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|
# Copyright 2019 Gentoo Authors
# Distributed under the terms of the GNU General Public License v2
# @ECLASS: ada.eclass
# @MAINTAINER:
# Ada team <ada@gentoo.org>
# @AUTHOR:
# Tupone Alfredo <tupone@gentoo.org>
# @SUPPORTED_EAPIS: 6 7
# @BLURB: An eclass for Ada packages
# @DESCRIPTION:
# This eclass set the IUSE and REQUIRED_USE to request the ADA_TARGET
# when the inheriting ebuild can be supported by more than one Ada
# implementation. It also set ADA_USEDEP and ADA_DEPS with a suitable form.
# A common eclass providing helper functions to build and install
# packages supporting Ada implementations.
#
# This eclass sets correct IUSE. Modification of REQUIRED_USE has to
# be done by the author of the ebuild (but ADA_REQUIRED_USE is
# provided for convenience, see below). ada exports ADA_DEPS
# and ADA_USEDEP so you can create correct dependencies for your
# package easily.
#
# Mostly copied from python-single-r1.eclass
case "${EAPI:-0}" in
0|1|2|3|4|5)
die "Unsupported EAPI=${EAPI:-0} (too old) for ${ECLASS}"
;;
6|7)
# EAPI=5 is required for sane USE_EXPAND dependencies
;;
*)
die "Unsupported EAPI=${EAPI} (unknown) for ${ECLASS}"
;;
esac
EXPORT_FUNCTIONS pkg_setup
# @ECLASS-VARIABLE: ADA_DEPS
# @OUTPUT_VARIABLE
# @DESCRIPTION:
# This is an eclass-generated Ada dependency string for all
# implementations listed in ADA_COMPAT.
#
# The dependency string is conditional on ADA_TARGET.
#
# Example use:
# @CODE
# RDEPEND="${ADA_DEPS}
# dev-foo/mydep"
# DEPEND="${RDEPEND}"
# @CODE
#
# @ECLASS-VARIABLE: _ADA_ALL_IMPLS
# @INTERNAL
# @DESCRIPTION:
# All supported Ada implementations, most preferred last.
_ADA_ALL_IMPLS=(
gnat_2019 gnat_2020 gnat_2021
)
readonly _ADA_ALL_IMPLS
# @FUNCTION: _ada_impl_supported
# @USAGE: <impl>
# @INTERNAL
# @DESCRIPTION:
# Check whether the implementation <impl> (ADA_COMPAT-form)
# is still supported.
#
# Returns 0 if the implementation is valid and supported. If it is
# unsupported, returns 1 -- and the caller should ignore the entry.
# If it is invalid, dies with an appopriate error messages.
_ada_impl_supported() {
debug-print-function ${FUNCNAME} "${@}"
[[ ${#} -eq 1 ]] || die "${FUNCNAME}: takes exactly 1 argument (impl)."
local impl=${1}
# keep in sync with _ADA_ALL_IMPLS!
# (not using that list because inline patterns shall be faster)
case "${impl}" in
gnat_2019)
return 0
;;
gnat_202[01])
return 0
;;
*)
[[ ${ADA_COMPAT_NO_STRICT} ]] && return 1
die "Invalid implementation in ADA_COMPAT: ${impl}"
esac
}
# @FUNCTION: _ada_set_impls
# @INTERNAL
# @DESCRIPTION:
# Check ADA_COMPAT for well-formedness and validity, then set
# two global variables:
#
# - _ADA_SUPPORTED_IMPLS containing valid implementations supported
# by the ebuild (ADA_COMPAT - dead implementations),
#
# - and _ADA_UNSUPPORTED_IMPLS containing valid implementations that
# are not supported by the ebuild.
#
# Implementations in both variables are ordered using the pre-defined
# eclass implementation ordering.
#
# This function must be called once in global scope by an eclass
# utilizing ADA_COMPAT.
_ada_set_impls() {
local i
if ! declare -p ADA_COMPAT &>/dev/null; then
die 'ADA_COMPAT not declared.'
fi
if [[ $(declare -p ADA_COMPAT) != "declare -a"* ]]; then
die 'ADA_COMPAT must be an array.'
fi
for i in "${ADA_COMPAT[@]}"; do
# trigger validity checks
_ada_impl_supported "${i}"
done
local supp=() unsupp=()
for i in "${_ADA_ALL_IMPLS[@]}"; do
if has "${i}" "${ADA_COMPAT[@]}"; then
supp+=( "${i}" )
else
unsupp+=( "${i}" )
fi
done
if [[ ! ${supp[@]} ]]; then
die "No supported implementation in ADA_COMPAT."
fi
if [[ ${_ADA_SUPPORTED_IMPLS[@]} ]]; then
# set once already, verify integrity
if [[ ${_ADA_SUPPORTED_IMPLS[@]} != ${supp[@]} ]]; then
eerror "Supported impls (ADA_COMPAT) changed between inherits!"
eerror "Before: ${_ADA_SUPPORTED_IMPLS[*]}"
eerror "Now : ${supp[*]}"
die "_ADA_SUPPORTED_IMPLS integrity check failed"
fi
if [[ ${_ADA_UNSUPPORTED_IMPLS[@]} != ${unsupp[@]} ]]; then
eerror "Unsupported impls changed between inherits!"
eerror "Before: ${_ADA_UNSUPPORTED_IMPLS[*]}"
eerror "Now : ${unsupp[*]}"
die "_ADA_UNSUPPORTED_IMPLS integrity check failed"
fi
else
_ADA_SUPPORTED_IMPLS=( "${supp[@]}" )
_ADA_UNSUPPORTED_IMPLS=( "${unsupp[@]}" )
readonly _ADA_SUPPORTED_IMPLS _ADA_UNSUPPORTED_IMPLS
fi
}
# @FUNCTION: ada_export
# @USAGE: [<impl>] <variables>...
# @DESCRIPTION:
# Set and export the Ada implementation-relevant variables passed
# as parameters.
#
# The optional first parameter may specify the requested Ada
# implementation (either as ADA_TARGETS value, e.g. ada2_7,
# or an EADA one, e.g. ada2.7). If no implementation passed,
# the current one will be obtained from ${EADA}.
#
# The variables which can be exported are: GCC, EADA, GNATMAKE.
# They are described more completely in the eclass
# variable documentation.
ada_export() {
debug-print-function ${FUNCNAME} "${@}"
local impl var
case "${1}" in
gnat_201[789])
impl=${1}
shift
;;
gnat_202[01])
impl=${1}
shift
;;
*)
impl=${EADA}
if [[ -z ${impl} ]]; then
die "ada_export called without a ada implementation and EADA is unset"
fi
;;
esac
debug-print "${FUNCNAME}: implementation: ${impl}"
local gcc_pv
local slot
case "${impl}" in
gnat_2019)
gcc_pv=8.3.1
slot=8.3.1
;;
gnat_2020)
gcc_pv=9.3.1
slot=9.3.1
;;
gnat_2021)
gcc_pv=10.3.1
slot=10
;;
*)
gcc_pv="9.9.9"
slot=9.9.9
;;
esac
for var; do
case "${var}" in
EADA)
export EADA=${impl}
debug-print "${FUNCNAME}: EADA = ${EADA}"
;;
GCC)
export GCC=${EPREFIX}/usr/bin/gcc-${gcc_pv}
debug-print "${FUNCNAME}: GCC = ${GCC}"
;;
GCC_PV)
export GCC_PV=${gcc_pv}
debug-print "${FUNCNAME}: GCC_PV = ${GCC_PV}"
;;
GNAT)
export GNAT=${EPREFIX}/usr/bin/gnat-${gcc_pv}
debug-print "${FUNCNAME}: GNAT = ${GNAT}"
;;
GNATBIND)
export GNATBIND=${EPREFIX}/usr/bin/gnatbind-${gcc_pv}
debug-print "${FUNCNAME}: GNATBIND = ${GNATBIND}"
;;
GNATMAKE)
export GNATMAKE=${EPREFIX}/usr/bin/gnatmake-${gcc_pv}
debug-print "${FUNCNAME}: GNATMAKE = ${GNATMAKE}"
;;
GNATLS)
export GNATLS=${EPREFIX}/usr/bin/gnatls-${gcc_pv}
debug-print "${FUNCNAME}: GNATLS = ${GNATLS}"
;;
GNATPREP)
export GNATPREP=${EPREFIX}/usr/bin/gnatprep-${gcc_pv}
debug-print "${FUNCNAME}: GNATPREP = ${GNATPREP}"
;;
GNATCHOP)
export GNATCHOP=${EPREFIX}/usr/bin/gnatchop-${gcc_pv}
debug-print "${FUNCNAME}: GNATCHOP = ${GNATCHOP}"
;;
ADA_PKG_DEP)
ADA_PKG_DEP="dev-lang/gnat-gpl:${slot}"
# use-dep
if [[ ${ADA_REQ_USE} ]]; then
ADA_PKG_DEP+=[${ADA_REQ_USE}]
fi
export ADA_PKG_DEP
debug-print "${FUNCNAME}: ADA_PKG_DEP = ${ADA_PKG_DEP}"
;;
*)
die "ada_export: unknown variable ${var}"
esac
done
}
_ada_single_set_globals() {
_ada_set_impls
local i ADA_PKG_DEP
local flags=( "${_ADA_SUPPORTED_IMPLS[@]/#/ada_target_}" )
local unflags=( "${_ADA_UNSUPPORTED_IMPLS[@]/#/-ada_target_}" )
local allflags=( ${flags[@]} ${unflags[@]} )
local optflags=${flags[@]/%/(-)?}
IUSE="${allflags[*]}"
if [[ ${#_ADA_UNSUPPORTED_IMPLS[@]} -gt 0 ]]; then
optflags+=,${unflags[@]/%/(-)}
fi
local deps requse usedep
if [[ ${#_ADA_SUPPORTED_IMPLS[@]} -eq 1 ]]; then
# There is only one supported implementation; set IUSE and other
# variables without ADA_SINGLE_TARGET.
requse=${flags[*]}
ada_export "${_ADA_SUPPORTED_IMPLS[0]}" ADA_PKG_DEP
deps="${flags[*]}? ( ${ADA_PKG_DEP} ) "
else
# Multiple supported implementations; honor ADA_TARGET.
requse="^^ ( ${flags[*]} )"
for i in "${_ADA_SUPPORTED_IMPLS[@]}"; do
ada_export "${i}" ADA_PKG_DEP
deps+="ada_target_${i}? ( ${ADA_PKG_DEP} ) "
done
fi
usedep=${optflags// /,}
if [[ ${ADA_DEPS+1} ]]; then
if [[ ${ADA_DEPS} != "${deps}" ]]; then
eerror "ADA_DEPS have changed between inherits (ADA_REQ_USE?)!"
eerror "Before: ${ADA_DEPS}"
eerror "Now : ${deps}"
die "ADA_DEPS integrity check failed"
fi
# these two are formality -- they depend on ADA_COMPAT only
if [[ ${ADA_REQUIRED_USE} != ${requse} ]]; then
eerror "ADA_REQUIRED_USE have changed between inherits!"
eerror "Before: ${ADA_REQUIRED_USE}"
eerror "Now : ${requse}"
die "ADA_REQUIRED_USE integrity check failed"
fi
if [[ ${ADA_USEDEP} != "${usedep}" ]]; then
eerror "ADA_USEDEP have changed between inherits!"
eerror "Before: ${ADA_USEDEP}"
eerror "Now : ${usedep}"
die "ADA_USEDEP integrity check failed"
fi
else
ADA_DEPS=${deps}
ADA_REQUIRED_USE=${requse}
ADA_USEDEP=${usedep}
readonly ADA_DEPS ADA_REQUIRED_USE ADA_USEDEP
fi
}
_ada_single_set_globals
unset -f _ada_single_set_globals
# @FUNCTION: ada_wrapper_setup
# @USAGE: [<path> [<impl>]]
# @DESCRIPTION:
# Create proper 'ada' executable wrappers
# in the directory named by <path>. Set up PATH
# appropriately. <path> defaults to ${T}/${EADA}.
#
# The wrappers will be created for implementation named by <impl>,
# or for one named by ${EADA} if no <impl> passed.
#
# If the named directory contains a ada symlink already, it will
# be assumed to contain proper wrappers already and only environment
# setup will be done. If wrapper update is requested, the directory
# shall be removed first.
ada_wrapper_setup() {
debug-print-function ${FUNCNAME} "${@}"
local workdir=${1:-${T}/${EADA}}
local impl=${2:-${EADA}}
[[ ${workdir} ]] || die "${FUNCNAME}: no workdir specified."
[[ ${impl} ]] || die "${FUNCNAME}: no impl nor EADA specified."
if [[ ! -x ${workdir}/bin/gnatmake ]]; then
mkdir -p "${workdir}"/bin || die
local GCC GNATMAKE GNATLS GNATBIND GNATCHOP GNATPREP
ada_export "${impl}" GCC GNAT GNATMAKE GNATLS GNATCHOP GNATBIND GNATPREP
# Ada compiler
cat > "${workdir}/bin/gcc" <<-_EOF_ || die
#!/bin/sh
exec "${GCC}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gcc" || die
cat > "${workdir}/bin/gnatmake" <<-_EOF_ || die
#!/bin/sh
exec "${GNATMAKE}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gnatmake" || die
cat > "${workdir}/bin/gnatls" <<-_EOF_ || die
#!/bin/sh
exec "${GNATLS}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gnatls" || die
cat > "${workdir}/bin/gnatbind" <<-_EOF_ || die
#!/bin/sh
exec "${GNATBIND}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gnatbind" || die
cat > "${workdir}/bin/gnatchop" <<-_EOF_ || die
#!/bin/sh
exec "${GNATCHOP}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gnatchop" || die
cat > "${workdir}/bin/gnatprep" <<-_EOF_ || die
#!/bin/sh
exec "${GNATPREP}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gnatprep" || die
cat > "${workdir}/bin/gnat" <<-_EOF_ || die
#!/bin/sh
exec "${GNAT}" "\${@}"
_EOF_
chmod a+x "${workdir}/bin/gnat" || die
fi
# Now, set the environment.
# But note that ${workdir} may be shared with something else,
# and thus already on top of PATH.
if [[ ${PATH##:*} != ${workdir}/bin ]]; then
PATH=${workdir}/bin${PATH:+:${PATH}}
fi
export PATH
}
# @FUNCTION: ada_setup
# @DESCRIPTION:
# Determine what the selected Ada implementation is and set
# the Ada build environment up for it.
ada_setup() {
debug-print-function ${FUNCNAME} "${@}"
unset EADA
if [[ ${#_ADA_SUPPORTED_IMPLS[@]} -eq 1 ]]; then
if use "ada_target_${_ADA_SUPPORTED_IMPLS[0]}"; then
# Only one supported implementation, enable it explicitly
ada_export "${_ADA_SUPPORTED_IMPLS[0]}" EADA GCC_PV GNAT GNATBIND GNATLS GNATMAKE
ada_wrapper_setup
fi
else
local impl
for impl in "${_ADA_SUPPORTED_IMPLS[@]}"; do
if use "ada_target_${impl}"; then
if [[ ${EADA} ]]; then
eerror "Your ADA_TARGET setting lists more than a single Ada"
eerror "implementation. Please set it to just one value. If you need"
eerror "to override the value for a single package, please use package.env"
eerror "or an equivalent solution (man 5 portage)."
echo
die "More than one implementation in ADA_TARGET."
fi
ada_export "${impl}" EADA GCC_PV GNAT GNATBIND GNATLS GNATMAKE
ada_wrapper_setup
fi
done
fi
if [[ ! ${EADA} ]]; then
eerror "No Ada implementation selected for the build. Please set"
if [[ ${#_ADA_SUPPORTED_IMPLS[@]} -eq 1 ]]; then
eerror "the ADA_TARGETS variable in your make.conf to include one"
else
eerror "the ADA_SINGLE_TARGET variable in your make.conf to one"
fi
eerror "of the following values:"
eerror
eerror "${_ADA_SUPPORTED_IMPLS[@]}"
echo
die "No supported Ada implementation in ADA_SINGLE_TARGET/ADA_TARGETS."
fi
}
# @FUNCTION: ada_pkg_setup
# @DESCRIPTION:
# Runs ada_setup.
ada_pkg_setup() {
debug-print-function ${FUNCNAME} "${@}"
[[ ${MERGE_TYPE} != binary ]] && ada_setup
}
|