# Copyright 1999-2006 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/haskell-cabal.eclass,v 1.15 2009/07/27 19:03:20 kolmodin Exp $ # # Original authors: Andres Loeh # Duncan Coutts # Maintained by: Haskell herd # # This eclass is for packages that make use of the # Haskell Common Architecture for Building Applications # and Libraries (cabal). # # Basic instructions: # # Before inheriting the eclass, set CABAL_FEATURES to # reflect the tools and features that the package makes # use of. # # Currently supported features: # haddock -- for documentation generation # alex -- lexer/scanner generator # happy -- parser generator # c2hs -- C interface generator # cpphs -- C preprocessor clone written in Haskell # profile -- if package supports to build profiling-enabled libraries # bootstrap -- only used for the cabal package itself # bin -- the package installs binaries # lib -- the package installs libraries # # Dependencies on other cabal packages have to be specified # correctly. # # Cabal libraries should usually be SLOTted with "${PV}". # # Many Cabal packages require S to be manually set. # # Conforming Cabal packages don't require any function definitions # in the ebuild. # # Special flags to Cabal Configure can now be set by using # CABAL_CONFIGURE_FLAGS inherit ghc-package multilib for feature in ${CABAL_FEATURES}; do case ${feature} in haddock) CABAL_USE_HADDOCK=yes;; alex) CABAL_USE_ALEX=yes;; happy) CABAL_USE_HAPPY=yes;; c2hs) CABAL_USE_C2HS=yes;; cpphs) CABAL_USE_CPPHS=yes;; profile) CABAL_USE_PROFILE=yes;; bootstrap) CABAL_BOOTSTRAP=yes;; bin) CABAL_HAS_BINARIES=yes;; lib) CABAL_HAS_LIBRARIES=yes;; *) CABAL_UNKNOWN="${CABAL_UNKNOWN} ${feature}";; esac done if [[ -n "${CABAL_USE_HADDOCK}" ]]; then IUSE="${IUSE} doc" DEPEND="${DEPEND} doc? ( dev-haskell/haddock )" fi if [[ -n "${CABAL_USE_ALEX}" ]]; then DEPEND="${DEPEND} dev-haskell/alex" cabalconf="${cabalconf} --with-alex=/usr/bin/alex" fi if [[ -n "${CABAL_USE_HAPPY}" ]]; then DEPEND="${DEPEND} dev-haskell/happy" cabalconf="${cabalconf} --with-happy=/usr/bin/happy" fi if [[ -n "${CABAL_USE_C2HS}" ]]; then DEPEND="${DEPEND} dev-haskell/c2hs" cabalconf="${cabalconf} --with-c2hs=/usr/bin/c2hs" fi if [[ -n "${CABAL_USE_CPPHS}" ]]; then DEPEND="${DEPEND} dev-haskell/cpphs" cabalconf="${cabalconf} --with-cpphs=/usr/bin/cpphs" fi if [[ -n "${CABAL_USE_PROFILE}" ]]; then IUSE="${IUSE} profile" fi # We always use a standalone version of Cabal, rather than the one that comes # with GHC. But of course we can't depend on cabal when building cabal itself. if [[ -z ${CABAL_MIN_VERSION} ]]; then CABAL_MIN_VERSION=1.1.4 fi if [[ -z "${CABAL_BOOTSTRAP}" ]]; then DEPEND="${DEPEND} >=dev-haskell/cabal-${CABAL_MIN_VERSION}" fi # Libraries require GHC to be installed. if [[ -n "${CABAL_HAS_LIBRARIES}" ]]; then RDEPEND="${RDEPEND} dev-lang/ghc" fi # returns the version of cabal currently in use _CABAL_VERSION_CACHE="" cabal-version() { if [[ -z "${_CABAL_VERSION_CACHE}" ]]; then if [[ "${CABAL_BOOTSTRAP}" ]]; then # We're bootstrapping cabal, so the cabal version is the version # of this package itself. _CABAL_VERSION_CACHE="${PV}" else # We ask portage, not ghc, so that we only pick up # portage-installed cabal versions. _CABAL_VERSION_CACHE="$(ghc-extractportageversion dev-haskell/cabal)" fi fi echo "${_CABAL_VERSION_CACHE}" } cabal-bootstrap() { local setupmodule local cabalpackage if [[ -f "${S}/Setup.lhs" ]]; then setupmodule="${S}/Setup.lhs" else if [[ -f "${S}/Setup.hs" ]]; then setupmodule="${S}/Setup.hs" else die "No Setup.lhs or Setup.hs found" fi fi # We build the setup program using the latest version of # cabal that we have installed if version_is_at_least "6.4" "$(ghc-version)"; then cabalpackage=Cabal-$(cabal-version) else # older ghc's don't support package versioning cabalpackage=Cabal fi einfo "Using cabal-$(cabal-version)." $(ghc-getghc) -package "${cabalpackage}" --make "${setupmodule}" -o setup \ || die "compiling ${setupmodule} failed" } cabal-mksetup() { local setupdir if [[ -n $1 ]]; then setupdir=$1 else setupdir=${S} fi rm -f "${setupdir}"/Setup.{lhs,hs} echo 'import Distribution.Simple; main = defaultMainWithHooks defaultUserHooks' \ > $setupdir/Setup.hs } cabal-haddock() { ./setup haddock || die "setup haddock failed" } cabal-configure() { if [[ -n "${CABAL_USE_HADDOCK}" ]] && use doc; then cabalconf="${cabalconf} --with-haddock=/usr/bin/haddock" fi if [[ -n "${CABAL_USE_PROFILE}" ]] && use profile; then cabalconf="${cabalconf} --enable-library-profiling" fi # Building GHCi libs on ppc64 causes "TOC overflow". if use ppc64; then cabalconf="${cabalconf} --disable-library-for-ghci" fi if version_is_at_least "1.2.0" "$(cabal-version)"; then cabalconf="${cabalconf} --docdir=/usr/share/doc/${PF}" # As of Cabal 1.2, configure is quite quiet. For diagnostic purposes # it's better if the configure chatter is in the build logs: cabalconf="${cabalconf} --verbose" fi # Note: with Cabal-1.1.6.x we do not have enough control # to put the docs into the right place. They're currently going # into /usr/share/${P}/ghc-x.y/doc/ # rather than /usr/share/doc/${PF}/ # Because we can only set the datadir, not the docdir. ./setup configure \ --ghc --prefix=/usr \ --with-compiler="$(ghc-getghc)" \ --with-hc-pkg="$(ghc-getghcpkg)" \ --prefix=/usr \ --libdir=/usr/$(get_libdir) \ --libsubdir=${P}/ghc-$(ghc-version) \ --datadir=/usr/share/ \ --datasubdir=${P}/ghc-$(ghc-version) \ ${cabalconf} \ ${CABAL_CONFIGURE_FLAGS} \ "$@" || die "setup configure failed" } cabal-build() { unset LANG LC_ALL LC_MESSAGES ./setup build \ || die "setup build failed" } cabal-copy() { ./setup copy \ --destdir="${D}" \ || die "setup copy failed" # cabal is a bit eager about creating dirs, # so remove them if they are empty rmdir "${D}/usr/bin" 2> /dev/null # GHC 6.4 has a bug in get/setPermission and Cabal 1.1.1 has # no workaround. # set the +x permission on executables if [[ -d "${D}/usr/bin" ]] ; then chmod +x "${D}/usr/bin/"* fi # TODO: do we still need this? } cabal-pkg() { # This does not actually register since we're using true instead # of ghc-pkg. So it just leaves the .installed-pkg-config and we can # register that ourselves (if it exists). local result local err if [[ -n ${CABAL_HAS_LIBRARIES} ]]; then if version_is_at_least "1.2.0" "$(cabal-version)"; then # Newer cabal can generate a package conf for us: ./setup register --gen-pkg-config="${T}/${P}.conf" ghc-setup-pkg "${T}/${P}.conf" ghc-install-pkg else # With older cabal we have to hack it by replacing its ghc-pkg # with true and then just picking up the .installed-pkg-config # file and registering that ourselves (if it exists). sed -i "s|$(ghc-getghcpkg)|$(type -P true)|" .setup-config ./setup register || die "setup register failed" if [[ -f .installed-pkg-config ]]; then ghc-setup-pkg .installed-pkg-config ghc-install-pkg else die "setup register has not generated a package configuration file" fi fi fi } # Some cabal libs are bundled along with some versions of ghc # eg filepath-1.0 comes with ghc-6.6.1 # by putting CABAL_CORE_LIB_GHC_PV="6.6.1" in an ebuild we are declaring that # when building with this version of ghc, the ebuild is a dummy that is it will # install no files since the package is already included with ghc. # However portage still records the dependency and we can upgrade the package # to a later one that's not included with ghc. # You can also put a space separated list, eg CABAL_CORE_LIB_GHC_PV="6.6 6.6.1". cabal-is-dummy-lib() { for version in ${CABAL_CORE_LIB_GHC_PV[*]}; do [[ "$(ghc-version)" == "$version" ]] && return 0 done return 1 } # exported function: check if cabal is correctly installed for # the currently active ghc (we cannot guarantee this with portage) haskell-cabal_pkg_setup() { ghc-package_pkg_setup if [[ -z "${CABAL_BOOTSTRAP}" ]] && ! ghc-sanecabal "${CABAL_MIN_VERSION}"; then eerror "The package dev-haskell/cabal is not correctly installed for" eerror "the currently active version of ghc ($(ghc-version)). Please" eerror "run ghc-updater or re-emerge dev-haskell/cabal." die "cabal is not correctly installed" fi if [[ -z "${CABAL_HAS_BINARIES}" ]] && [[ -z "${CABAL_HAS_LIBRARIES}" ]]; then eerror "QA: Neither bin nor lib are in CABAL_FEATURES." fi if [[ -n "${CABAL_UNKNOWN}" ]]; then ewarn "Unknown entry in CABAL_FEATURES: ${CABAL_UNKNOWN}" fi if cabal-is-dummy-lib; then einfo "${P} is included in ghc-${CABAL_CORE_LIB_GHC_PV}, nothing to install." fi } # exported function: cabal-style bootstrap configure and compile cabal_src_compile() { if ! cabal-is-dummy-lib; then cabal-bootstrap cabal-configure cabal-build if [[ -n "${CABAL_USE_HADDOCK}" ]] && use doc; then cabal-haddock fi fi } haskell-cabal_src_compile() { cabal_src_compile } # exported function: cabal-style copy and register cabal_src_install() { if cabal-is-dummy-lib; then # create a dummy local package conf file for the sake of ghc-updater dodir "$(ghc-confdir)" echo '[]' > "${D}/$(ghc-confdir)/$(ghc-localpkgconf)" else cabal-copy cabal-pkg if [[ -n "${CABAL_USE_HADDOCK}" ]] && use doc; then if ! version_is_at_least "1.1.6" "$(cabal-version)"; then dohtml -r dist/doc/html/* fi fi fi } haskell-cabal_src_install() { cabal_src_install } EXPORT_FUNCTIONS pkg_setup src_compile src_install