# # set +o errexit -o noglob is assumed. # # # ex_pkg_check_depends() - check single named package for unsatisfied dependencies # @_checkfl: enable (1) or inhibit (0) dependency expansion # @_pkg_disabled: list of disabled packages # @_pkg_finished: list of finished packages # @_pkg_name: single package name # @_pkg_wait: list of in-progress packages # # Return: zero (0) given no outstanding dependencies, non-zero (>0) otherwise # ex_pkg_check_depends() { local _checkfl="${1}" _pkg_disabled="${2}" _pkg_finished="${3}" _pkg_name="${4}" _pkg_wait="${5}"\ _dependfl=0 _pkg_depends="" _pkg_name_depend=""; if [ "${_checkfl:-0}" -eq 1 ]\ && _pkg_depends="$(rtl_uniq $(rtl_lunfold_depends 'PKG_${_name}_DEPENDS' $(rtl_get_var_unsafe -u "PKG_"${_pkg_name}"_DEPENDS")))"; then for _pkg_name_depend in $(rtl_uniq ${_pkg_depends}); do if ! rtl_lmatch "${_pkg_disabled}" "${_pkg_name_depend}"\ && ! rtl_lmatch "${_pkg_finished}" "${_pkg_name_depend}"; then _dependfl=1; break; elif rtl_lmatch "${_pkg_wait}" "${_pkg_name_depend}"; then _dependfl=1; break; fi; done; fi; return "${_dependfl}"; }; # # ex_pkg_find_package() - find build group a single named package belongs to # @_group_names: build group names # @_pkg_name: single named package # # Return: zero (0) on success, non-zero (>0) if package not found, group name on stdout if package was found. # ex_pkg_find_package() { local _group_names="${1}" _pkg_name="${2}" _foundfl=0 _group_name="" _pkg_names=""; for _group_name in ${_group_names}; do if _pkg_names="$(rtl_get_var_unsafe -u "${_group_name}_PACKAGES")"\ && [ -n "${_pkg_names}" ]\ && rtl_lmatch "${_pkg_names}" "${_pkg_name}"; then _foundfl=1; break; fi; done; case "${_foundfl:-0}" in 0) return 1; ;; 1) printf "%s" "${_group_name}"; return 0; ;; esac; }; # # ex_pkg_get_packages() - get list of packages belonging to single named build group # @_group_name: build group name # # Return: zero (0) on success, non-zero (>0) on failure, list of package names on stdout on success. # ex_pkg_get_packages() { local _group_name="${1}" _pkg_names=""; if _pkg_names="$(rtl_get_var_unsafe -u "${_group_name}_PACKAGES")"\ && [ -n "${_pkg_names}" ]; then printf "%s" "${_pkg_names}"; return 0; else return 1; fi; }; # # ex_pkg_load_dump() - load package dump # @_pkg_name: package name # # Return: zero (0) on success, non-zero (>0) on failure, package dump post-return on success. # ex_pkg_load_dump() { local _pkg_name="${1}" _workdir="${2}" _rc=0; _status=""; if [ ! -e "${_workdir}/${_pkg_name}.dump" ]; then rtl_log_msg warn "Warning: failed to locate environment dump for package \`%s' in \`%s'." "${_pkg_name}" "${_workdir}"; rtl_log_msg info "Re_building package \`%s' w/ --dump-in _build..." "${_pkg_name}"; (export ARCH BUILD BUILD_DLCACHEDIR BUILD_WORKDIR \ PREFIX PREFIX_CROSS PREFIX_MINGW32 PREFIX_MINIPIX \ PREFIX_NATIVE PREFIX_ROOT PREFIX_RPM; ./build.sh --dump-in _build -P -r "${_pkg_name}" -v); if [ ! -e "${_workdir}/${_pkg_name}.dump" ]; then _rc=1; _status="Error: failed to locate environment dump for package \`${_pkg_name}' in \`${_workdir}'."; fi; else _rc=0; fi; if [ "${_rc:-0}" -eq 0 ]\ && ! . "${_workdir}/${_pkg_name}.dump"; then _rc=1; _status="Error: failed to source environment dump for package \`${_pkg_name}' from \`${_workdir}'."; elif [ "${_rc:-0}" -eq 0 ]\ && ! rtl_fileop cd "${PKG_BUILD_DIR}"; then _rc=1; _status="Error: failed to change working directory to \`${PKG_BUILD_DIR}'."; fi; return "${_rc}"; }; # # ex_pkg_load_vars() - load build variables # # Return: zero (0) on success, non-zero (>0) on failure, build variables post-return on success. # ex_pkg_load_vars() { local _rc=0; _status=""; if ! rtl_lmatch "${ARCH}" "nt32 nt64"; then _rc=1; _status="Error: invalid architecture \`${ARCH}'."; elif ! rtl_lmatch "${BUILD}" "debug release"; then _rc=1; _status="Error: unknown build type \`${BUILD}'."; else case "${ARCH}" in nt32) DEFAULT_TARGET="i686-nt32-midipix"; ;; nt64) DEFAULT_TARGET="x86_64-nt64-midipix"; ;; esac; rtl_fileop source_opt \ "${HOME}/midipix_build.vars" "${HOME}/.midipix_build.vars" \ ../midipix_build.vars ./midipix.env; if [ -z "${PREFIX}" ]; then _rc=1; _status="Error: \${PREFIX} empty or unset."; fi; fi; return "${_rc}"; }; # # ex_pkg_load_groups() - load all available build groups # # Return: zero (0) on success, non-zero (>0) on failure, build groups loaded and ${EX_PKG_BUILD_GROUPS} set post-return. # ex_pkg_load_groups() { local _build_groups="" _fname="" _group="" _groups=""; for _fname in $(find ./groups -name *.group | sort); do rtl_fileop source_opt "${_fname}"; if [ -n "${GROUP_TARGET}" ]; then _group="${GROUP_TARGET}"; unset GROUP_TARGET; else _group="${_fname##*/}"; _group="${_group%.group}"; _group="${_group#*.}"; fi; if ! rtl_lmatch "${_groups}" "${_group}"; then _groups="$(rtl_lconcat "${_groups}" "${_group}")"; if [ -n "${GROUP_AUTO}" ]; then if [ "${GROUP_AUTO:-0}" -ne 0 ]; then _build_groups="$(rtl_lconcat "${_build_groups}" "${_group}")"; fi; unset GROUP_AUTO; else _build_groups="$(rtl_lconcat "${_build_groups}" "${_group}")"; fi; fi; done; EX_PKG_BUILD_GROUPS="$(rtl_uniq "${_build_groups}")"; }; # # ex_pkg_unfold_depends() - unfold list of package names into dependency-expanded set of complete, disabled, finished, and outstanding package names # @_checkfl: enable (1) or inhibit (0) dependency expansion # @_forcefl: enable (1) or inhibit (0) forcibly rebuilding finished packages # @_group_name: build group name # @_pkg_names: list of package names # @_restart: optional whitespace-separated list of package names to rebuild # @_test_finished: only exclude disabled packages from ${EX_PKG_NAMES} (0,) split finished packages into ${EX_PKG_FINISHED} # # Return: zero (0) on success, non-zero (>0) on failure, ${EX_PKG_DISABLED}, ${EX_PKG_FINISHED}, and ${EX_PKG_NAMES} set post-return. # ex_pkg_unfold_depends() { local _checkfl="${1}" _forcefl="${2}" _group_name="${3}" _pkg_names="${4}" _restart="${5}" _test_finished="${6}"\ _pkg_name="" _restartfl=0; if [ -n "${_restart}" ] && ! rtl_lmatch "${_restart}" "ALL LAST"; then _pkg_names="$(rtl_lsearch "${_pkg_names}" "${_restart}")"; fi; if [ -n "${_restart}" ] && [ "${_checkfl:-0}" -eq 1 ]; then _pkg_names="$(rtl_uniq $(rtl_lunfold_depends 'PKG_${_name}_DEPENDS' ${_pkg_names}))"; fi; for _pkg_name in ${_pkg_names}; do if [ "${_restart}" = "ALL" ]\ || rtl_lmatch "${_restart}" "${_pkg_name}"; then _restartfl=1; else _restartfl=0; fi; if [ "x$(rtl_get_var_unsafe -u "PKG_${_pkg_name}_DISABLED")" = "x1" ]; then EX_PKG_DISABLED="$(rtl_lconcat "${EX_PKG_DISABLED}" "${_pkg_name}")"; _pkg_names="$(rtl_lfilter "${_pkg_names}" "${_pkg_name}")"; elif [ "${_test_finished:-1}" -eq 1 ]\ && ex_pkg_state_test "${_pkg_name}" finish\ && [ "${_restartfl:-0}" -eq 0 ]\ && [ "${_forcefl:-0}" -ne 1 ]\ && [ "x$(rtl_get_var_unsafe -u "${_group_name}_FORCE")" != "x1" ]; then EX_PKG_FINISHED="$(rtl_lconcat "${EX_PKG_FINISHED}" "${_pkg_name}")"; _pkg_names="$(rtl_lfilter "${_pkg_names}" "${_pkg_name}")"; fi; done; EX_PKG_DISABLED="$(rtl_uniq ${EX_PKG_DISABLED})"; EX_PKG_FINISHED="$(rtl_uniq ${EX_PKG_FINISHED})"; EX_PKG_NAMES="$(rtl_uniq ${_pkg_names})"; }; # # ex_pkg_unfold_rdepends() - unfold list of package names into reverse dependency-expanded set of complete, disabled, finished, and outstanding package names # @_group_name: build group name # @_pkg_names: list of package names # @_restart: optional whitespace-separated list of package names to rebuild # @_test_finished: only exclude disabled packages from ${EX_PKG_NAMES} (0,) split finished packages into ${EX_PKG_FINISHED} # # Return: zero (0) on success, non-zero (>0) on failure, ${EX_PKG_DISABLED}, ${EX_PKG_FINISHED}, and ${EX_PKG_NAMES} set post-return. # ex_pkg_unfold_rdepends() { local _group_name="${1}" _pkg_names="${2}" _restart="${3}" _test_finished="${4}" \ _pkg_depends="" _pkg_name="" _pkg_name_depend="" _pkg_rdepends="" _restartfl=0; for _pkg_name_depend in ${_restart}; do for _pkg_name in ${_pkg_names}; do if [ "${_pkg_name}" != "${_pkg_name_depend}" ]\ && [ "x$(rtl_get_var_unsafe -u "PKG_${_pkg_name}_DISABLED")" != "x1" ]\ && _pkg_depends="$(rtl_lunfold_depends 'PKG_${_name}_DEPENDS' $(rtl_get_var_unsafe -u "PKG_"${_pkg_name}"_DEPENDS"))"\ && [ -n "${_pkg_depends}" ]\ && rtl_lmatch "${_pkg_depends}" "${_pkg_name_depend}"; then _pkg_rdepends="$(rtl_lconcat "${_pkg_rdepends}" "${_pkg_name}")"; fi; done; done; _pkg_names=""; for _pkg_name in ${_pkg_rdepends}; do if _pkg_depends="$(rtl_lunfold_depends 'PKG_${_name}_DEPENDS' $(rtl_get_var_unsafe -u "PKG_"${_pkg_name}"_DEPENDS"))"\ && [ -n "${_pkg_depends}" ]; then for _pkg_name_depend in ${_pkg_depends}; do if [ "x$(rtl_get_var_unsafe -u "PKG_${_pkg_name_depend}_DISABLED")" = "x1" ]; then EX_PKG_DISABLED="$(rtl_lconcat "${EX_PKG_DISABLED}" "${_pkg_name_depend}")"; elif [ "${_test_finished:-1}" -eq 1 ]\ && ex_pkg_state_test "${_pkg_name_depend}" finish\ && [ "x$(rtl_get_var_unsafe -u "${_group_name}_FORCE")" != "x1" ]\ && ! rtl_lmatch "${_pkg_rdepends}" "${_pkg_name_depend}"; then EX_PKG_FINISHED="$(rtl_lconcat "${EX_PKG_FINISHED}" "${_pkg_name_depend}")"; elif [ "${_test_finished:-1}" -eq 0 ]\ || ! ex_pkg_state_test "${_pkg_name_depend}" finish\ || [ "x$(rtl_get_var_unsafe -u "${_group_name}_FORCE")" = "x1" ]; then _pkg_names="$(rtl_lconcat "${_pkg_names}" "${_pkg_name_depend}")"; fi; done; fi; _pkg_names="$(rtl_lconcat "${_pkg_names}" "${_pkg_name}")"; done; EX_PKG_DISABLED="$(rtl_uniq ${EX_PKG_DISABLED})"; EX_PKG_FINISHED="$(rtl_uniq ${EX_PKG_FINISHED})"; EX_PKG_NAMES="$(rtl_uniq ${_pkg_names})"; }; # vim:filetype=sh textwidth=0