if the interpreter is installed python_is_installed "${impl}" || continue # then run python_check_deps local PYTHON_USEDEP="python_targets_${impl}(-)" local PYTHON_SINGLE_USEDEP="python_single_target_${impl}(-)" python_check_deps || continue fi found=1 break done if [[ ! ${found} ]]; then eerror "${FUNCNAME}: none of the enabled implementation matched the patterns." eerror " patterns: ${@-'(*)'}" eerror "Likely a REQUIRED_USE constraint (possibly USE-conditional) is missing." eerror " suggested: || ( \$(python_gen_useflags ${@}) )" eerror "(remember to quote all the patterns with '')" die "${FUNCNAME}: no enabled implementation satisfy requirements" fi _python_wrapper_setup einfo "Using ${EPYTHON} in global scope" } # @FUNCTION: python_replicate_script # @USAGE: ... # @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 ${FUNCNAME} "${@}" _python_replicate_script() { local _PYTHON_FIX_SHEBANG_QUIET=1 local PYTHON_SCRIPTDIR _python_export PYTHON_SCRIPTDIR ( exeopts -m 0755 exeinto "${PYTHON_SCRIPTDIR#${EPREFIX}}" doexe "${files[@]}" ) python_fix_shebang -q \ "${files[@]/*\//${D%/}/${PYTHON_SCRIPTDIR}/}" } local files=( "${@}" ) python_foreach_impl _python_replicate_script unset -f _python_replicate_script # install the wrappers local f for f; do local dosym=dosym [[ ${EAPI} == [67] ]] && dosym=dosym8 "${dosym}" -r /usr/lib/python-exec/python-exec2 "${f#${ED}}" done } _PYTHON_R1=1 fi